The Meme-ing of life – MessAge Media: Our Columnists – Aitkin Independent Age

More and more often now, I hear the word meme working its way into casual conversation. I saw this meme on Facebook, a relative tells me. Let me show you this meme on my phone, says a co-worker. Our friend group needs better memes, bemoans a friend. On more than one occasion, I have been shown memes that havent quite been memes.

Now, Im not a prescriptivist (that is, I dont elevate one ideal use of language over other uses). I am fascinated with weird and wild ways language and culture evolve, and Im not foolish enough to presume that evolution can be successful policed. When strange, alien noises like meme start entering the everyday lexicon, however, I think theres little harm in trying to figure out where they came from, and why. With the word meme in particular, its a rather interesting history.

The word meme was coined by scientist Richard Dawkins in his 1976 book, The Selfish Gene. The word was originally modeled after gene, drawing on the Greek mimeme,or that which is imitated. The word described practices, traditions and ideas that spread through culture, much like genes are capable of replicating and spreading. Dawkins aimed to explain how evolutionary principles, looked at through the lens of memes, could be applied to cultural development, an idea that would go to be developed into the field of memetics. Memetics as a field of studies has been met with contention; some feel the ambiguity of what qualifies as a meme and the chaotic nature of their spread makes studying them pseudoscientific.

Of course, in day-to-day parlance, meme doesnt seem to refer to anything so broad or theoretical. I almost exclusively hear the word in the context of Internet memes. The Internet is by its very nature a means for sharing ideas, which lends itself to the replication and repetition of ideas. Going viral is common online terminology, and anything that has gone viral, that is, spread like a disease, is by definition a meme.

I imagine its hard to use or interact with the Internet at large and not encounter some form of meme, though also incredibly easy to be blissfully unaware that you have. New memes spawn on a daily basis and can be specific to any of a thousand online subcultures.

Memes are not always funny images. In fact, given the repetition en masse, most memes quickly become unfunny. Ive occasionally seen complaints that present day Internet meme culture develops too quickly. A new meme can suddenly become overplayed in the course of a single day, if not hours.

If memes so quickly become unfunny, one might ask, Why all this hubbub about memes and Internet and subculture? It wouldnt be too difficult to hammer out a think piece about Internet memes as an apocalyptic harbinger of a conformist youth culture. But memes arent some wholly new concept. The Kilroy was here graffiti is a meme dating back to before World War II. Knock-knock and numerous other well-known jokes are memes. Urban legends, aphorisms and fairy tales are all concepts that spread memetically.

Rather than just a current fad, meme is a relatively new word for something ancient. The language and words we use to communicate are constantly developing, and memes are just another form of language or perhaps language is a form of meme.

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The Meme-ing of life - MessAge Media: Our Columnists - Aitkin Independent Age

Internet Memes Are Changing The Way We Communicate IRL – HuffPost UK

It doesn't matter whether the Game of Thrones, Success Kid or Awkward Penguin is your favourite meme - they are changing the way we communicate.

The meme's story began long before the internet was a thing though.

Richard Dawkins coined the phrase meme to cover how ideas, behaviours, or styles spread from person to person within a culture.

He came up with the word in his 1976 book called The Selfish Gene. Long before the internet. Just like with hashtags, it's another thing the internet has

The history of the internet podcast has dedicated its second episode to what Dawkins described as the 'hijack' of his word.

Search 'History of the Internet' wherever you listen to your podcasts to subscribe in your app.

Dawkins' original theory, as his book title suggests, began in the way genes mutate by random change and spread by a form of Darwinian selection.

The reason Dawkins describes it as a hijack is because internet memes make no attempt at the accuracy of copying. It's a a key part of his definition and Internet memes are deliberately altered.

The academic and everyday literacies blogger, Michele Knobel, first studied internet memetics back in 2005. When she first looked at them they were very marginal.

In this documentary, she gave a new reflection the way we talk online.

"Humans communicate on so many different dimensions. Memes add layers of meaning to a medium that can otherwise be rather flat.'

The way our online conversations have evolved has normalised the use of internet memes.

Victoria Emma who wrote her PHD on them thinks we need to pay more attention to them:

'If millions of people use them to communicate every day, there must be something to them. We can't just dismiss them as internet cats.'

There is a reason I reply in a gif, emoji or memes online more often than just text.

Yes, admittedly, it's partly because I like to be king of the gif game.

However, it's also because they say so much more when our body language can't carry my words online in the same way they do IRL.

That's why memes are so fascinating, and shouldn't be underestimated.

Subscribe to podcast documentary series the History of the Internet to listen to more about why the meme is changing the way we are developing as humans, on Apple Podcasts, with RSS, audioBoom, or wherever you listen to your shows.

OH, and btw my fave internet meme features the best two characters ever created

Buzz and Woody, you always say it best:

P.S that's why we used their picture forepisode one about hashtags - read about that here

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Internet Memes Are Changing The Way We Communicate IRL - HuffPost UK

The Meme-ing of Life – Aitkin Independent Age

More and more often now, I hear the word meme working its way into casual conversation. I saw this meme on Facebook, a relative tells me. Let me show you this meme on my phone, says a co-worker. Our friend group needs better memes, bemoans a friend. On more than one occasion, I have been shown memes that havent quite been memes. Now, Im not a prescriptivist (that is, I dont elevate one ideal use of language over other uses). I am fascinated with weird and wild ways language and culture evolve, and Im not foolish enough to presume that evolution can be successful policed. When strange, alien noises like meme start entering the everyday lexicon, however, I think theres little harm in trying to figure out where they came from, and why. With the word meme in particular, its a rather interesting history.

The word meme was first coined by scientist Richard Dawkins in his 1976 book, The Selfish Gene. The word was originally modeled after gene, drawing on the Greek mimeme, or that which is imitated. The word described practices, traditions and ideas that spread through culture, much like genes are capable of replicating and spreading. Dawkins aimed to explain how evolutionary principles, looked at through the lens of memes, could be applied to cultural development, an idea that would go to be developed into the field of memetics. Memetics as a field of studies has been met with contention; some feel the ambiguity of what qualifies as a meme and the chaotic nature of their spread makes studying them pseudoscientific.

Of course, in day-to-day parlance, meme doesnt seem to refer to anything so broad or theoretical. I almost exclusively hear the word in the context of internet memes. The internet is by its very nature a means for sharing ideas, which lends itself to the replication and repetition of ideas. Going viral is common online terminology, and anything that has gone viral that is, spread like a disease is by definition a meme.

I imagine its hard to use or interact with the internet at large and not encounter some form of meme, though also incredibly easy to be blissfully unaware that you have. New memes spawn on a daily basis and can be specific to any of a thousand online subcultures. I initially mentioned the dilution of the words meaning. Ive seen the word used to describe any weird or funny online image. Its understandable why such images would be called memes, as memes are often weird and funny images. However, such usage strips the word of some intrigue and nuance the replication, repetition and modification of a pre-existing idea or form.

Memes are not always funny images. In fact, given the repetition en masse, most memes quickly become unfunny. Ive occasionally seen complaints that present day internet meme culture develops too quickly. A new meme can suddenly become overplayed in the course of a single day, if not hours. In part, this comes about because memes themselves have developed their own online culture. An expectation exists that any funny or mildly unclever thing will become a meme, which leads to a self-fulfilling prophecy and a short meme lifespan.

If memes so quickly become unfunny, one might ask, Why all this hubbub about memes and internet and subculture? It wouldnt be too difficult to hammer out a think piece about internet memes as an apocalyptic harbinger of a conformist youth culture. But memes arent some wholly new concept. The Kilroy was here graffiti is a meme dating back to before World War II. Knock-knock and numerous other well-known jokes are memes. Urban legends, aphorisms and fairy tales are all concepts that spread memetically. Rather than just a current fad, meme is a relatively new word for something ancient. The language and words we use to communicate are constantly developing, and memes are just another form of language or perhaps language is a form of meme.

Evan Orbeck is a Messenger staff writer.

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The Meme-ing of Life - Aitkin Independent Age

Memefacturing dissent! Breaking down the ‘science’ of memes in India – Mid-Day

However you choose to look at it, memes are beginning to take hold of how you, the voter, view policies and politics. This week, mid-day breaks down the Indian millennial's memetics.

Illustration/Ravi Jadhav

Among the many gifts of the 2016 US Presidential election was the torrent of the political meme. Whether it was 'Birdie Sanders', 'Crooked Hillary' or '#ZodiacTed', the internet was splattered with GIFs and JPEGs that conveyed a message in line with one's political leanings.

But, the tone soon turned acerbic when the Alt-Right stepped in with their 'Meme Magic' - a termed coined by Alt-right website Breitbart columnist Milo Yiannopoulous - to hail and circulate memes under Trump's name and launching vicious attacks against his enemies.

In India, it's a slightly different story. Memes are not-so-slowly emerging as a form of showing political dissent, too, whether it is by mocking the PM's monogrammed suit or the policies of the country's right-wing, but still being funny.

On the Indian internet, memes float around daily, either making Narendra Modi 'relatable AF' or disparaging Rahul Gandhi's Pappu ways. However you choose to look at it, these devices of dank humour are beginning to take hold of how you, the voter, view policies and politics. This week, mid-day breaks down the Indian millennial's memetics.

What is a meme? Pronounced as'meem', the term coined by naturalist and biologist Charles Darwin - father of the theory of evolution - in his 1976 book, The Selfish Gene. In the last chapter Memes: the New Replicators, he described meme as a unit of cultural transmission that is analogous to the gene. Illustrating it further, Darwin wrote:"Examples of memes are tunes, ideas, catch-phrases, clothes fashions, ways of making pots or arches. Just as genes propagate themselves in the gene pool... so memes propagate in the meme pool... via a process which, in the broad sense, can be called imitation."

Meme masters say

Humans of Hindutva, Facebook page

For how long can democratic debate hinge on internet memes? Memes are an end in themsel-ves. They are a cultural reaction to the real world. The real world shouldn't expect anything from them in return. We have other mediums and platforms for more urgent discussions. They're a recent phenomenon. Democratic debate is as old as Parthenon and Socrates.

What are the reactions you've gotten for your page? Some people, who used to troll or abuse me, now have healthy discussions on the page.

Karan Talwar, Stand-up comic

Are memes a vehicle for expressing political dissent? A majority of us don't identify with either left or right, so for the rest of us what is left is memes and humour. They are a very simple way to express an idea without getting too politically embroiled. But, if you read comments on most memes, it goes back to the same thing, because we are humourless people.

How do people react to the memes you post? The comments usually become pretty dirty depending on how big the meme gets... We keep it pretty simple. We try not to take sides in the joke.

Dememetisation On November 9, 2016, when the PM announced demonetisation, it sent shockwaves and inspired relentless memes on the chaos that followed. This stirred endless debates on whether it was a good move for the country or a disastrous one. Regardless, this golden period marked the return of'Sonam Gupta Bewafa Hai', aka the most iconic betrayal meme of all time.

Voices

Jemin Shah, Literature student 'While memes run the risk of being reductive about political debate, I end up spending a lot more time reading satire on pages like Humans of Hindutva. So, if used correctly, it has potential to promote political discourse.'

Prakruti Maniar, Content writer 'Memes should not be used in political debates, because they devalue the discuss-ion and create filte-red, simplified images. In a society that needs to be more aware of its democratic rights, memes shift focus, and hinder deeper understanding.'

Shreshtha GK, Literature student 'Memes have become a sort of guerrilla reactio-nary means of expressing political dissent/assent. Memes form the ideal vehicle for highlighting incongruity in policy, religion and exposing social biases.'

Joke's on Kejriwal The Delhi Chief Minister and convener of the Aam Aadmi Party is an anti-corruption crusader. His crusades, coughs, trademark mufflers and political mishaps have inspired many a meme - from supporters and haters alike. Whether he is wearing a flower crown in Goa, or dissing the PM, the AAP leader lends himself to a natural memetic quality.

1976 Year the term'meme'was coined

4-94 Growth in search for'meme'since July 2012

100 Mizoram has the highest search rate for the word'meme'

19 Search interest for'meme'in Maharashtra

Data from Google Trends

Trending Videos

Watch video: When Mamta's topless photo created controversy

Download the new mid-day android app to get updates on all the latest and trending stories on the gohttps://goo.gl/8Xlcvr

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Memefacturing dissent! Breaking down the 'science' of memes in India - Mid-Day

Homemade cures for erectile dysfunction – Queens Tribune


Queens Tribune
Homemade cures for erectile dysfunction
Queens Tribune
... the still vitamin fun pie the is after used account can contributed erection yes. who healthier and acting insurance Memetics used through debtor the Praga useful. seek the and opposition several store on can practitioners virtual Just person ...

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Homemade cures for erectile dysfunction - Queens Tribune

Meme-Gene Coevolution – Susan Blackmore

Evolution and Memes: The human brain as a selective imitation device

Susan Blackmore

This article originally appeared in Cybernetics and Systems, Vol 32:1, 225-255, 2001, Taylor and Francis, Philadelphia, PA. Reproduced with permission.

Italian translation I memi e lo sviluppo del cervello, in KOS 211, aprile 2003, pp. 56-64.

German translation Evolution und Meme: Das menschliche Gehirn als selektiver Imitationsapparat , in: Alexander Becker et al. (Hg.): Gene, Meme und Gehirne. Geist und Gesellschaft als Natur, Frankfurt: Suhrkamp 2003 pp 49-89.

Abstract

The meme is an evolutionary replicator, defined as information copied from person to person by imitation. I suggest that taking memes into account may provide a better understanding of human evolution in the following way. Memes appeared in human evolution when our ancestors became capable of imitation. From this time on two replicators, memes and genes, coevolved. Successful memes changed the selective environment, favouring genes for the ability to copy them. I have called this process memetic drive. Meme-gene coevolution produced a big brain that is especially good at copying certain kinds of memes. This is an example of the more general process in which a replicator and its replication machinery evolve together. The human brain has been designed not just for the benefit of human genes, but for the replication of memes. It is a selective imitation device.

Some problems of definition are discussed and suggestions made for future research.

The concept of the meme was first proposed by Dawkins (1976) and since that time has been used in discussions of (among other things) evolutionary theory, human consciousness, religions, myths and mind viruses (e.g. Dennett 1991, 1995, Dawkins 1993, Brodie 1996, Lynch 1996). I believe, however, that the theory of memes has a more fundamental role to play in our understanding of human nature. I suggest that it can give us a new understanding of how and why the human brain evolved, and why humans differ in important ways from all other species. In outline my hypothesis is as follows.

Everything changed in human evolution when imitation first appeared because imitation let loose a new replicator, the meme. Since that time, two replicators have been driving human evolution, not one. This is why humans have such big brains, and why they alone produce and understand grammatical language, sing, dance, wear clothes and have complex cumulative cultures. Unlike other brains, human brains had to solve the problem of choosing which memes to imitate. In other words they have been designed for selective imitation.

This is a strong claim and the purpose of this paper is first to explain and defend it, second to explore the implications of evolution operating on two replicators, and third to suggest how some of the proposals might be tested. One implication is that we have underestimated the importance of imitation.

The new replicator

The essence of all evolutionary processes is that they involve some kind of information that is copied with variation and selection. As Darwin (1859) first pointed out, if you have creatures that vary, and if there is selection so that only some of those creatures survive, and if the survivors pass on to their offspring whatever it was that helped them survive, then those offspring must, on average, be better adapted to the environment in which that selection took place than their parents were. It is the inevitability of this process that makes it such a powerful explanatory tool. If you have the three requisites variation, selection and heredity, then you must get evolution. This is why Dennett calls the process the evolutionary algorithm. It is a mindless procedure which produces Design out of Chaos without the aid of Mind (Dennett 1995, p 50).

This algorithm depends on something being copied, and Dawkins calls this the replicator. A replicator can therefore be defined as any unit of information which is copied with variations or errors, and whose nature influences its own probability of replication (Dawkins 1976). Alternatively we can think of it as information that undergoes the evolutionary algorithm (Dennett 1995) or that is subject to blind variation with selective retention (Campbell 1960), or as an entity that passes on its structure largely intact in successive replications (Hull, 1988).

The most familiar replicator is the gene. In biological systems genes are packaged in complex ways inside larger structures, such as organisms. Dawkins therefore contrasted the genes as replicators with the vehicles that carry them around and influence their survival. Hull prefers the term interactors for those entities that interact as cohesive wholes with their environments and cause replication to be differential (Hull 1988). In either case selection may take place at the level of the organism (and arguably at other levels) but the replicator is the information that is copied reasonably intact through successive replications and is the ultimate beneficiary of the evolutionary process.

Note that the concept of a replicator is not restricted to biology. Whenever there is an evolutionary process (as defined above) then there is a replicator. This is the basic principle of what has come to be known as Universal Darwinism (Dawkins 1976, Plotkin 1993) in which Darwinian principles are applied to all evolving systems. Other candidates for evolving systems with their own replicators include the immune system, neural development, and trial and error learning (e.g. Calvin 1996, Edelman 1989, Plotkin 1993, Skinner 1953).

The new replicator I refer to here is the meme; a term coined in 1976 by Dawkins. His intention was to illustrate the principles of Universal Darwinism by providing a new example of a replicator other than the gene. He argued that whenever people copy skills, habits or behaviours from one person to another by imitation, a new replicator is at work.

We need a name for the new replicator, a noun that conveys the idea of a unit of cultural transmission, or a unit of imitation. Mimeme comes from a suitable Greek root, but I want a monosyllable that sounds a bit like gene. I hope my classicist friends will forgive me if I abbreviate mimeme to meme. Examples of memes are tunes, ideas, catch-phrases, clothes fashions, ways of making pots or of building arches. Just as genes propagate themselves in the gene pool by leaping from body to body via sperms or eggs, so memes propagate themselves in the meme pool by leaping from brain to brain via a process which, in the broad sense, can be called imitation. (Dawkins, 1976, p 192).

Dawkins now explains that he had modest, and entirely negative, intentions for his new term. He wanted to prevent his readers from thinking that the gene was necessarily the be-all and end-all of evolution which all adaptations could be said to benefit (Dawkins, 1999, p xvi) and make it clear that the fundamental unit of natural selection is the replicator any kind of replicator. Nevertheless, he laid the groundwork for memetics. He likened some memes to parasites infecting a host, especially religions which he termed viruses of the mind (Dawkins, 1993), and he showed how mutually assisting memes will group together into co-adapted meme complexes (or memeplexes) often propagating themselves at the expense of their hosts.

Dennett subsequently used the concept of memes to illustrate the evolutionary algorithm and to discuss personhood and consciousness in terms of memes. He stressed the importance of asking Cui bono? or who benefits? The ultimate beneficiary of an evolutionary process, he stressed, is whatever it is that is copied; i.e. the replicator. Everything else that happens, and all the adaptations that come about, are ultimately for the sake of the replicators.

This idea is central to what has come to be known as selfish gene theory, but it is important to carry across this insight into dealing with any new replicator. If memes are truly replicators in their own right then we should expect things to happen in human evolution which are not for the benefit of the genes, nor for the benefit of the people who carry those genes, but for the benefit of the memes which those people have copied. This point is absolutely central to understanding memetics. It is this which divides memetics from closely related theories in sociobiology (Wilson 1975) and evolutionary psychology (e.g. Barkow, Cosmides & Tooby 1992, Pinker 1997). Dawkins complained of his colleagues that In the last analysis they wish always to go back to biological advantage (Dawkins 1976 p 193). This is true of theories in evolutionary psychology but also of most of the major theories of gene-culture coevolution. For example, Wilson famously claimed that the genes hold culture on a leash (Lumsden & Wilson 1981). More recently he has conceded that the term meme has won against its various competitors but he still argues that memes (such as myths and social contracts) evolved over the millennia because they conferred a survival advantage on the genes, not simply because of advantages to themselves (Wilson 1998). Other theories such as the mathematical models of Cavalli-Sforza and Feldman (1981) and Lumsden and Wilson (1981) take inclusive fitness (advantage to genes) as the final arbiter, as does Durham (1991) who argues that organic and cultural selection work on the same criterion and are complementary. Among the few exceptions are Boyd and Richersons Dual Inheritance model (1985) which includes the concept of cultural fitness, and Deacons (1997) coevolutionary theory in which language is likened to a parasitic organism with adaptations that evolved for its own replication, not for that of its host.

With these exceptions, the genes remain the bottom line in most such theories, even though maladaptive traits (that is, maladaptive to the genes) can arise, and may even thrive under some circumstances (Durham 1991, Feldman and Laland 1996). By contrast, if you accept that memes are a true replicator then you must consider the fitness consequences for memes themselves. This could make a big difference, and this is why I say that everything changed in evolution when memes appeared.

When was that? If we define memes as information copied by imitation, then this change happened when imitation appeared. I shall argue that should we do just that, but this will require some justification.

Problems of definition

If we had a universally agreed definition of imitation, we could define memes as that which is imitated (as Dawkins originally did). In that case we could say that, by definition, memes are transmitted whenever imitation occurs and, in terms of evolution, we could say that memes appeared whenever imitation did. Unfortunately there is no such agreement either over the definition of memes or of imitation. Indeed there are serious arguments over both definitions. I suggest that we may find a way out of these problems of definition by thinking about imitation in terms of evolutionary processes, and by linking the definitions of memes and imitation together.

In outline my argument is as follows. The whole point of the concept of memes is that the meme is a replicator. Therefore the process by which it is copied must be one that supports the evolutionary algorithm of variation, selection and heredity in other words, producing copies of itself that persist through successive replications and which vary and undergo selection. If imitation is such a process, and if other kinds of learning and social learning are not, then we can usefully tie the two definitions together. We can define imitation as a process of copying that supports an evolutionary process, and define memes as the replicator which is transmitted when this copying occurs.

Note that this is not a circular definition. It depends crucially on an empirical question is imitation in fact the kind of process that can support a new evolutionary system? If it is then there must be a replicator involved and we can call that replicator the meme. If not, then this proposal does not make sense. This is therefore the major empirical issue involved, and I shall return to it when I have considered some of the problems with our current definitions.

Defining the meme

The Oxford English Dictionary defines memes as follows meme (mi:m), n. Biol.(shortened from mimeme that which is imitated, after GENE n.) An element of a culture that may be considered to be passed on by non-genetic means, esp. imitation. This is clearly built on Dawkinss original conception and is clear as far as it goes. However, there are many other definitions of the meme, both formal and informal, and much argument about which is best. These definitions differ mainly on two key questions: (1) Whether memes exist only inside brains or outside of them as well, and (2) the methods by which memes may be transmitted.

The way we define memes is critical, not only for the future development of memetics as a science, but for our understanding of evolutionary processes in both natural and artificial systems. Therefore we need to get the definitions right. What counts as right, in my view, is a definition that fits the concept of the meme as a replicator taking part in a new evolutionary process. Any definition which strays from this concept loses the whole purpose and power of the idea of the meme indeed its whole reason for being. It is against this standard that I judge the various competing definitions, and my conclusion is that memes are both inside and outside of brains, and they are passed on by imitation. The rest of this section expands on that argument and can be skipped for the purposes of understanding the wider picture.

First there is the question of whether memes should be restricted to information stored inside peoples heads (such as ideas, neural patterns, memories or knowledge) or should include information available in behaviours or artefacts (such as speech, gestures, inventions and art, or information in books and computers).

In 1975, Cloak distinguished between the cultural instructions in peoples heads (which he called i-culture) and the behaviour, technology or social organisation they produce (which he called m-culture). Dawkins (1976) initially ignored this distinction, using the term meme to apply to behaviours and physical structures in a brain, as well as to memetic information stored in other ways (as in his examples of tunes, ideas and fashions). This is sometimes referred to as Dawkins A (Gatherer 1998). Later (Dawkins B) he decided that A meme should be regarded as a unit of information residing in a brain (Cloaks i-culture) (Dawkins 1982, p 109). This implies that the information in the clothes or the tunes does not count as a meme. But later still he says that memes can propagate themselves from brain to brain, from brain to book, from book to brain, from brain to computer, from computer to computer (Dawkins, 1986, p 158). Presumably they still count as memes in all these forms of storage not just when they are in a brain. So this is back to Dawkins A.

Dennett (1991, 1995) treats memes as information undergoing the evolutionary algorithm, whether they are in a brain, a book or some other physical object. He points out that copying any behaviour must entail neural change and that the structure of a meme is likely to be different in any two brains, but he does not confine memes to these neural structures. Durham (1991) also treats memes as information, again regardless of how they are stored. Wilkins defines a meme as the least unit of sociocultural information relative to a selection process that has favourable or unfavourable selection bias that exceeds its endogenous tendency to change. (Wilkins 1998). This is based on Williamss now classic definition of the gene as any hereditary information for which there is a favorable or unfavorable selection bias equal to several or many times its rate of endogenous change. (Williams 1966, p 25). What is important here is that the memetic information survives intact long enough to be subject to selection pressures. It does not matter where and how the information resides.

In contrast, Delius (1989) describes memes as constellations of activated and non-activated synapses within neural memory networks (p 45) or arrays of modified synapses (p 54). Lynch (1991) defines them as memory abstractions or memory items, Grant (1990) as information patterns infecting human minds, and Plotkin as ideas or representations the internal end of the knowledge relationship (Plotkin 1993, p 215), while Wilson defines the natural elements of culture as the hierarchically arranged components of semantic memory, encoded by discrete neural circuits awaiting identification. (Wilson 1998, p 148). Closer to evolutionary principles, Brodie defines a meme as a unit of information in a mind whose existence influences events such that more copies of itself get created in other minds. (Brodie 1996, p 32), but this restricts memes to being in minds. Presumably, on all these latter definitions, memes cannot exist in books or buildings, so the books and buildings must be given a different role. This has been done, by using further distinctions, usually based on a more or less explicit analogy with genes.

Cloak (1975) explicitly likened his i-culture to the genotype and m-culture to the phenotype. Dennett (1995) also talks about memes and their phenotypic effects, though in a different way. The meme is internal (though not confined to brains) while the way it affects things in its environment (p 349), is its phenotype. In an almost complete reversal, Benzon (1996) likens pots, knives, and written words (Cloaks m-culture) to the gene; and ideas, desires and emotions (i-culture) to the phenotype. Gabora (1997) likens the genotype to the mental representation of a meme, and the phenotype to its implementation. Delius (1989), having defined memes as being in the brain, refers to behaviour as the memes phenotypic expression, while remaining ambiguous about the role of the clothes fashions he discusses. Grant (1990) defines the memotype as the actual information content of a meme, and distinguishes this from its sociotype or social expression. He explicitly bases his memotype/sociotype distinction on the phenotype/genotype distinction. All these distinctions are slightly different and it is not at all clear which, if any, is better.

The problem is this. If memes worked like genes then we should expect to find close analogies between the two evolutionary systems. But, although both are replicators, they work quite differently and for this reason we should be very cautious of meme-gene analogies. I suggest there is no clean equivalent of the genotype/phenotype distinction in memetics because memes are a relatively new replicator and have not yet created for themselves this highly efficient kind of system. Instead there is a messy system in which information is copied all over the place by many different means.

I previously gave the example of someone inventing a new recipe for pumpkin soup and passing it on to various relatives and friends (Blackmore 1999). The recipe can be passed on by demonstration, by writing the recipe on a piece of paper, by explaining over the phone, by sending a fax or e-mail, or (with difficulty) by tasting the soup and working out how it might have been cooked. It is easy to think up examples of this kind which make a mockery of drawing analogies with genotypes and phenotypes because there are so many different copying methods. Most important for the present argument, we must ask ourselves this question. Does information about the new soup only count as a meme when it is inside someones head or also when it is on a piece of paper, in the behaviour of cooking, or passing down the phone lines? If we answer that memes are only in the head then we must give some other role to these many other forms and, as we have seen, this leads to confusion.

My conclusion is this. The whole point of memes is to see them as information being copied in an evolutionary process (i.e. with variation and selection). Given the complexities of human life, information can be copied in myriad ways. We do a disservice to the basic concept of the meme if we try to restrict it to information residing only inside peoples heads as well as landing ourselves in all sorts of further confusions. For this reason I agree with Dennett, Wilkins, Durham and Dawkins A, who do not restrict memes to being inside brains. The information in this article counts as memes when it is inside my head or yours, when it is in my computer or on the journal pages, or when it is speeding across the world in wires or bouncing off satellites, because in any of these forms it is potentially available for copying and can therefore take part in an evolutionary process.

We may now turn to the other vexed definitional question the method by which memes are replicated. The dictionary definition gives a central place to imitation, both in explaining the derivation of the word meme and as the main way in which memes are propagated. This clearly follows Dawkinss original definition, but Dawkins was canny in saying imitation in the broad sense. Presumably he meant to include many processes which we may not think of as imitation but which depend on it, like direct teaching, verbal instruction, learning by reading and so on. All these require an ability to imitate. At least, learning language requires the ability to imitate sounds, and instructed learning and collaborative learning emerge later in human development than does imitation and arguably build on it (Tomasello, Kruger & Ratner 1993). We may be reluctant to call some of these complex human skills imitation. However, they clearly fit the evolutionary algorithm. Information is copied from person to person. Variation is introduced both by degradation due to failures of human memory and communication, and by the creative recombination of different memes. And selection is imposed by limitations on time, transmission rates, memory and other kinds of storage space. In this paper I am not going to deal with these more complex kinds of replication. Although they raise many interesting questions, they can undoubtedly sustain an evolutionary process and can therefore replicate memes. Instead I want to concentrate on skills at the simpler end of the scale, where it is not so obvious which kinds of learning can and cannot count as replicating memes.

Theories of gene-culture coevolution all differ in the ways their cultural units are supposed to be passed on. Cavalli-Sforza and Feldmans (1981) cultural traits are passed on by imprinting, conditioning, observation, imitation or direct teaching. Durhams (1991) coevolutionary model refers to both imitation and learning. Runciman (1998) refers to memes as instructions affecting phenotype passed on by both imitation and learning. Laland and Odling Smee (in press) argue that all forms of social learning are potentially capable of propagating memes. Among meme-theorists both Brodie (1996) and Ball (1984) include all conditioning, and Gabora (1997) counts all mental representations as memes regardless of how they are acquired.

This should not, I suggest, be just a matter of preference. Rather, we must ask which kinds of learning can and cannot copy information from one individual to another in such a way as to sustain an evolutionary process. For if information is not copied through successive replications, with variation and selection, then there is no new evolutionary process and no need for the concept of the meme as replicator. This is not a familiar way of comparing different types of learning so I will need to review some of the literature and try to extract an answer.

Communication and contagion

Confusion is sometimes caused over the term communication, so I just want to point out that most forms of animal communication (even the most subtle and complex) do not involve the copying of skills or behaviours from one individual to another with variation and selection. For example, when bees dance information about the location of food is accurately conveyed and the observing bees go off to find it, but the dance itself is not copied or passed on. So this is not copying a meme. Similarly when vervet monkeys use several different signals to warn conspecifics of different kinds of predator (Cheney and Seyfarth 1990), there is no copying of the behaviour. The behaviour acts as a signal on which the other monkeys act, but they do not copy the signals with variation and selection.

Yawning, coughing or laughter can spread contagiously from one individual to the next and this may appear to be memetic, but these are behaviours that were already known or in the animals repertoire, and are triggered by another animal performing them (Provine 1996). In this type of contagion there is no copying of new behaviours (but note that there are many other kinds of contagion (Levy & Nail, 1993; Whiten & Ham, 1992)). Communication of these kinds is therefore not even potentially memetic. Various forms of animal learning may be.

Learning

Learning is commonly divided into individual and social learning. In individual learning (including classical conditioning, operant conditioning, acquisition of motor skills and spatial learning) there is no copying of information from one animal to another. When a rat learns to press a lever for reward, a cat learns where the food is kept, or a child learns how to ride a skateboard, that learning is done for the individual only and cannot be passed on. Arguably such learning involves a replicator being copied and selected within the individual brain (Calvin 1996, Edelman 1989), but it does not involve copying between individuals. These types of learning therefore do not count as memetic transmission.

In social learning a second individual is involved, but in various different roles. Types of social learning include goal emulation, stimulus enhancement, local enhancement, and true imitation. The question I want to ask is which of these can and cannot sustain a new evolutionary process.

In emulation, or goal emulation, the learner observes another individual gaining some reward and therefore tries to obtain it too, using individual learning in the process, and possibly attaining the goal in quite a different way from the first individual (Tomasello 1993). An example is when monkeys, apes or birds observe each other getting food from novel containers but then get it themselves by using a different technique (e.g. Whiten & Custance 1996). This is social learning because two individuals are involved, but the second has only learned a new place to look for food. Nothing is copied from one animal to the other in such a way as to allow for the copying of variations and selective survival of some variants over others. So there is no new evolutionary process and no new replicator.

In stimulus enhancement the attention of the learner is drawn to a particular object or feature of the environment by the behaviour of another individual. This process is thought to account for the spread among British tits of the habit of pecking milk bottle tops to get at the cream underneath, which was first observed in 1921 and spread from village to village (Fisher and Hinde 1949). Although this looks like imitation, it is possible that once one bird had learned the trick others were attracted to the jagged silver tops and they too discovered (by individual learning) that there was cream underneath (Sherry & Galef 1984). If so, the birds had not learned a new skill from each other (they already knew how to peck), but only a new stimulus at which to peck. Similarly the spread of termite fishing among chimpanzees might be accounted for by stimulus enhancement as youngsters follow their elders around and are exposed to the right kind of sticks in proximity to termite nests. They then learn by trial and error how to use the sticks.

In local enhancement the learner is drawn to a place or situation by the behaviour of another, as when rabbits learn from each other not to fear the edges of railway lines in spite of the noise of the trains. The spread of sweet-potato washing in Japanese macaques may have been through stimulus or local enhancement as the monkeys followed each other into the water and then discovered that washed food was preferable (Galef 1992).

If this is the right explanation for the spread of these behaviours we can see that there is no new evolutionary process and no new replicator, for there is nothing that is copied from individual to individual with variation and selection. This means there can be no cumulative selection of more effective variants. Similarly, Boyd and Richerson (in press) argue that this kind of social learning does not allow for cumulative cultural change.

Most of the population-specific behavioural traditions studied appear to be of this kind, including nesting sites, migration routes, songs and tool use, in species such as wolves, elephants, monkeys, monarch butterflies, and many kinds of birds (Bonner 1980). For example, oyster catchers use two different methods for opening mussels according to local tradition but the two methods do not compete in the same population in other words there is no differential selection of variants within a given population. Tomasello, Kruger and Ratner (1993) argue that many chimpanzee traditions are also of this type. Although the behaviours are learned population-specific traditions they are not cultural in the human sense of that term because they are not learned by all or even most of the members of the group, they are learned very slowly and with wide individual variation, and most telling they do not show an accumulation of modifications over generations. That is, they do not show the cultural ratchet effect precluding the possibility of humanlike cultural traditions that have histories.

There may be exceptions to this. Whiten et al. (1999) have studied a wide variety of chimpanzee behaviours and have found limited evidence that such competition between variants does occur within the same group. For example, individuals in the same group use two different methods for catching ants on sticks, and several ways of dealing with ectoparasites while grooming. However, they suggest that these require true imitation for their perpetuation.

Imitation

True imitation is more restrictively defined, although there is still no firm agreement about the definition (see Zentall 1996, Whiten 1999). Thorndike (1898), originally defined imitation as learning to do an act from seeing it done. This means that one animal must acquire a novel behaviour from another so ruling out the kinds of contagion noted above. Whiten and Ham (1992), whose definition is widely used, define imitation as learning some part of the form of a behaviour from another individual. Similarly Heyes (1993) distinguishes between true imitation learning something about the form of behaviour through observing others, from social learning learning about the environment through observing others (thus ruling out stimulus and local enhancement).

True imitation is much rarer than individual learning and other forms of social learning. Humans are extremely good at imitation; starting almost from birth, and taking pleasure in doing it. Meltzoff, who has studied imitation in infants for more than twenty years, calls humans the consummate imitative generalist (Meltzoff, 1996) (although some of the earliest behaviours he studies, such as tongue protrusion, might arguably be called contagion rather than true imitation). Just how rare imitation is has not been answered. There is no doubt that some song birds learn their songs by imitation, and that dolphins are capable of imitating sounds as well as actions (Bauer & Johnson, 1994; Reiss & McCowan, 1993). There is evidence of imitation in the grey parrot and harbour seals. However, there is much dispute over the abilities of non-human primates and other mammals such as rats and elephants (see Byrne & Russon 1998; Heyes & Galef 1996, Tomasello, Kruger & Ratner 1993, Whiten 1999).

Many experiments have been done on imitation and although they have not been directly addressed at the question of whether a new replicator is involved, they may help towards an answer. For example, some studies have tried to find out how much of the form of a behaviour is copied by different animals and by children. In the two-action method a demonstrator uses one of two possible methods for achieving a goal (such as opening a specially designed container), while the learner is observed to see which method is used (Whiten et al. 1996; Zentall 1996). If a different method is used the animal may be using goal emulation, but if the same method is copied then true imitation is involved. Evidence of true imitation has been claimed using this method in budgerigars, pigeons and rats, as well as enculturated chimpanzees and children (Heyes and Galef 1996). Capuchin monkeys have recently been found to show limited ability to copy the demonstrated method (Custance, Whiten & Fredman 1999).

Other studies explore whether learners can copy a sequence of actions and their hierarchical structure (Whiten 1999). Byrne and Russon (1998) distinguish action level imitation (in which a sequence of actions is copied in detail) from program level imitation (in which the subroutine structure and hierarchical layout of a behavioural program is copied). They argue that other great apes may be capable of program level imitation although humans have a much greater hierarchical depth. Such studies are important for understanding imitation, but they do not directly address the questions at issue here that is, does the imitation entail an evolutionary process? Is there a new replicator involved?

To answer this we need new kinds of research directed at finding out whether a new evolutionary process is involved when imitation, or other kinds of social learning, take place. This might take two forms. First there is the question of copying fidelity. As we have seen, a replicator is defined as an entity that passes on its structure largely intact in successive replications. So we need to ask whether the behaviour or information is passed on largely intact through several replications. For example, in the wild, is there evidence of tool use, grooming techniques or other socially learned behaviours being passed on through a series of individuals, rather than several animals learning from one individual but never passing the skill on again? In experimental situations one animal could observe another, and then act as model for a third and so on (as in the game of Chinese whispers or telephone). We might not expect copying fidelity to be very high, but unless the skill is recognisably passed on through more than one replication then we do not have a new replicator i.e. there is no need for the concept of the meme.

Second, is there variation and selection? The examples given by Whiten et al. (1999) suggest that there can be. We might look for other examples where skills are passed to several individuals, these individuals differ in the precise way they carry out the skill, and some variants are more frequently or reliably passed on again. For this is the basis of cumulative culture. Experiments could be designed to detect the same process occurring in artificial situations. Such studies would enable us to say just which processes, in which species, are capable of sustaining an evolutionary process with a new replicator. Only when this is found can we usefully apply the concept of the meme.

If such studies were done and it turned out that, by and large, what we have chosen to call imitation can sustain cumulative evolution while other kinds of social learning cannot, then we could easily tie the definitions of memes and imitation together so that what counts as a meme is anything passed on by imitation, and wherever you have imitation you have a meme.

In the absence of such research we may not be justified in taking this step, and some people may feel that it would not do justice to our present understanding of imitation. Nevertheless, for the purposes of this paper at least, that is what I propose. The advantage is that it allows me to use one word imitation to describe a process by which memes are transmitted. If you prefer, for imitation read a kind of social learning which is capable of sustaining an evolutionary process with a new replicator.

This allows me to draw the following conclusion. Imitation is restricted to very few species and humans appear to be alone in being able to imitate a very wide range of sounds and behaviours. This capacity for widespread generalised imitation must have arisen at some time in our evolutionary history. When it did so, a new replicator was created and the process of memetic evolution began. This, I suggest, was a crucial turning point in human evolution. I now want to explore the consequences of this transition and some of the coevolutionary processes that may have occurred once human evolution was driven by two replicators rather than one. One consequence, I suggest, was a rapid increase in brain size.

The big human brain

Humans have abilities that seem out of line with our supposed evolutionary past as hunter-gatherers, such as music and art, science and mathematics, playing chess and arguing about our evolutionary origins. As Cronin puts it, we have a brain surplus to requirements, surplus to adaptive needs (Cronin, 1991, p 355). This problem led Wallace to argue, against Darwin, that humans alone have a God-given intellectual and spiritual nature (see Cronin 1991). Williams (1966) also struggled with the problem of mans cerebral hypertrophy, unwilling to accept that advanced mental capacities have ever been directly favoured by selection or that geniuses leave more children.

Humans have an encephalisation quotient of about 3 relative to other primates. That is, our brains are roughly three times as large when adjusted for body weight (Jerison 1973). The increase probably began about 2.5 million years ago in the australopithecines, and was completed about 100,000 years ago by which time all living hominids had brains about the same size as ours (Leakey, 1994; Wills, 1993). Not only is the brain much bigger than it was, but it appears to have been drastically reorganised during what is, in evolutionary terms, a relatively short time (Deacon 1997). The correlates of brain size and structure have been studied in many species and are complex and not well understood (Harvey & Krebs 1990). Nevertheless, the human brain stands out. The problem is serious because of the very high cost (in energy terms) of both producing a large brain during development, and of running it in the adult, as well as the dangers entailed in giving birth. Pinker asks Why would evolution ever have selected for sheer bigness of brain, that bulbous, metabolically greedy organ? Any selection on brain size itself would surely have favored the pinhead. (1994, p 363).

Early theories to explain the big brain focused on hunting and foraging skills, but predictions have not generally held up and more recent theories have emphasised the complexity and demands of the social environment (Barton & Dunbar 1997). Chimpanzees live in complex social groups and it seems likely that our common ancestors did too. Making and breaking alliances, remembering who is who to maintain reciprocal altruism, and outwitting others, all require complex and fast decision making and good memory. The Machiavellian Hypothesis emphasises the importance of deception and scheming in social life and suggests that much of human intelligence has social origins (Byrne & Whiten 1988; Whiten & Byrne 1997). Other theories emphasise the role of language (Deacon 1997, Dunbar 1996).

There are three main differences between this theory and previous ones. First, this theory entails a definite turning point the advent of true imitation which created a new replicator. On the one hand this distinguishes it from theories of continuous change such as those based on improving hunting or gathering skills, or on the importance of social skills and Machiavellian intelligence. On the other hand it is distinct from those which propose a different turning point, such as Donalds (1991) three stage coevolutionary model or Deacons (1997) suggestion that the turning point was when our ancestors crossed the Symbolic Threshold.

Second, both Donald and Deacon emphasise the importance of symbolism or mental representations in human evolution. Other theories also assume that what makes human culture so special is its symbolic nature. This emphasis on symbolism and representation is unnecessary in the theory proposed here. Whether behaviours acquired by imitation (i.e. memes) can be said to represent or symbolise anything is entirely irrelevant to their role as replicators. All that matters is whether they are replicated or not.

Third, the theory has no place for the leash metaphor of sociobiology, or for the assumption, common to almost all versions of gene-culture coevolution, that the ultimate arbiter is inclusive fitness (i.e. benefit to genes). In this theory there are two replicators, and the relationships between them can be cooperative, competitive, or anything in between. Most important is that memes compete with other memes and produce memetic evolution, the results of which then affect the selection of genes. On this theory we can only understand the factors affecting gene selection when we understand their interaction with memetic selection.

In outline the theory is this. The turning point in hominid evolution was when our ancestors began to imitate each other, releasing a new replicator, the meme. Memes then changed the environment in which genes were selected, and the direction of change was determined by the outcome of memetic selection. Among the many consequences of this change was that the human brain and vocal tract were restructured to make them better at replicating the successful memes.

The origins of imitation

We do not know when and how imitation originated. In one way it is easy to see why natural selection would have favoured social learning. It is a way of stealing the products of someone elses learning i.e. avoiding the costs and risks associated with individual learning though at the risk of acquiring outdated or inappropriate skills. Mathematical modelling has shown that this is worthwhile if the environment is variable but does not change too fast (Richerson and Boyd 1992). Similar analyses have been used in economics to compare the value of costly individual decision making against cheap imitation (Conlisk 1980).

As we have seen, other forms of social learning are fairly widespread, but true imitation occurs in only a few species. Moore (1996) compares imitation in parrots, great apes and dolphins and concludes that they are not homologous and that imitation must have evolved independently at least three times. In birds imitation probably evolved out of song mimicry, but in humans it did not. We can only speculate about what the precursors to human imitation may have been, but likely candidates include general intelligence and problem solving ability, the beginnings of a theory of mind or perspective taking, reciprocal altruism (which often involves strategies like tit-for-tat that entail copying what the other person does), and the ability to map observed actions onto ones own.

The latter sounds very difficult to achieve involving transforming the visual input of a seen action from one perspective into the motor instructions for performing a similar action oneself. However, mirror neurons in monkey premotor cortex appear to belong to a system that does just this. The same neurons fire when the monkey performs a goal-directed action itself as when it sees another monkey perform the same action, though Gallese and Goldman (1998) believe this system evolved for predicting the goals and future actions of others, rather than for imitation. Given that mirror neurons occur in monkeys, it seems likely that our ancestors would have had them, making the transition to true imitation more likely.

We also do not know when that transition occurred. The first obvious signs of imitation are the stone tools made by Homo habilis about 2.5 million years ago, although their form did not change very much for a further million years. It seems likely that less durable tools were made before then; possibly carrying baskets, slings, wooden tools and so on. Even before that our ancestors may have imitated ways of carrying food, catching game or other behaviours. By the time these copied behaviours were widespread the stage was set for memes to start driving genes. I shall take a simple example and try to explain how the process might work.

Memetic drive

Let us imagine that a new skill begins to spread by imitation. This might be, for example, a new way of making a basket to carry food. The innovation arose from a previous basket type, and because the new basket holds slightly more fruit it is preferable. Other people start copying it and the behaviour and the artefact both spread. Note that I have deliberately chosen a simple meme (or small memeplex) to illustrate the principle; that is the baskets and the skills entailed in making them. In practice there would be complex interactions with other memes but I want to begin simply.

Now anyone who does not have access to the new type of basket is at a survival disadvantage. A way to get the baskets is to imitate other people who can make them, and therefore good imitators are at an advantage (genetically). This means that the ability to imitate will spread. If we assume that imitation is a difficult skill (as indeed it seems to be) and requires a slightly larger brain, then this process alone can already produce an increase in brain size. This first step really amounts to no more than saying that imitation was selected for because it provides a survival advantage, and once the products of imitation spread, then imitation itself becomes ever more necessary for survival. This argument is a version of the Baldwin effect (1896) which applies to any kind of learning: once some individuals become able to learn something, those who cannot are disadvantaged and genes for the ability to learn therefore spread. So this is not specifically a memetic argument.

However, the presence of memes changes the pressures on genes in new ways. The reason is that memes are also replicators undergoing selection and as soon as there are sufficient memes around to set up memetic competition, then meme-gene coevolution begins. Let us suppose that there are a dozen different basket types around that compete with each other. Now it is important for any individual to choose the right basket to copy, but which is that? Since both genes and memes are involved we need to look at the question from both points of view.

From the genes point of view the right decision is the basket that increases inclusive fitness i.e. the decision that improves the survival chances of all the genes of the person making the choice. This will probably be the biggest, strongest, or easiest basket to make. People who copy this basket will gather more food, and ultimately be more likely to pass on the genes that were involved in helping them imitate that particular basket. In this way the genes, at least to some extent, track changes in the memes.

From the memes point of view the right decision is the one that benefits the basket memes themselves. These memes spread whenever they get the chance, and their chances are affected by the imitation skills, the perceptual systems and the memory capacities (among other things) of the people who do the copying. Now, let us suppose that the genetic tracking has produced people who tend to imitate the biggest baskets because over a sufficiently long period of time larger artefacts were associated with higher biological success. This now allows for the memetic evolution of all sorts of new baskets that exploit that tendency; especially baskets that look big. They need not actually be big, or well made, or very good at doing their job but as long as they trigger the genetically acquired tendency to copy big baskets then they will do well, regardless of their consequence for inclusive fitness. The same argument would apply if the tendency was to copy flashy-looking baskets, solid baskets, or whatever. So baskets that exploit the current copying tendencies spread at the expense of those that do not.

This memetic evolution now changes the situation for the genes which have, as it were, been cheated and are no longer effectively tracking the memetic change. Now the biological survivors will be the people who copy whatever it is about the current baskets that actually predicts biological success. This might be some other feature, such as the materials used, the strength, the kind of handle, or whatever and so the process goes on. This process is not quite the same as traditional gene-culture evolution or the Baldwin effect. The baskets are not just aspects of culture that have appeared by accident and may or may not be maladaptive for the genes of their carriers. They are evolving systems in their own right, with replicators whose selfish interests play a role in the outcome.

I have deliberately chosen a rather trivial example to make the process clear; the effects are far more contentious, as we shall see, when they concern the copying of language, or of seriously detrimental activities.

Whom to imitate

Another strategy for genes might be to constrain whom, rather than what, is copied. For example, a good strategy would be to copy the biologically successful. People who tended, other things being equal, to copy those of their acquaintances who had the most food, the best dwelling space, or the most children would, by and large, copy the memes that contributed to that success and so be more likely to succeed themselves. If there was genetic variation such that some people more often copied their biologically successful neighbours, then their genes would spread and the strategy copy the most successful would, genetically, spread through the population. In this situation (as I have suggested above) success is largely a matter of being able to acquire the currently important memes. So this strategy amounts to copying the best imitators. I shall call these people meme fountains, a term suggested by Dennett (1998) to refer to those who are especially good at imitation and who therefore provide a plentiful source of memes both old memes they have copied and new memes they have invented by building on, or combining, the old.

Now we can look again from the memes point of view. Any memes that got into the repertoire of a meme fountain would thrive regardless of their biological effect. The meme fountain acquires all the most useful tools, hunting skills, fire-making abilities and his genes do well. However, his outstanding imitation ability means that he copies and adapts all sorts of other memes as well. These might include rain dances, fancy clothes, body decoration, burial rites or any number of other habits that may not contribute to his genetic fitness. Since many of his neighbours have the genetically in-built tendency to copy him these memes will spread just as well as the ones that actually aid survival.

Whole memetic lineages of body decoration or dancing might evolve from such a starting point. Taking dancing as an example, people will copy various competing dances and some dances will be copied more often than others. This memetic success may depend on whom is copied, but also on features of the dances, such as memorability, visibility, interest and so on features that in turn depend on the visual systems and memories of the people doing the imitation. As new dances spread to many people, they open up new niches for further variations on dancing to evolve. Any of these memes that get their hosts to spend lots of time dancing will do better, and so, if there is no check on the process, people will find themselves dancing more and more.

Switching back to the genes point of view, the problem is that dancing is costly in terms of time and energy. Dancing cannot now be un-evolved but its further evolution will necessarily be constrained. Someone who could better discriminate between the useful memes and the energy-wasting memes would leave more descendants than someone who could not. So the pressure is on to make more and more refined discriminations about what and whom to imitate. And crucially the discriminations that have to be made depend upon the past history of memetic as well as genetic evolution. If dancing had never evolved there would be no need for genes that selectively screened out too much dance-imitation. Since it did there is. This is the crux of the process I have called memetic driving. The past history of memetic evolution affects the direction that genes must take to maximise their own survival.

We now have a coevolutionary process between two quite different replicators that are closely bound together. To maximise their success the genes need to build brains that are capable of selectively copying the most useful memes, while not copying the useless, costly or harmful ones. To maximise their success the memes must exploit the brains copying machinery in any way they can, regardless of the effects on the genes. The result is a mass of evolving memes, some of which have thrived because they are useful to the genes, and some of which have thrived in spite of the fact that they are not and a brain that is designed to do the job of selecting which memes are copied and which are not. This is the big human brain. Its function is selective imitation and its design is the product of a long history of meme-gene coevolution.

Whom to mate with

There is another twist to this argument; sexual selection for the ability to imitate. In general it will benefit females to mate with successful males and, in this imagined human past, successful males are those who are best at imitating the currently important memes. Sexual selection might therefore amplify the effects of memetic drive. A runaway process of sexual selection could then take off.

For example, let us suppose that at some particular time the most successful males were the meme fountains. Their biological success depended on their ability to copy the best tools or firemaking skills, but their general imitation ability also meant they wore the most flamboyant clothes, painted the most detailed paintings, or hummed the favourite tunes. In this situation mating with a good painter would be advantageous. Females who chose good painters would begin to increase in the population and this in turn would give the good painters another advantage, quite separate from their original biological advantage. That is, with female choice now favouring good painters, the offspring of good painters would be more likely to be chosen by females and so have offspring themselves. This is the crux of runaway sexual selection and we can see how it might have built on prior memetic evolution.

Miller (1998, 1999) has proposed that artistic ability and creativity have been sexually selected as courtship displays to attract women, and has provided many examples, citing evidence that musicians and artists are predominantly male and at their most productive during young adulthood. However, there are differences between his theory and the one proposed here. He does not explain how or why the process might have begun whereas on this theory the conditions were created by the advent of imitation and hence of memetic evolution. Also on his theory the songs, dances or books act as display in sexual selection, but the competition between them is not an important part of the process. On the theory proposed here, memes compete with each other to be copied by both males and females, and the outcome of that competition determines the direction taken both by the evolution of the memes and of the brains that copy them.

Whether this process has occurred or not is an empirical question. But note that I have sometimes been misunderstood as basing my entire argument on sexual selection of good imitators (Aunger, in press). In fact the more fundamental process of memetic drive might operate with or without the additional effects of sexual selection.

The coevolution of replicators with their replication machinery

Memetic driving of brain design can be seen as an example of a more general evolutionary process. That is, the coevolution of a replicator along with the machinery for its replication. The mechanism is straightforward. As an example, imagine a chemical soup in which different replicators occur, some together with coenzymes or other replicating machinery, and some without. Those which produce the most numerous and long lived copies of themselves will swamp out the rest, and if this depends on being associated with better copying machinery then both the replicator and the machinery will thrive.

Something like this presumably happened on earth long before RNA and DNA all but eliminated any competitors (Maynard Smith & Szathmry 1995). DNAs cellular copying machinery is now so accurate and reliable that we tend to forget it must have evolved from something simpler. Memes have not had this long history behind them. The new replicator is, as Dawkins (1976 p 192) puts it, still drifting clumsily about in its primeval soup the soup of human culture. Nevertheless we see the same general process happening as we may assume once happened with genes. That is, memes and the machinery for copying them are improving together.

The big brain is just the first step. There have been many others. In each case, high quality memes outperform lower quality memes and their predominance favours the survival of the machinery that copies them. This focuses our attention on the question of what constitutes high quality memes. Dawkins (1976) suggested fidelity, fecundity and longevity.

This is the basis for my argument about the origins of language (Blackmore 1999, in press). In outline it is this. Language is a good way of creating memes with high fecundity and fidelity. Sound carries better than visual stimuli to several people at once. Sounds digitised into words can be copied with higher fidelity than continuously varying sounds. Sounds using word order open up more niches for memes to occupy and so on. In a community of people copying sounds from each other memetic evolution will ensure that the higher quality sounds survive. Memetic driving then favours brains and voices that are best at copying those memes. This is why our brains and bodies became adapted for producing language. On this theory the function of language ability is not primarily biological but memetic. The copying machinery evolved along with the memes it copies.

Originally posted here:

Meme-Gene Coevolution - Susan Blackmore

Editorial: Circumspect, respect – Sun.Star

IN THE world of psychology, there is this phenomenon called copycat suicide. It's when one suicide story triggers another or several others. Psychologists have been looking the way of the media and how suicide is reported as having a role in this. And this was way before social media became the rabid no context, no verification, no holds barred sharing of information, both fake and real.

In 2004, sociologist Dr. Steven Stack of the Wayne State University in Detroit and recognized as one of the experts in suicidology, analysed 42 studies on the impact of media's coverage on suicides and its potential of triggering copycats.

His research yielded three explanations for the media impact. First, is plain copycat, where troubled people relate to the stories of the troubled people reported on media who commit suicide, and thus can influence the equally troubled to do the same. Second is differential identification with models, especially when the suicide victim is a celebrity or highly regarded in society or even just among the circle of associates of the troubled.

The third is audience receptiveness. Like the youth being more prone to suicide can have more copycats. That was suicide sans social media.

Today, we have terrorists, jihadists, and yes, the IS, amid the anger that has been brewing all these time, fanned by those who have ill motives. As anger is spread and becomes mainstream, the people feast on reports of terrorist attacks. Anger, agitation, fear, and all negative emotions are dished out by the thousands everyday on social media, the contagion of anger spreads all over. Emotions are high, suspicions higher, and then there are the terror-inclined. Much like the suicide-inclined, really. The warnings have been raised years ago, but our penchant to express our views and little knowledge spurred on by the claim of "my wall-my post" does not heed such warnings, most likely do not even know of such warnings.

"Copycat terrorism makes compelling sense when we understand the simple but deadly psychology of contagion. A phenomenon of 'disinhibition' can occur when suicidal or murderous thoughts - inhibited by conscience, uncertainty or fear - are exposed to what is perceived as the positive consequences of suicide or murder. When this happens, the mental conflict between urges and inhibitions may be resolved, resulting in a suicidal and possibly murderous mind being made up," wrote Paul Marsden, Contagion psychologist and visiting research fellow at the University of Sussex in UK wrote in "Copycat Terrorism: Fanning the fire" published as a letter in the Journal of Memetics-Evolutionary Models of Information Transmission in 2001.

Now here's the difficult part of it all: A lost soul, a loser, and someone who has taken to heart all the injustices of the world will find greater fulfillment when dying for a cause. They may not join IS, but the swag will be tempting.

Now tell us, with the real threat of copycats, should we still remain as selfish as claiming "my wall-my post"?

In this troubled times, the role of a citizen is always to be circumspect in sharing every bit of information picked up without proper verification, but most of all, we must hold high the respect for those tasked to keep our people safe. Do not blow their covers; do not force them to speak up even before they have all the data together. We are all in this together; it can no longer be "my wall, my post." This is all about our country and how we have made it several times over as very enticing for all those who have held the IS in high regard for one reason or another, by opening our mouths and tapping our keyboards even when we shouldn't.

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Editorial: Circumspect, respect - Sun.Star

Memes could be the key to predicting the future – Digit

A meme is more than just the humorous images that you share online, and in fact, encapsulates any cultural idea or trend that is passed on from person to person. And in case, we got you thinking if there is some underlying phenomenon deeper than what is observable with a cursory glance - hats off to us *cue self back pats*

But the real task lies ahead. There is something deeper and more organic underlying the entire meme culture and internet behavior in general, something that distinguishes what a meme is and at the same time connects all the memes into a single, giant, amalgamate that does way more than offer you your daily dose of humor. To truly grasp this idea, we have to go down the proverbial rabbit hole.

While the analogy between memes and genes is surely one that makes it easier to grasp the definition of the meme as given by Richard Dawkins, it is not entirely true, or rather, it is not the entire truth. What comes in handy, though, is an alternative line of thought in memetics one that perceives the meme as a virus.

Dont reach out for your hand sanitizers and air purifiers just yet; this isnt a typical virus we are talking about. This isnt biological or computerised, at least not in itself. So why do we need to think about it this way? First of all, subscribing to the gene theory is prone to a couple of misconceptions. First, genes dont spread only through replication. In fact, it is the repeated errors that introduce mutation - a key factor in evolution, the reason you and I exist. A simple exercise in observation and thought tells us that a meme actually exists because of transformation or manipulation of a base idea before it is spread - even if the manipulation is nothing more than the addition of ones opinion to the idea (Case in point - almost no two meme images that you see online are the same, even if they are based on the exact same meme). Genes mostly replicate unaltered, with a modification or mutation creeping in as a rarity. Memes mutate more frequently. It makes more sense to understand that like the process of evolution with genes, memes actually mutate in majority, and in this mutation lies the key to an evolved, persistent fit meme that survives.

Will there be a time when ideas no longer need humans to spread and persist?

While showing why a meme is mostly like a gene is a step in the right direction, it doesnt get you all the way. A similarity between memes and viruses lies in the way that it behaves with you the individual, the consumer, the reader. A typical parasite needs a conductive medium to spread you usually do not catch a cold in the middle of the summer or contract a deadly virus in a squeaky clean locality. And never before has there been a more suitable environment for the spread of ideas than the internet. But even before that, ideas always had their own ways of getting spread around be it through libraries, public gatherings, entertainment media and more.

A typical virus enters your body, reacts with it, attacks it or alters it, and either gets rejected and quarantined or accepted and forwarded. Just like that, an idea, once it reaches the end point of your mind, either persists there or gets dismissed. In the case of the former, you become the host to that idea, comprehending and interpreting it, in turn changing your own understanding of it. In the end, it is you, the host, that is affected by the idea while the idea still lies out there in its initial unaffected-by-you form and also in your own variation of it, in either case looking at being spread further as Daniel Dennett wonderfully said, a scholar is a librarys way of making another library.

We cannot get away with establishing that a meme is like a virus and then not explaining how it can behave. Since, undoubtedly, there are specific, underlying rules that govern it and, in turn, you. While not exhaustive, there are some maxims that have been identified which shed some light on this collectively sometimes referred to as the rules of the internet. Memes create stereotypes, stereotypes create the memes and so on it goes. Just like genes, it is not possible to comprehend the characteristics of a meme in isolation. Genes usually have phenotypic effects in the presence of other genes. Similarly, memes spread in the presence of certain favorable behaviour patterns. And to understand these patterns, one needs to look at the underlying rules mentioned earlier. Keep in mind though, that these rules represent a small part of a much larger system of maxims constantly being modified and updated to reach absolute ideas, so what appears funny to you today, might be a grave and serious truth tomorrow. But for today, these memes inform you of numerous stereotypes and go on to point out how they ideally behave. For instance:

Dont get us wrong stereotypes have always existed. But things work a bit differently when they are spread on the internet. Urban legends have always been a meme, but they are now spread to way more people with access to the internet and receive much more credibility thanks to technology aiding false evidence. For example, Slenderman was a fictional creature created for an online contest in 2009, the mythos of which was further expanded in the years to come. After reading a creepypasta (which itself is simply creepy stories copied and pasted all over the internet) about him, two 12 year olds in Waukesha, Wisconsin stabbed a third one 19 times to appease the fictional creature and keep their families safe from him. The girl barely survived and the trial is still ongoing. And this was a faceless man who had tentacles coming out of his back.

Urban legends are memes that have been taken a bit too seriously

If youre pondering on why they would do that, the 1% rule of the internet in combination with Poes law (both being part of the maxims that were referred to earlier, mentioned in separate box) makes it much easier to understand that a fake idea, no matter how outrageous it might be, if presented well on the internet (i.e without the obvious disclaimers that Poes law specifies) might just be perceived as gospel truth. If you use a meme to describe a person repeatedly, at one point of time there will be people who would have formed that opinion about that very person, without verification. But you dont have to reach out to a lesser known case to see this in action.

Weve all heard the statement Dont feed the trolls, or one of its modifications (once again, a meme) and have generally accepted it as the right course of action against the spreading of obvious misinformation or plainly stupid arguments - for example, comparison to Nazis as outlined in Godwins law. But this has led to a very interesting phenomenon that has impacted one of the most important events in recent times - the 2016 Presidential Election.

Without memes, there might have been a completely different person in the oval office right now

The general consensus (online) about the alt-right (or conservatives or whatever you might call the side that won) was that their arguments are silly, baseless and easily seen through A.K.A trolling. Hence the widespread reaction to those very arguments was outright dismissal. But not doing anything about that eventually led to the general populace of the country into believing the satire-laden trolling to be genuine facts in most cases. Just like how Facebooks fake news problem, triggered by switching trending topics to a purely algorithmic process from human curation, was unable to distinguish baseless trends from genuine news and ended up influencing a lot of people. If this does not instate the validity of Poes law, we dont know what will.

On the other hand, outright denial or declaration of your victory online also loses you any argument that you might be involved in because of the exact same reasons. Danths law (see box) comes into action more often than you think it does, and if you stay behind to check whether your declaration has been accepted by others in the argument or not, even after youve declared youre leaving, youd be fulfilling Shakers law. Still believe that there isnt an unseen set of rules that govern the memes, and your, behaviour?

While some of the maxims that apply to the internet have been mentioned in the article, here is an expanded list of what we believe to be the governing rules of online behavior:

Badgers Law Websites with the word Truth in the URL have none in the posted content.

Danths Law If you have to insist that youve won an Internet argument, youve probably lost badly.

Godwins law As an online discussion grows longer, the probability of a comparison involving Hitler approaches 1

Poes Law Without a clear indication of the authors intent, it is difficult or impossible to tell the difference between an expression of sincere extremism and a parody of extremism.

Rule 34 If it exists, theres porn of it

Skitts law Any post correcting an error in another post will contain at least one error itself

Law of Exclamation The more exclamation points used in an email (or other postings), the more likely it is a complete lie. This is also true for excessive capital letters.

Cohens Law Whoever resorts to the argument whoever resorts to the argument that... has automatically lost the debate has automatically lost the debate.

Shakers Law Those who egregiously announce their imminent departure from an Internet discussion forum almost never actually leave.

Skarkas Law On internet messageboards, there is no subject so vile or indefensible that someone wont post positively/in defence of it.

Shanks Law The imaginative powers of the human mind have yet to rise to the challenge of concocting a conspiracy theory so batshit insane that one cannot find at least one PhD holding scientist to support it.

Wiios Law Communication usually fails, except by accident

Sturgeons Law 90% of everything is crap

The 1% Rule The 1% rule states that the number of people who create content on the Internet represents approximately 1% of the people actually viewing that content.

Cunninghams Law The best way to get the right answer on the Internet is not to ask a question, its to post the wrong answer.

While most of our mental schema is wired to keep us focussed and occupied with whats at hand, memes, with their inherent imageability and repetitive nature, help us process abstractions faster. While this is beneficial, abstraction also leads to an unavoidable problem: we begin to view memes as concrete units, where they are not. This is what lets us be able to wage an actual war against an abstract idea (terrorism) or a particular class of chemical compounds (drugs). This leads to belief systems that are not entirely robust against questioning or dire situations, in which we unconsciously propagate those very memes. And generally, these are simple, catchy, easy-to-grasp ideas - just because they are easier to retain and rehearse.

Acknowledging the meme in its true form as a connected pseudo-organism that influences individual, and in turn, social behaviour can be more beneficial than you think. As an analogy, the first step you take against a virus outbreak is acknowledge that there is an outbreak. Its just that in this case, the outbreak can be controlled to influence certain people in certain ways. And these unseen rules, which perhaps now youll be more perceptive tobenefit the understanding, hence predictability, of how memes behave. This underlying system, this blueprint to the organism that now lies on the fringes of awareness when it comes to the general populace, will someday be viewed as what shaped the world as we will know it.

This article was first published in March 2017 issue of Digit magazine. To read Digit's articles first,subscribe hereor download the Digit e-magazine app for Android and iOS. You could also buy Digit's previous issueshere.

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Memes could be the key to predicting the future - Digit

On Memetics and the Transfer of Cultural Information – Paste Magazine

In recent weeks, the meme trash dove took the world by storm, flopping its way across Facebook into dms, statuses and comments. Trash dove became an actor in animated videos and was even brought to life through real world reenactments by talented costume makers and headbangers. Merely an online sticker, trash dove came to embody so much in so little time and was able to say much of what we were thinking but not quite ready or able to articulate.

While our reasons for using trash dove on social media may vary, what is evident is that memes are meta; they can encompass a variety of emotions, thoughts, feelings, actions and even political discourse and humor. In abstracting the world at large into content, everything becomes more digestible, even consumable across one of the most accessible mediumsthe internet.

While the internet has in many ways proliferated the usage of memes, they have existed since human beings began to share information with one another. The internet has globalized memes and has allowed people to absorb information from those sharing content on the other side of the world at exponential rates and add their own spin on them. In the past, long before the internet, memes were shared as far as one could travel across land and water and over the course of longer periods of time. Contrary to popular belief, memes have been here with us all along.

The Historical Origins of Memes Memes have existed since the dawn of civilization and have been used to share and exchange cultural information between human beings for thousands of years. The word meme, coined by evolutionary biologist Richard Dawkins in his 1976 novel The Selfish Gene, describes the transfer of cultural information from one person to the next. Similarly to genes, memes have competed for survival throughout history and only the dankest become viral. As cultural units, memes are vessels of information which have journeyed across human civilization to popularize certain ideas and in turn, ensure their continuity.

Our ancestors used memes for cave drawings and to teach one another to create fire. Wherever there has been an opportunity for learning and sharing knowledge, memes have enabled us to replicate concepts and ideas and build upon them. While human endeavors such as art and music may not enable us to survive genetically, they are fantastic examples of how memetics have developed. Our brains are oversized and have the ability to store vast troves of information for later use. Becoming an incredible violin player may not be conducive to spreading ones seed, yet it is a meme that has become revered amongst humans in their pursuance of the arts.

Ultimately, human beings have evolved genetically to replicate information and be extremely good at making memes. We are such excellent meme-makers that we no longer use them explicitly for sharing concepts and ideas vital to survival. In the past, memetics allowed us to learn quickly from one another how to carry out tasks that would provide us with greater capacities for hunting, foraging, gathering, finding fresh water to eventually writing, reading, creating vast agricultural systems, building shelter, traversing continents and even more amazing feats. In becoming next-level copycats, human beings have collaborated with one another to create innumerable memes, both for survival and consumption.

A major defining characteristic of successful and not so successful memes is the extent to which they last and mutate. While some memes, such as learning to boil water to ensure no dangerous bacteria lingers in it or wearing animal furs to keep our naked bodies warm in the midst of winter, have remained relevant and largely static for centuries if not thousand of years, while others, such as a unicycling frog named dat boi, come into existence swiftly and disappear altogether just as quickly. Furthermore, instances of memes such as Hand Me the Aux Cord draw on other memes and mutate to become meta. When these memes mutate into warp drive, at some point they no longer become funny and vanish between the surface of newer memes. Given this, memes of the internet age, while existing on a greater scale, are not as successful as those who have remained relevant since earlier times.

Memes of Today The memes of today are Kermits, spongegars and trash doves. Those of the not-so-far-away past were lolcats, challenges accepted and forever alones. We use memes not only for absurd humor but also for societal and political commentary. At this time in human history, every single thing that we think or do can be turned into a meme and is likely a meme already. Memes can be jokes about miniscule everyday observations or the endless woes of mental illness. Memes are cathartic and allow us to process information through the abstraction of tragedy and global events. Whatever our interests or needs, a meme exists for us.

In the age of the internet, the ways in which we communicate with one another and share cultural information change every day and do so at alarming rates. We can speak with anyone anywhere at any time and relay information about the space and time we are situated in in moments or as it happens. This ability to virtually participate with billions of others in meme-making means that the sharing and exchanging of information is limitless. Memetics is an emerging discipline and as the way we communicate and share information continues to be ever-changing, this will be an area of study for decades to come.

The concept of memetic engineering, similar to genetic engineering, describes a process of careful selection of memes to be created and distributed for successful replication. In doing so, the memetic engineer would purposefully construct memes to influence others to replicate them. These memes may be anything from political ideology used to sway voters to commercials enticing potential customers. Regardless, memetic engineers can seize the memes of production to draw in supporters.

Both memetics and memetic engineering can be used to better understand memes as simplistic and absurd as trash dove but also as complex and nuanced as the 2016 U.S. presidential election. Having existed as long as humans have transferred cultural information from one to the next, certain memes have remained largely unchanged and survived the ages while others mutate exponentially yet come and go at a moments notice. With the rise of the internet, our attention spans have shortened and the amount of available disposable content has increased. As a result, we require an influx of memes to remain entertained while navigating this technological era.

Main and lead images via twitter @striffleric and @WHATINTARNATlON

Deidre Olsen is a Toronto-based writer, blogger and poet with a love affair of social justice, technology and dank memes. In their spare time, you can find them learning Jiu Jitsu and how to code.

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On Memetics and the Transfer of Cultural Information - Paste Magazine

Memetics | Prometheism.net – Part 3

A meme is an idea or behavior that spreads from person to person within a society. The term was coined by Richard Dawkins in his book The Selfish Gene in 1976.[1] Dawkins proposed the idea that social information could change and propagate through a culture in a way similar to genetic changes in a population of organisms i.e., evolution by natural selection. Sticking with its roots in genetics and evolution, the term is derived from the word gene, which is a unit of hereditary biological information made of DNA. Compared to a gene, which has a physical existence within a cell nucleus, a meme is far more abstract and this has led to accusations that memetics isnt really hard science.

The idea was subsequently developed to include political philosophies and religions, which were named memeplexes, because they contain vast numbers of interacting memes. Memes that interact favourably will form strong memeplexes, while memeplexes will resist incompatible memes. A political memeplex valuing authority of thought would be incompatible with memes valuing individuality of thought, for example. This goes some way to explaining the polarisation of thought on the political spectrum.

Like genes, memes may be useful, negative or neutral. For example, political philosophies or indeed any philosophy including the philosophies of science are also memes or memeplexes.

Religious mythology is part of the memeplex of religion, as would be the idea that one needs religion. In the same way that Dawkins selfish genes would propagate through populations for their own benefit and not for the benefit of the organisms that carry them, memeplexes propagate through society irrespective of their value to the society. Enduring negative memeplexes are sometimes called mind viruses; with atheist proponents of memetics (e.g. Dawkins himself) citing Christian fundamentalism as one such example.

The internet has been a source for the creation and propagation of many new memes the majority of which are snowclones[wp] on image macros. On the internet an idea can be developed and quickly acquire modifications from users around the world, such that the root idea becomes the basis for multiple spin-off ideas, subsets of ideas, and other similar iterations. In this sense, a meme evolves, taking on a life of its own through the contributions of users of varied cultural backgrounds. Furthermore as large parts of the Internet are durable there is a permanent record of how the memes changed and developed.

Most memes are humorous in nature. All Your Base Are Belong to Us was an early internet meme, and lolcats is a popular emergent meme. Other memes focus on potential dangers, such as cell phones causing fires at gas pumps. Memes quickly lose their humor value weeks after being created, even days. (see: reddit, 4chan)

A scientific study of memetics was attempted with the establishment of the Journal of Memetics, which lasted from 1997-2005.[2] While memetics has gained a few boosters in fields that study culture such as social psychology, sociology, and anthropology, it has largely been ignored as a methodological approach or met with harsh criticism. In the final issue of the Journal of Memetics, Bruce Edmonds argued that memetics had failed to produce substantive results, writing I claim that the underlying reason memetics has failed is that it has not provided any extra explanatory or predictive power beyond that available without the gene-meme analogy.[3]

A common criticism of memetics is that the meme is a more primitive version of the concept of sign in semiotics repackaged in biological and evolutionary language.[4][5] Luis Benitez-Bribiesca has criticized memetics for lacking a well-formed definition of meme and argued that the high rate of mutation as proposed by the memeticists would lead to a chaotic disintegration of culture rather than a progressive evolution. (Not to mention denouncing it as a pseudoscientific dogma.)[6] Benitez-Bribiescas criticisms concerning fidelity and the ill-defined nature of memes feature in many other critiques of memetics as well. Dawkins argues that the fidelity is high enough for memetic copying to work in accordance with evolutionary processes.[7] Dan Sperber and Scott Atran reply that high fidelity copying is the exception and not the rule in cultural transmission.[8][9] Another problem concerning fidelity is the reconstructive nature of memory. Because memory does not store an exact copy of information, we can expect fidelity to decrease both in the process of copying or imitating memes from person-to-person and in the process of each individual recalling memes from memory. Atran also notes that memetics attempts to (and fails to) circumvent the evolved cognitive architecture of the mind. Robert Boyd and Peter J. Richerson claim that population thinking is more important than a model of genetic inheritance as an evolutionary analogy to cultural evolution.[10]

The issue of the definition of meme features in most of the above criticisms as well. What is, or is not, a meme? Does the meme carve nature at its joints? We know, for example, that computer viruses can follow genetic and evolutionary algorithms.[11] But how far can this application be extended into the cultural realm? Mesoudi, Whiten, and Laland argue that advances in modern genetics have chipped away at the definition of the gene as a discrete unit and so the same criticism might be applied to genetics, but it is still a useful field. However, they also note some of the successes of non-memetic cultural evolutionary models such as Boyd and Richersons population thinking approach in classifying archaeological artifacts.[12] Jeremy Burman claims that the meme was just a metaphor that got taken seriously and reified by a few too many people.[13] Many of the criticisms listed above, however, assert that whether the meme itself can be found or said to exist is irrelevant to its usefulness as it fails to provide a useful framework or systematic set of falsifiable predictions due to the circularity in the definition of fitness. (How do we know which memes are the most fit? The ones that spread the most are the fittest. And which memes spread the most? The ones that are the fittest, of course!)

Memetics has only a passing resemblance to genetics. In genetics, there is a clear separation between genes, genotypes, and phenotypes. That a gene is a proxy code for the phenotype, and the phenotype is what experiences selection pressure, not the gene. This is what allows natural selection to take place based on random mutation and inheritance of the code. A meme, however, is a jumble of the three concepts it acts as a gene but is also its own phenotype. Without this distinction, the evolution of memes is more Lamarckian than Darwinian. This should come as little surprise to those who consider that memes are the result of Dawkins proposing an rough allegory of genetics, rather than a serious science. To underscore the features of genetics that involve passing on information, a fairly legitimate comparison to how humans share and adapt ideas can be made. However, the similarities end there.

In fact, as an object of study, folklore comes closest to the subject proposed by the notion of memes. (For the idea of the meme as it has developed popularly, folklore is just the original name.) Folklorists have always paid attention to the ways that folk culture, arts, and traditions are handed down from one person to another and from one generation to the next. They hit upon the concept of the folk process: the way in whi ch folklore is preserved, edited, and amended in the process of its transmission, a process that keeps the folk culture relevant and useful as it is transmitted.

The folklorists blinkered themselves early on by their insistence on exclusively oral transmission and arbitrary esthetic preferences for the authentic. It wasnt until the 1970s and afterwards that folklorists realized that folklore was also being created by popular interactions with and responses to mass culture. The folklorists also learned to unsee the sharp distinction between the oral, handmade, and authentic versus published and mass-produced cultural artifacts. Technology was turning this into a continuum. Folklore could be spread by self-published broadsheets, by photocopier and fax machine, by email, and on the Internet. (Just like some folks took a while to figure out that folk music could be played on electric guitars.)

When the subject matter of folklore is expanded this way, it would appear in some ways to swallow the idea of the meme. At minimum, folklore offers an alternative vocabulary to discuss the preservation, alteration, and expansion of cultural ideas in the process of their transmission, one that does not need biological metaphors.

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Meme RationalWiki

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Memetics | Prometheism.net - Part 3

Memetics | Prometheism.net – Part 2

http://www.rubinghscience.org/memetics/dawkinsmemes.html Dec.1999 Chapter 11 from Richard Dawkins, The Selfish Gene

[ First published 1976; 1989 edition: Oxford University Press, ISBN 0-19-286092-5 (paperback) ],

the best short introduction to, and the text that kicked off, the new science of MEMETICS, (and, also, the text where Dawkins coined the term `meme).

The following, key, paragraph of this chapter may perhaps serve as an abstract:

Examples of memes are tunes, ideas, catch-phrases, clothes fashions, ways of making pots or of building arches. Just as genes propagate themselves in the gene pool by leaping from body to body via sperms or eggs, so memes propagate themselves in the meme pool by leaping from brain to brain via a process which, in the broad sense, can be called imitation. If a scientist hears, or reads about, a good idea, he passed it on to his colleagues and students. He mentions it in his articles and his lectures. If the idea catches on, it can be said to propagate itself, spreading from brain to brain. As my colleague N.K. Humphrey neatly summed up an earlier draft of this chapter: `memes should be regarded as living structures, not just metaphorically but technically.(3) When you plant a fertile meme in my mind you literally parasitize my brain, turning it into a vehicle for the memes propagation in just the way that a virus may parasitize the genetic mechanism of a host cell. And this isnt just a way of talking the meme for, say, belief in life after death is actually realized physically, millions of times over, as a structure in the nervous systems of individual men the world over.

Highlights ** and text in square brackets are not original.

11. Memes: the new replicators

So far, I have not talked much about man in particular, though I have not deliberately excluded him either. Part of the reason I have used the term `survival machine is that `animal would have left out plants and, in some peoples minds, humans. The arguments I have put forward should, prima facie, apply to any evolved being. If a species is to be excepted, it must be for good reasons. Are there any good reasons for supposing our own species to be unique? I believe the answer is yes.

Most of what is unusual about man can be summed up in one word: `culture. I use the word not in its snobbish sense, but as a scientist uses it. Cultural transmission is analogous to genetic transmission in that, although basically conservative, it can give rise to a form of evolution. Geoffrey Chaucer could not hold a conversation with a modern Englishman, even though they are linked to each other by an unbroken chain of some twenty generations of Englishmen, each of whom could speak to his immediate neighbours in the chain as a son speaks to his father. Language seems to `evolve by non-genetic means, and at a rate which is orders of magnitude faster than genetic evolution.

Cultural transmission is not unique to man. The best non-human example that I know has recently been described by P.F. Jenkins in the song of a bird called the saddleback which lives on islands off New Zealand. On the island where he worked there was a total repertoire of about nine distinct songs. Any given male sang only one or a few of these songs. The males could be classified into dialect groups. For example, one group of eight males with neighbouring territories san a particular song called the CC song. Other dialect groups sang different songs. Sometimes the members of a dialect group shared more than one distinct song. By comparing the songs of fathers and sons, Jenkins showed that song patterns were not inherited genetically.Each young male was likely to adopt songs from his territorial neighbours by imitation, in an analogous way to human language. During most of the time Jenkins was there, there was a fixed number of songs on the island, a kind of `song pool from which each young male drew his own small repertoire. But occasionally Jenkins was privileged to witness the `invention of a new song, which occurred by a mistake in the imitation of an old one. He writes: `New song forms have been shown to arise variously by change of notes and the combination of parts of other existing songs The appearance of the new form was an abrupt event and the product was quite stable over a period of years. Further, in a number of cases the variant was transmitted accurately in its new form to younger recruits so that a recognizably coherent group of like singers developed. Jenkins refers to the origins of new songs as `cultural mutations.

Song in the saddleback truly evolves by non-genetic means. There are other examples of cultural evolution in birds and monkeys, but not these are just interesting oddities. It is our own species that really shows what cultural evolution can do. Language is one example out of many. Fashions in dress and diet, ceremonies and customs, art and architecture, engineering and technology, all evolve in historical time in a way that looks like highly speeded up genetic evolution, but has really nothing to do with genetic evolution. As in genetic evolution though, the change may be progressive. There is a sense in which modern science is actually better than ancient science. Not only does our understanding of the universe change as the centuries go by: it improves. Admittedly the current burst of improvement dates back to the Renaissance, which was preceded by a dismal period of stagnation, in which European scientific culture was frozen at the level achieved by the Greeks. But, as we saw in chapter 5, genetic evolution too may proceed as a series of brief spurts between stable plateaux.

The analogy between cultural and genetic evolution has frequently been pointed out, sometimes in the context of quite unnecessary mystical overtones. The analogy between scientific progress and genetic evolution by natural selection has been illuminated especially by Sir Karl Popper. I want to go even further into directions which are also being explored by, for example, the geneticist L.L.Cavalli-Sforza, the anthropologist F.T. Cloak, and the ethologist J.M. Cullen.

As an enthousiastic Darwinian, I have been dissatisfied with explanations that my fellow-enthousiasts have offered for human behaviour. They have tried to look for `biological advantages in various attributes of human civilization. For example, tribal religion has been seen as a mechanism for solidifying group identity, valuable for a pack-hunting species whose individuals rely on cooperation to catch large and fast prey. Frequently the evolutionary preconception in terms of which such theories are framed is implicitly group-selectionist, but it is possible to rephrase the theories in terms of orthodox gene selection. Man may well have spent large portions of the last several million years living in small kin groups. Kin selection and selection in favour of reciprocal altruism may have acted on human genes to produce many of our basic psychological attributes and tendencies. These ideas are plausible as far as they go, but I find that they do not begin to square up to the formidable challenge of explaining culture, cultural evolution, and the immense differences between human cultures around the world, from the utter selfishness of the Ik of Uganda, as described by Colin Turnbull, to the gentle altruism of Margaret Meads Arapesh. I think we have got to start again and go right back to first principles. The argument I shall advance, surprising as it may seem coming from the author of the earlier chapters, is that, for an understandi ng of the evolution of modern man, we must begin by throwing out the gene as the sole basis of our ideas on evolution. I am an enthousiastic Darwinian, but, I think Darwinism is too big a theory to be confined to the narrow context of the gene. The gene will enter my thesis as an analogy, nothing more.

What, after all, is so special about genes? The answer is that they are replicators. The laws of physics are supposed to be true all over the accessible universe. Are there any principles of biology that are likely to have similar universal validity? When astronauts voyage to distant planets and look for life, they can expect to find creatures too strange and unearthly for us to imagine. But is there anything that must be true of all life, wherever it is found, and whatever the basis of its chemistry? If forms of life exist whose chemistry is based on silicon rather than carbon, or ammonia rather than water, if creatures are discovered that boil to death at -100 degrees centigrade, if a form of life is found that is not based on chemistry at all but on electronic reverberating circuits, will there still be any general principle that is true of all life? Obviously I do not know but, if I had to bet, I would put my money on one fundamental principle.This is the law that all life evolves by the differential survival of replicating entities.(1) The gene, the DNA molecule, happens to be the replicating entity that prevails on our planet. There may be others. If there are, provided certain other conditions are met, they will almost inevitable tend to become the basis for an evolutionary process.

But do we have to go to distant worlds to find other kinds of replicator and other, consequent, kinds of evolution? I think that a new kind of replicator has recently emerged on this very planet. It is staring us in the face. It is still in its infancy, still drifting clumsily about in its primeval soup, but already it is achieving evolutionary change at a rate that leaves the old gene panting far behind.

The new soup is the soup of human culture. We need a name for the new replicator, a noun that conveys the idea of a unit of cultural transmission, or a unit of imitation. `Mimeme comes from a suitable Greek root, but I want a monosyllable that sounds a bit like `gene. I hope my classicist friends will forgive me if I abbreviate mimeme to meme.(2) If it is any consolation, it could alternatively be thought of as being related to `memory, or to the French word mme. It should be pronounced to rhyme with `cream.

Examples of memes are tunes, ideas, catch-phrases, clothes fashions, ways of making pots or of building arches. Just as genes propagate themselves in the gene pool by leaping from body to body via sperms or eggs, so memes propagate themselves in the meme pool by leaping from brain to brain via a process which, in the broad sense, can be called imitation. If a scientist hears, or reads about, a good idea, he passed it on to his colleagues and students. He mentions it in his articles and his lectures. If the idea catches on, it can be said to propagate itself, spreading from brain to brain. As my colleague N.K. Humphrey neatly summed up an earlier draft of this chapter: `memes should be regarded as living structures, not just metaphorically but technically.(3) When you plant a fertile meme in my mind you literally parasitize my brain, turning it into a vehicle for the memes propagation in just the way that a virus may parasitize the genetic mechanism of a host cell. And this isnt just a way of talking the meme for, say, belief in life after death is actually realized physically, millions of times over, as a structure in the nervous systems of individual men the world over.

Consider the idea of God. We do not know how it arose in the meme pool. Probably it originated many times by independent `mutation. In any case, it is very old indeed. How does it replicate itself? By the spoken and written word, aided by great music and great art. Why does it have souch high survival value? Remember that `survival value here does not mean value for a gene in a gene pool, but value for a meme in a meme pool. The question really means: What is it about the idea of a god that gives it its stability and penetrance in the cultural environment? The survival value of the god meme in the meme pool results from its great psychological appeal. It provides a superficially plausible answer to deep and troubling questions about existence. It suggests that injustices in this world may be recified in the next. The `everlasting arms hold out a cushion against our own inadequacies which, like a doctors placebo, is none the less effective for being imaginary. These are some of the reasons why the idea of God is copied so readily by successive generations of individual brains. God exists, if only in the form of a meme with high survival value, or infective power, in the environment provided by human culture.

Some of my colleagues have suggested to me that this account of the survival value of the god meme begs the question. In the last analysis they wish always to go back to `biological advantage. To them it is not good enough to say that the idea of a god has `great psychological appeal. They want to know why it has great psychological appeal. Psychological appeal means appeal to brains, and brains are shaped by natural selection of genes in gene-pools. They want to find some way in which having a brain like that improves gene survival.

I have a lot of sympathy with this attitude, and I do not doubt that there are genetic advantages in our having brains of the kind we have. But nevertheless I think that these colleagues, if they look carefully at the fundamentals of their own assumptions, will find that they begging just as many questions as I am. Fundamentally, the reason why it is good policy for us to try to explain biological phemomena in terms of gene advantage is that genes are replicators. As soon as the primeval soup provided conditions in which molecules could make copies of themselves, the replicators themselves took over. For more than three thousand million years, DNA has been the only replicator worth talking about in the world. But it does not necessarily hold these monopoly rights for all time. Whenever conditions arise in which a new kind of replicator can make copies of itself, the new replicators will tend to take over, and start a new kind of evolution of their own. Once this new evolution begins, it will in no necessary sense be subservient to the old. The old gene-selected evolution, by making brains, provided the `soup in which the first memes arose. Once self-copying memes had arisen, their own, much faster, kind of evolution took off. We biologists have assimilated the idea of genetic evolution so deeply that we tend to forget that it is only one of many possible kinds of evolution.

Imitation, in the broad sense, is how memes can replicate. But just as not all genes that can replicate do so successfully, so some memes are more successful in the meme-pool than others. This is the analogue of natural selection. I have mentioned particular examples of qualities that make for high survival value among memes. But in general they must be the same as those discussed for the replicators of Chapter 2: longevity, fecundity, and copying-fidelity. The longevity of any one copy of a meme is probably relatively unimportant, as it is for any one copy of a gene. The copy of the tune `Auld Lang Syne that exists in my brain will last only for the rest of my life.(4) The copy of the same tune that is printed in my volume of The Scottish Students Song Book is unlikely to last much longer. But I expect there will be copies of the same tune on paper and in peoples brains for centuries to come. As in the case of genes, fecundity is much more important than longevity of particular copies. If the meme is a scientific idea, its spread will depend on how acceptable it is to the population of individual scientists; a rough measure of its survival value could be obtained by counting the number of times it is referred to in successive years in scientific journals.(5) If it is a popular tune, its spread through the meme pool may be gauged by the number of people heard whistling it in the streets. If it is a style of womens shoe, the population memeticist may use sales statistics from shoe shops. Some memes, like some genes, achieve brilliant short-term success in spreading rapidly, but do not last long in the meme pool. Popular songs and stiletto heels are examples. Others, such as the Jewish religious laws, may continue to propagate themselves for thousands of years, usually because of the great potential permanence of written records.

This brings me to the third general quality of successful replicators: copying-fidelity. Here I must admit that I am on shaky ground. At first sight it looks as if memes are not high-fidelity repliators at all. Every time a scientist hears an idea and passes it on to somebody else, he is likely to change it somewhat. I have made no secret of my debt in the book to the ideas of R.L. Trivers. Yet I have not repeated them in his own words. I have twisted them round for my own purposes, changing the emphasis, blending them with ideas of my own and of other people. The memes are being passed on to you in altered form. This looks quite unlike the particulate, all-or-none quality of gene transmission. It looks as though meme transmission is subject to continuous mutation, and also to blending.

It is possible that this appearance of non-particulateness is illusory, and that the analogy with genes does not break down. After all, if we look at the inheritance of many genetic characters such as human height or skin-colouring, it does not look like the work of indivisible and unbendable genes. If a black and an white person mate, their children do not come out either black or white: they are intermediate. This does not mean the genes concerned are not particulate. It is just that there are so many of them concerned with skin colour, each one having such a small effect, that they seem to blend. So far I have talked of memes as though it was obvious what a single unit-meme consisted of. But of course that is far from obvious.I have said a tune is one meme, but what about a symphony: how many memes is that? Is each movement one meme, each recognizable phrase of melody, each bar, each chord, or what?

I appeal to the same verbal trick as I used in Chapter 3. There I divided the `gene complex into large and small genetic units, and units within units. The `gene was defined, not in a rigid all-or-none way, but as a unit of convenience, a length of chromosome with just sufficient copying-fidelity to serve as a viable unit of natural selection. If a single phrase of Beethovens ninth symphony is sufficiently distinctive and memorable to be abstracted from the context of the whole symphony, and used as the call-sign of a maddeningly intrusive European broadcasting station, then to that extent it deserves to be called one meme. It has, incidentally, materially diminished my capacity to enjoy the original symphony.

Similarly, when we say that all biologists nowadays believe in Darwins theory, we do not mean that every biologist has, graven in his brain, an identical copy of the exact words of Charles Darwin himself. Each individual has his own way of interpreting Darwins ideas. He probably learned them not from Darwins own writings, but from more recent authors. Much of what Darwin said is, in detail, wrong. Darwin if he read this book would scarcely recognize his own theory in it, though I hope he would like the way I put it. Yet, in spite of all this, there is something, some essence of Darwinism, which is present in the head of every individual who understands the theory. If this were not so, then almost any statement about two people agreeing with each other would be meaningless. An `idea-meme might be defined as an entity that is capable of being transmitted from one brain to another. The meme of Darwins theory is therefore that essential basis of the idea which is held in common by all brains that understand the theory. The differences in the ways that people represent the theory are then, by definition, not part of the meme. If Darwins theory can be subdivided into components, such that some people believe component A but not component B, while others believe B but not A, then A and B should be regarded as separate memes. If almost everybody who believes in A also believes in B if the memes are closely `linked to use the genetic term then it is convenient to lump them together as one meme.

Let us pursue the analogy between memes and genes further. Throughout this book, I have emphasized that we must not think of genes as conscious, purposeful agents. Blind natural selection, however, makes them behave rather *as if* they were purposeful, and it has been convenient, as a shorthand, to refer to genes in the language of purpose. For example, when we say `genes are trying to increase their numbers in future gene pools, what we really mean is `those genes that behave in such a way as to increase their numbers in future gene pools tend to be the genes whose effects we see in the world. Just as we have found it convenient to think of genes as active agents, working purposefully for their own survival, perhaps it might be convenient to think of memes in the same way. In neither case must we get mystical about it. In both cases the idea of purpose is only a metaphor, but we have already seen what a fruitful metaphor it is in the case of genes. We have even used words like `selfish and `ruthless of genes, knowing full well it is only a figure of speech. Can we, in exactly the same spirit, look for selfish or ruthless memes?

There is a problem here concerning the nature of competition. Where there is sexual reproduction, each gene is competing particularly with its own alleles rivals for the same chromosomal slot. Memes seem to have nothing equivalent to alleles. I suppose there is a trivial sense in which many ideas can be said to have `opposites. But in general memes resemble the early replicating molecules, floating chaotically free in the primeval soup, rather than modern genes in their neatly paired, chromosomal regiments. In what sense then are memes competing with each other? Should we expect them to be `selfish or `ruthless, if they have no alleles? The answer is that we might, because there is a sense in which they must indulge in a kind of competition with each other.

Any user of a digital computer knows how precious computer time and memory storage space are. At many large computer centres they are literally costed in money; or each user may be allotted a ration of time, measured in seconds, and a ration of space, measured in `words. The computers in which memes live are human brains.(6) Time is possibly a more important limiting factor than storage space, and it is the subject of heavy competition. The human brain, and the body that it controls, cannot do more than one or a few things at once. If a meme is to dominate the attention of a human brain, it must do so at the expense of `rival memes. Other commodities for which memes compete are radio and television time, billboard space, newspaper column-inches, and library shelf-space.

In the case of genes, we saw in Chapter 3 that co-adapted gene complexes may arise in the gene pool. A large set of genes concerned with mimicry in butterflies became tightly linked together on the same chromosome, so tightly that they can be treated as one gene. In Chapter 5 we met the more sophisticated idea of the evolutionarily stable set of genes. Mutually suitable teeth, claws, guts, and sense organs evolved in carnivore gene pools, while a different stable set of characteristics emerged from herbivore gene pools. Has the god meme, say, become associated with any other particular memes, and does this association assist the survival of each of the participating memes? Perhaps we could regard an organized church, with its architecture, rituals, laws, music, art, and written tradition, as a co-adapted set of mutually-assisting memes.

To take a particular example, an aspect of doctrine that has been very effective in enforcing religious observance is the threat of hell fire. Many children and even some adults believe that they will suffer ghastly torments after death if they do not obey the priestly rules. This is a peculiarly nasty technique of persuasion, causing great psychological anguish throughout the middle ages and even today. But it is highly effective. It might almost have been planned deliberately by a macchiavellian priesthood trained in deep psychological indoctrination techniques. However, I doubt if the priests were that clever. Much more probably, unconscious memes have ensured their own survival by virtue of those same qualities of pseudo-ruthlessness that successful genes display. The idea of hell fire is, quite simply, self perpetuating, because of its own deep psychological impact. It has become linked with the god meme because the two reinforce each other, and assist each others survival in the meme pool.

Another member of the religious meme complex is called faith. It means blind trust, in the absence of evidence, even in the teeth of evidence. The story of Doubting Thomas is told, not so that we shall admire Thomas, but so that we can admire the other apostles in comparison. Thomas demanded evidence. Nothing is more lethal for certain kinds of meme than a tendency to look for evidence. The other apostles, whose faith was so strong that they did not need evidence, are held up to us as worthy of imitation. The meme for blind faith secures its own perpetuation by the simple unconscious expedient of discouraging rational inquiry.

Blind faith can justify anything.(7) If a man believes in a different god, or even if he uses a different ritual for worshipping the same god, blind faith can decree that he should die on the cross, at the stake, skewered on a Crusaders sword, shot in a Beirut street, or blown up in a bar in Belfast. Memes for blind faith have their own ruthless ways of propagating themselves. This is true of patriotic and political as well as religious blind faith.

Memes and genes may often reinforce each other, but they sometimes come into opposition. For example, the habit of celibacy is presumably not inherited genetically. A gene for celibacy is doomed to failure in the gene pool, except under very special circumstances such as we find in the social insects. But still, a meme for celibacy can be successful in the meme pool. For example, suppose the success of a meme depends critically on how much time people spend in actively transmitting it to other people. Any time spent in doing other things than attempting to transmit the meme may be regarded as time wasted from the memes point of view. The meme for celibacy is transmitted by priests to young boys who have not yet decided what they want to do with their lives. The medium of transmission is human influence of various kinds, the spoken and written word, personal example and so on. Suppose, for the sake of argument, it happened to be the case that marriage weakened the power of a priest to influence his flock, say because it occupied a large proportion of his time and attention. This has, indeed, been advanced as an official reason for the enforcement of celibacy among priests. If this were the case, it could follow that the meme for celibacy could have greater survival value than the meme for marriage. Of course, exactly the opposite would be true for a gene for celibacy. If a priest is a survival machine for memes, celibacy is a useful attribute to build into him. Celibacy is just a minor partner in a large complex of mutually-assisting religious memes.

I conjecture that co-adapted meme-complexes evolve in the same kind of way as co-adapted gene-complexes. Selection favours memes that exploit their cultural environment to their own advantage. This cultural environment consists of other memes which are also being selected. The meme pool therefore comes to have the attributes of an evolutionarily stable set, which new memes find it hard to invade.

I have been a bit negative about memes, but they have their cheerful side as well. When we die there are two things we can leave behind us: genes and memes. We were built as gene machines, created to pass on our genes. But that aspect of us will be forgotten in three generations. Your child, even your grandchild, may bear a resemblance to you, perhaps in facial features, in a talent for music, in the colour of her hair. But as each generation passes, the contribution of your genes is halved. It does not take long to reach negligible proportions. Our genes may be immortal but the collection of genes that is any one of us is bound to crumble away. Elizabeth II is a direct descendant of William the Conqueror. Yet it is quite probable that she bears not a single one of the old kings genes. We should not seek immortality in reproduction.

But if you contribute to the worlds culture, if you have a good idea, compose a tune, invent a sparking plug, write a poem, it may live on, intact, long after your genes have dissolved in the common pool. Socrates may or may not have a gene or two alive in the world today, as G.C. Williams has remarked, but who cares? The meme-complexes of Socrates, Leonardo, Copernicus and Marconi are stil going strong.

However speculative my development of the theory of memes may be, there is one serious point which I would like to emphasize once again. This is that when we look at the evolution of cultural traits and at their survival value, we must be clear whose survival we are talking about. Biologists, as we have seen, are accustomed to looking for advantages at the gene level (or the individual, the group, or the species level according to taste). What we have not previously considered is that a cultural trait may have evolved in the way that it has, simply because it is advantageous to itself.

We do not have to look for conventional biological survival values of traits like religion, music, and ritual dancing though these may also be present. Once the genes have provided their survival machines with brains that are capable of rapid imitation, the memes will automatically take over. We do not even have to posit a genetic advantage in imitation, though that would certainly help. All that is necessary is that the brain should be capable of imitation: memes will then evolve that exploit the capacity to the full.

I now close the topic of the new replicators, and end the chapter on a note of qualified hope. One unique feature of man, which may or may not have evolved memically, is his capacity for conscious foresight. Selfish genes (and, if you alllow the speculation of this chapter, memes too) have no foresight. They are unconscious, b lind, replicators. The fact that they replicate, together with certain further conditions means, willy nilly, that they will tend towards the evolution of qualities which, in the special sense of this book, can be called selfish. A simple replicator, whether gene or meme, cannot be expected to forgo short-term selfish advantage even if it would really pay it, in the long term, to do so. We saw this in the chapter on aggression. Even though a `conspiracy of doves would be better for every single individual than the evolutionarily stable strategy [=ESS], natural selection is bound to favour the ESS.

It is possible that yet another unique quality of man is a capacity for genuine, desinterested, true altruism. I hope so, but I am not going to argue the case one way or another, nor to speculate over its possible memic evolution. The point I am making now is that, even if we look on the dark side and assume that individual man is fundamentally selfish, our conscious foresight our capacity to simulate the future in imagination could save us from the worst selfish excesses of the blind replicators. We have at least the mental equipment to foster our long-term selfish interests rather than merely our short-term selfish interests. We can see the long-term benefits of participating in a `conspiracy of doves, and we can sit down together to discuss ways of making the conspiracy work. We have the power to defy the selfish genes of our birth and, if necessary, the selfish memes of our indoctrination. We can even discuss ways of deliberately cultivating and nurturing pure, disinterested altruism something that has no place in nature, something that has never existed before in the whole history of the world. We are built as gene machines and cultured as meme machines, but we have the power to turn against our own creators. We, alone on earth, can rebel against the tyranny of the selfish replicators.(8)

NOTES

(1) I would put my money on one fundamental principle all life evolves by the differential survival of repicating entities.

My wager that all life, everywhere in the universe, would turn out to have evolved by Darwinian means has now been spelled out and justified more fully in my paper `Universal Darwinism and in the last chapter of The Blind Watchmaker. I show that all the alternatives to Darwinism that have ever been suggested are in principle incapable of doing the job of explaining the organized complexity of life. The argument is a general one, not based upon particular facts about life as we know it. As such it has been criticized by scientists pedestrian enough to think that slaving over a hot test tube (or cold muddy boot) is the only method of discovery in science. One critic complained that my argument was `philosophical, as though that was sufficient condemnation. Philosophical or not, the fact is that neither he nor anybody else has found any flaw in what I said. And `in principle arguments such as mine, far from being irrelevant to the real world, can be more powerful than arguments based on particular factual research. My reasoning, if it is correct, tells us something important about life everywhere in the universe. Laboratory and field research can tell us only about life as we have sampled it here.

(2) Meme

The word meme seems to be turning out to be a good meme. It is now quite widely used and in 1988 it joined the official list of words being considered for future editions of Oxford English Dictionaries. This makes me the more anxious to repeat that my designs on human culture were modest almost to vanishing point. My true ambitions and they are admittedly large lead in another direction entirely. I want to claim almost limitless power for slightly inaccurate self-replicating entities, once they arise anywhere in the universe. This is because they tend to become the basis for Darwinian selection which, given enough generations, cumulatively builds systems of great complexity. I believe that, given the right conditions, replicators automatically band together to create systems, or machines, that carry them around and work to favour their continued replication. The first ten chapters of The Selfish Gene had concentrated exclusively on one kind of replicator, the gene. In discussing memes in the final chapter I was trying to make the case for replicators in general, and to show that genes were not the only members of that important class. Whether the milieu of human culture really does have what it takes to get a form of Darwinism going, I am not sure. But in any case that question is subsidiary to my concern.Chapter 11 will have succeeded of the reader closes the book with the feeling that DNA molecules are not the only entities that might form the basis for Darwinian evolution. My purpose was to cut the gene down to size, rather than to sculpt a grand theory of human culture.

(3) memes should be regarded as living structures, not just metaphorically but technically

DNA is a self-replicating piece of hardware. Each piece has a particular structure, which is different from rival pieces of DNA. If memes in brains are analogous to genes they must be self-replicating brain structures, actual patterns of neurological wiring-up that reconsititute themselves in one brain after another. I had always felt uneasy spelling this out aloud, because we know far less about brains than about genes, and are therefore necessarily vague about what such a brain structure might actually be. So I was relieved to receive very recently a very interesting paper by Juan Delius of the University of Konstanz in Germany. Unlike me, Delius doesnt have to feel apologetic, because he is a distinguished brain scientist whereas I am not a brain scientist at all. I am delighted, therefore, that he is bold enough to ram home the point by actually publishing a detailed picture of what the neuronal hardware of a meme might look like. Among the other interesting things he does is to explore, far more searchingly than I had done, the analogy of memes with parasites; to be more precise, with the spectrum of which malignant parasites are one extreme, benign `symbionts the other extreme. I am particularly keen on this approach because of my own interest in `extended phenotypic effects of parasitic genes on host behaviour (see Chapter 13 of this book and in particular chapter 12 of The Extended Phenotype). Delius, by the way, emphasizes the clear separation between memes and their (phenotypic) effects. And he reiterates the importance of coadapted meme-complexes, in which memes are selected for their mutual compatibility.

(4) `Auld Lang Syne

`Auld Lang Syne was, unwittingly, a revealingly fortunate example for me to have chosen. This is because, almost universally, it is rendered with an error, a mutation. The refrain is, essentially always nowadays, sung as `For the sake of auld lang syne, whereas Burns actually wrote `For auld lang syne. A memically minded Darwinian immediately wonders what has been the `survival value of the interpolated phrase, `the sake of. Remember that we are not looking for ways in which people might have survived better through singing the song in altered form. We are looking for ways in which the alteration itself might have been good at surviving in the meme pool. Everybody learns the song in childhood, not through reading Burns but through hearing it sung on New Years Eve. Once upon a time, presumably, everybody sang the correct words. `For the sake of must have arisen as a rare mutation. Our question is, why has the initially rare mutation spread so insidiously that it has become th e norm in the meme pool?

I dont think the answer is far to seek. The sibilant `s is notoriously obtrusive. Church choirs are drilled to pronounce `s sounds as lightly as possible, otherwise the whole church echoes with hissing. A murmuring priest at the altar of a great cathedral can sometimes be heard, from the back of the nave, only as a sporadic sussuration of `ss. The other consonant in `sake, `k, is almost as penetrating. Imagine that nineteen people are correctly singing `For auld lang syne, and one person, somewhere in the room, slips in the erroneous `For the sake of auld lang syne. A child, hearing the song for the first time, is eager to join in but uncertain of the words. Although almost everybody is singing `For auld lang syne, the hiss of an `s and the cut of a `k force their way into the childs ears, and when the refrain comes round again he too sings `For the sake of auld lang syne. The mutant meme has taken over another vehicle. If there are any other children there, or adults unconfident of the words, they will be more likely to switch to the mutant form next time the refrain comes round. It is not that they `prefer the mutant form. They genuinely dont know the words and are honestly eager to learn. Even if those who know better indignantly bellow `For auld lang syne at the top of their voice (as I do!), the correct words happen to have no conspicuous consonants, and the mutant form, even if quietly and diffidently sung, is far easier to hear.

A similar case is `Rule Brittannia. The correct second line of the chorus is `Brittannia, rule the waves. It is frequently, though not quite universally, sung as `Brittannia rules the waves. Here the insistently hissing `s of the meme is aided by an additional factor. The indended meaning of the poet (James Thompson) was persumably imperative (Brittannia, go out and rule the waves !) or possibly subjunctive (let Brittannia rule the waves). But it is superficially easier to misunderstand the sentence as indicative (Brittannia, as a matter of fact, does rule the waves). This mutant meme, then, has two separate survival values over the original form that it replaced: it sounds more conspicuous and it is easier to understand.

The final test of a hypothesis should be experimental. It should be possible to inject the hissing meme, deliberately, into the meme pool at a very low frequency, and then watch it spread because of its own survival value. What if just a few of us were to start singing `God saves our gracious Queen?

(5) If the meme is a scientific idea, its spread will depend on how acceptable it is to the population of individual scientists; a rough measure of its survival value could be obtained by counting the number of times it is referred to in successive years in scientific journals.

[ Sorry, I left this note out. Its rather long, and contains 3 figures (relatively hard to copy and put into an HTML page) that unfortunately are important to the notes text and anyway, the note is probably of interest only to settled bureaucratic scientists concerned mainly with the # of times their own publications are quoted in papers by others. :-):-) But !, since you have read so far, I think you are pretty interested in this stuff please consider buying the book ! I think it really would be a worthwhile investment in yourself. ]

(6) The computers in which memes live are human brains.

It was obviously predictable that manufactured electronic computers, too, would eventually play host to self-replicating patterns of information memes. Computers are increasingly tied together in intricate networks of shared information. Many of them are literally wired up together in electronic mail exchange. Others share information when their owners pass floppy disks around. It is a perfect milieu for self-replicating programs to flourish and spread. When I wrote the first edition of this book I was nave enough to suppose that an undesirable computer meme would have to arise by a spontaneous error in the copying of a legitimate program. Alas, that was a time of innocence. Epidemics of `viruses and `worms, deliberately released by malicious programmers, are now familiar hazards to computer-users all over the world. [Un-original paragraph break]

My own hard disc has to my knowledge been infected in two diffent virus epidemics during the past year, and that is a fairly typical experience among heavy computer users. I shall not mention the names of particualr viruses for fear of giving any nasty little satisfaction to their nasty little perpetrators. I say `nasty, because their behaviour seems to me morally indistinguishable from that of a technician in a microbiology laboratory, who deliberately infects the drinking water and seeds epidemics in order to snigger at people getting ill. I say `little, because these people are mentally little. There is nothing clever about designing a computer virus. Any half-way competent programmer could do it, and half-way competent programmers are two-a-penny in the modern world. Im one myself. I shant even bother to explain how computer viruses work. Its too obvious.

[ Hear, hear ! . So even Dawkins is not immune to burst off in `flames and in useless gratuitous morality and ethics. :-):-) Still, nevertheless, this note (bar the moralisms) does contain some interesting stuff. ]

What is less easy is how to combat them. Unfortunately some very expert programmers have had to waste their valuable time writing virus-detector programs, immunization programs and so on (the analogy with medical vaccination, by the way, is astonishingly close, even down to the injection of a `weakened strain of the virus). The danger is that an arms race will develop, with each advance in virus-prevention being matched by counter-advances in new virus programs. So far, most anti-virus programs are written by altruists and supplied free of charge as a service. But I foresee the growth of a whole new profession splitting into lucrative specialisms just like any other profession of `software doctors on call with black bags full of diagnostic and curative floppy disks. I use the name `doctors, but real doctors are solving natural problems that are not deliberately engineered by human malice. My software doctors, on the other hand, will be, like lawyers, solving man-made problems that should never have existed in the first place. In so far as virus-makers have any discernible motive, they presumably feel vaguily anarchistic. I appeal to them: do you really want to pave the way for a new cat-profession? If not, stop playing at silly memes, and put your modest programming talents to better use.

(7) Blind faith can justify anything.

I have had the predictable spate of letters from faiths victims, protesting about my criticisms of it. Faith is such a successful brainwasher in its own favour, especially a brainwasher of children, that it is hard to break its hold. But what, after all, is faith? It is a state of mind that leads people to believe something it doesnt matter what in the total absence of supporting evidence. If there were good supporting evidence then faith would be superfluous, for the evidence would compel us to believe it anyway. It is this that makes the often-parrotted claim that `evolution is a matter of faith so silly. People believe in evolution not because they arbitrarily want to believe it but because of overwhelming, publicly available evidence.

I said `it doesnt matter what the faithful believe, which suggests that people have faith in entirely daft, arbitrary things, l ike the electric monk in Douglas Adams delightful Dirk Gentlys Holistic Detective Agency. He was purpose-built to do your believing for you, and very successful at it. On the day that we meet him he unshakingly believes, against all the evidence, that everything in the world is pink. I dont want to argue that things in which a particular individual has faith are necessarily daft. They may of may not be. The point is that there is no way of deciding whether they are, and no way of preferring one article of faith over another, because evidence is explicitly eschewed. Indeed the fact that true faith doesnt need evidence is held up as its greatest virtue; this was the point of my quoting the story of Doubting Thomas, the only really admirable member of the apostles.

Faith cannot move mountains (though generations of children are solemnly told the contrary and believe it). But it is capable of driving people to such dangerous folly that faith seems to me to qualify as a kind of mental illness. It leads people to believe in whatever it is so strongly that in extreme cases thay are prepared to kill and die for it without the need for further justification. Keith Henson has coined the name `memeoids for `victims that have been taken over by a meme to the extent that their own survival becomes inconsequential You see lots of these people on the evening news from such places as Belfast or Beirut. Faith is powerful enough to immunize people agains all appeals to pity, to forgiveness, to decent human feelings. It even immunizes them against fear, if they honestly believe that a martyrs death will send them straight to heaven. What a weapon! Religious faith deserves a chapter to iteself in the annals of war technology, on an even footing with the longbow, the warhorse, the tank, and the hydrogen bomb.

(8) We, alone on earth, can rebel against the tyranny of the selfish replicators.

The optimistic tone of my conclusion has provoked scepticism among critics who feel that it is inconsistent with the rest of the book. In some cases the criticism comes from doctrinaire sociobiologists jealously protective of the importance of genetic influence. In other cases the criticism comes from a paradoxically opposite quarter, high priests of the left jealously protective of a favourite demonological icon! Rose, Kamin, and Lewontin in Not in Our Games have a private bogey called `reductionism; and all the best reductionists are also supposed to be `determinists, preferably `genetic determinists.

The numbers in brackets refer to the numbered references in the bibliography. References for the body of Chapter 11 are preceded by a -, those for the notes by a >.

Arapesh tribe (133) blending inheritance (69) Cavalli-Sforza, L.L. (32, 33) Cloak, F.T. (37) cultural evolution (20, 32, 33, 37, 62, 128) Darwin, C.R. (41) > Delius, J.D. (58) > determinism (47,51,154) faith (94) > Henson, H.K. (94) Humphrey, N.K. (99) Ik tribe (175) Jenkins, P.F. (101) > Kamin, L.J. (154) > Lewontin, R.C. (110, 154) Mead, M. (133) -> meme (20, 58) > parasites (47, 89, 90, 160) particulate inheritance (69, 129, 153) Popper, K. (150, 151) primeval soup (144) > reductionism (154) religion (94) replicator (47, 48) > Rose, S. (154) saddleback (101) Trivers, R.L. (170, 171, 172, 173, 174) Turnbull, C. (175) > universal Darwinism (49, 50) Williams, G.C. (181, 183) > Wilson, E.O. (185)

20. Bonner, J.T. (1980) The Evolution of Culture in Animals. Princeton: Princeton University Press. 32. Cavalli-Sforza, L.L. (1971) Similarities and dissimilarities of sociocultural and biological evolition. In Mathematics in the Archaeological and Historical Sciences (eds. F.R. Hodson, D.G. Kendall, and P. Tautu). Edinburgh: Edinburgh University Press. pp. 553-41. 33. Cavalli-Sforza, L.L. and Feldman, M.W. (1981) Cultural Transmission and Evolution: A Quantitative Approach. Princeton: Princeton University Press. 37. Cloak, F.T. (1975) Is a cultural ethology possible? Human Ecology 3, 161-82. 41. Darwin, C.R. (1859) The Origin of Species. London: John Murray. 47. Dawkins, R. (1982) The Extended Phenotype. Oxford: W.H. Freeman. 48. Dawkins, R. (1982) Replicators and vehicles. in Current Problems in Sociobiology (eds. Kings College Sociobiology Group). Cambridge: Cambridge University Press. pp. 45-64. 49. Dawkins, R. (1983) Universal Darwinism. In Evolution from Molecules to Men (ed. D.S. Bendall). Cambridge: Cambridge University Press. pp. 403-25. 50. Dawkins, R. (1986) The Blind Watchmaker. Harlow: Longman. 51. Dawkins, R. (1986) Sociobiology: the new storm in a teacup. In Science and Beyond (eds. S. Rose and L. Appignanesi). Oxford: Basil Blackwell. pp. 61-78. 58. Delius, J.D. (in press [in 1989]) Of mind memes and brain bugs: a natural history of culture. In The Nature of Culture (ed. W.A. Koch). Bochum: Studienlag Brockmeyer. 62. Dobzhansky, T. (1962) Mankind Evolving. New Haven: Yale University Press. 69. Fisher, R.A. (1930) The Genetical Theory of Natural Selection. Oxford: Clarendon Press. 89. Hamilton, W.D. (1998) Sex versus non-sex versus parasite. Oikos 35, 282-90. 90. Hamilton, W.D. and Zuk, M. (1982) Heritable true fitness and bright birds: a role for parasites? Science 218, 384-7. 94. Henson, H.K. (1985) Memes, L5 and the religion of the space colonies. L5 News, September 1985, pp. 5-8. 99. Humphrey, N. (1986) The Inner Eye. London: Faber and Faber. 101. Jenkins, P.F. (1978) Cultural transmission of song patterns and dialect development in a free-living bird population. Animal Behaviour 26, 50-78. 110. Lewontin, R.C. (1983) The organism as the subject and object of evolution. Scientia 118, 65-82. 128. Maynard Smith, J. (1988) Games, Sex and Evolution. New York: Harvester Wheatsheaf. 129. Maynard Smith, J. (1988) Evolutionary Genetics. Oxford: Oxford University Press. 133. Mead, M. (1950) Male and Female. London: Gollancz. 144. Orgel, L.E. (1973) The Origins of Life. London: Chapman and Hall. 150. Popper, K. (1974) The rationality of scientific revolutions. In Problems of Scientific Revolution (ed. R. Harr). Oxford: Clarendon Press. pp. 72-101. 151. Popper, K. (1974) Natural selection and the emergence of mind. Dialectica 32, 339-55. 153. Ridley, M. (1985) The Problems of Evolution. Oxford: Oxford University Press. 154. Rose, S., Kamin, L.J., and Lewontin, R.C. (1984) Not In Our Genes. Oxford: Oxford University Press. 160. Seger, J. and Hamilton, W.D. (1988) Parasites and sex. In The Evolution of Sex (eds. R.E. Michod and B.R. Levin). Sunderland, Massachusetts: Sinauer. pp. 176-93. 170. Trivers, R.L. (1971) The evolution of reciprocal altruism. Quarterly Review of Biology 46, 35-57. 171. Trivers, R.L. (1972) Parental investment and sexual selection. In Sexual Selection and the Descent of Man (ed. B. Campbell). Chicago: Aldine. pp 136-79. 172. Trivers, R.L. (1974) Parent-offspring conflict. American Zoologist 14, 249-64. 173. Trivers, R.L. (1985) Social Evolution. Menlo Park: Benjamin/Cummings. 174. Trivers, R.L. and Hare, H. (1976) Haplodiploidy and the evolution of the social insects. Science 191, 249-63. 175. Turnbull, C. (1972) The Mountain People. London: Jonathan Cape. 181. Williams, G.C. (1975) Sex and Evolution. Princeton: Princeton University Press. 183. Williams, G.C. (1975) A defense of reductionism in evolutionary biology. In Oxford Surveys in Biology (eds. R. Dawkins and M. Ridley), 2, pp. 1-27. 185. Wilson, E.O. (1975) Sociobiology: The New Synthesis. Cambridge, Massachusetts: Harvard University Press.

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Memetics | Prometheism.net - Part 2

Do Daniel C. Dennett’s memes deserve to survive? – Spectator.co.uk

The greatest of Bachs 224 cantatas is BWV 109, Ich glaube, lieber Herr, hilf meinem Unglauben. Its subject the title translates as Mark 9:24, I believe, dear Lord, help my unbelief is that strange cognitive dissonance of believing something yet not believing it at the same time. Daniel Dennetts new book, From Bacteria to Bach and Back, is aimed at those who suffer from this intermittent unbelief, though not about God Dennett is, after all, one of modern philosophys most prominent atheists but about his specialist subject: evolution by natural selection.

Of course, most educated people nowadays accept Darwins great insight. But, Dennett argues in his typical avuncular style, they only do so up to a point: the point at which anyone applies it to the human mind. Even the most rational among us feel the pull of Cartesian Gravity, the force that warps our scientific intuitions whenever we get close to thinking about our own minds, drawing us towards dualism and other philosophically naive notions. Surely, so the faulty reasoning goes, there must be something special about our intellects that doesnt admit of a purely Darwinian analysis?

Dennett treats this confusion with a dose of immersion therapy, applying Darwinism universally and far more liberally than most would dare. He goes so far as to encourage scientists to talk about design in evolution despite the lack of a designer, to think about reasons even though there is no reasoner (Dennett calls these free-floating rationales), and to consider competence without comprehension: like a computer, evolution can perform tasks competently, but without any need to understand what it has done.

This uncompromising adaptationism treating no feature of life as immune to evolutionary logic leads Dennett on to his Darwinian theory of human culture. Over thousands of years, culture has moved from bottom-up to top-down; from the mindless generating and testing of multiple ideas some of which happened to be successful and were thus replicated, often uncomprehendingly, by other people to the mindful, directed design we see in art, architecture, science and music. Similar to Dennetts notion of free will, expounded in his book Freedom Evolves, culture exists on a continuum of complexity; in a strangely satisfying inversion, as culture has evolved via Darwinian processes, it has effectively de-Darwinised itself (though not completely: even the greatest designers like Bach didnt create ex nihilo, often going through immense Dennett would say evolutionary drudgery, trial and error before their masterpieces emerged).

Can culture really be unconscious? This is where memes come in. By this I dont just mean those pictures of cats and frogs on the internet although those are memes in Dennetts conception. For Dennett, a meme is essentially any piece of information that spreads from person to person: indeed, even individual words are memes, and (by analogy with genes) we can study their fitnessby seeing whether they reproduce themselves into different peoples minds (again, often without those people making any conscious effort). This might seem like mission creep: Richard Dawkinss original conception of memes included fads, chain letters and other viral phenomena, not language itself. But Dennett extends memes along another continuum, from single words all the way to the complex cultural ideas that have shaped civilisation by infesting our minds. Memes are the handholds on the climbing wall of culture, allowing us to move towards ever more purposeful, ever more conscious design.

Dennett is well aware of the scepticism that the idea of memes engenders. Indeed, he spends a chapter fending off the various criticisms that have accumulated over the decades since Dawkins suggested it. Perhaps ironically given its focus on virality, memetics has never really caught on as a science, and I rather doubt whether Dennetts case here will convince the non-believers. I found myself wondering what a would-be memeticist would do with their day. Which scientific hypotheses would they be testing? Where would they gather their data? How would they analyse it? The memes-eye-view is an intriguing perspective on cultural evolution, but the concept seems too woolly to inspire hard science (history bears out this concern: the Journal of Memetics, which had its first issue in 1997, closed down in 2005 for want of research papers).

From Bacteria to Bach and Back is one long argument, employing Darwinian logic with often counterintuitive results. Decades of developing his theory has allowed Dennett to anticipate most of the objections readers might have, and he works methodically to defuse their concerns. Those who stick with him will find the books strange inversions of reasoning beguiling and its vast scope enthralling, even if theyre less than compelled by its payoff. Ultimately, philosophical thought experiments arent enough to buttress Dennetts memetic view of life and culture: perhaps Im still suffering the ill effects of Cartesian Gravity, but a little more empirical evidence would have helped my unbelief.

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Do Daniel C. Dennett's memes deserve to survive? - Spectator.co.uk

The Meme Culture of America is Taking Over – TrendinTech

Memes are used as a way of representing an idea, belief, or culture, and if used in the right way, can be used to win over anyone. Even the recent election used a plethora of memes to grab the attention of voters and keep them on the side once captured. However, they can also be dangerous little creatures of mass destruction if used in the wrong way. But one thing that is for certain is that memes do pose a challenge to the United States.

One person who can see the issues coming is Jeff Giesea, the former employee of Peter Thiel, tech giant and Trump donor. He said in an essay on power memes, Its time to drive towards a more expensive view of Strategic Communications on the social media battlefield. Its time to adopt a more aggressive, proactive, and agile mindset and approach. Its time to embrace memetic warfare. But, hes not alone in his thoughts. Others within the US military wanted to know how memes could be used in warfare in the early 2000s, partly as a result of the warring against jihadist terrorists.

A paper entitled Memetics: A Growth Industry in US Military Operations was published by Michael B. Prosser who is now a Lieutenant Colonel in the Marine Corps. In it, Prosser explains his vision for weaponizing and diffusing memes that would be created to understand and defeat an enemy in ideology and win over the masses of undecided non-combatants. The paper also talks about a proposal for a Meme Warfare Center whose main function would be to provide advice to the Commander on meme transmission, enemy analysis, and population information.

DARPA too have been looking closely at memetics and are part-way through a four-year study themselves on the subject. But, despite government research, it still seems to be insurgent groups that use memes in the most efficient manner. One example of this can be seen during the early stages of the ISIS war where memes were used to grab the attention of their audience and get their message across to both potential recruits and enemies.

According to John Robb, former Air Force pilot involved in special operations and author of Brave New War: The Next Stage of Terrorism and the End of Globalization, the US military will always be disadvantaged when it comes to using memetics in war as the most effective types of manipulation all yield disruption. He adds, The broad manipulation of public sentiment is really not in [the militarys] wheelhouse because all the power is in the hands of the people on the outside doing the disruption.

Donald Trumps campaign is an excellent example of how a meme insurgency can occur. His campaign was largely about creating disorder among the voters to gain popularity, and hey, it worked, Donald Trump is the new president. Perhaps when Jeff Giesea released his paper in 2015 about memetic warfare, it should have been a warning of what was to come. He said, For many of us in the social media world, it seems obvious that more aggressive communication tactics and broader warfare through trolling and memes a necessary, inexpensive, and easy way to help destroy the appeal and morale of our common enemies. Now we can only sit back and see what else is to come from the world of memetics.

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Memetics is an approach to evolutionary models of information transfer based on the concept of the meme.

The term comes from a transliteration of a Greek word and was used in 1904 by the German evolutionary biologist Richard Semon in his work Die Mnemische Empfindungen in ihren Beziehungen zu den Originalenempfindungen, translated into English in 1921 as The Mneme.

In his book The Selfish Gene (1976), the ethologist Richard Dawkins coined the slightly different term "meme" to describe a unit of human cultural evolution analogous to the gene, arguing that replication also happens in culture, albeit in a different sense. In his book, Dawkins contended that the meme is a unit of information residing in the brain and is the mutating replicator in human cultural evolution. It is a pattern that can influence its surroundings and can propagate. This created great debate among sociologists, biologists, and scientists of other disciplines, because Dawkins himself did not provide a sufficient explanation of how the replication of units of information in the brain controls human behavior and ultimately culture, since the principal topic of the book was genetics. Dawkins apparently did not intend to present a comprehensive theory of memetics in The Selfish Gene, but rather coined the term meme in a speculative spirit. Accordingly, the term "unit of information" came to be defined in different ways by many scientists.

The modern memetics movement dates from the mid 1980s (a January 1983 Metamagical Themas column by Douglas Hofstadter in Scientific American was influential). The study differs from mainstream cultural evolutionary theory in that its practitioners frequently come from outside of the fields of anthropology and sociology, and are often not academics. The massive popular impact of Dawkins' The Selfish Gene has undoubtedly been an important factor in drawing in people of disparate intellectual backgrounds. Another crucial stimulus was the publication in 1992 of Consciousness Explained by Tufts University philosopher Daniel Dennett, which incorporated the meme concept into an influential theory of the mind. In his 1993 essay Viruses of the Mind, Richard Dawkins used memetics to explain the phenomenon of religious belief and the various characteristics of organised religions.

However, the foundation of memetics in full modern incarnation originates in the publication in 1996, of two books by authors outside of the academic mainstream: Virus of the Mind: The New Science of the Meme by former Microsoft executive turned motivational speaker and professional poker player, Richard Brodie, and Thought Contagion: How Belief Spreads Through Society by Aaron Lynch, a mathematician and philosopher who worked for many years as an engineer at Fermilab. Lynch conceived his theory totally independently of any contact with academics in the cultural evolutionary sphere, and apparently was not even aware of Dawkins' The Selfish Gene until his book was very close to publication.

Around the same time as the publication of the books by Lynch and Brodie, a new e-journal appeared on the web, hosted by the Centre for Policy Modelling at Manchester Metropolitan University Journal of Memetics - Evolutionary Models of Information Transmission. (There had been a short-lived paper memetics publication starting in 1990, the Journal of Ideas edited by Elan Moritz. [1]) The e-journal soon became the central point for publication and debate within the nascent memetics community. In 1999, Susan Blackmore, a psychologist at the University of the West of England, published The Meme Machine, which more fully worked out the ideas of Dennett, Lynch and Brodie and attempted to compare and contrast them with various approaches from the cultural evolutionary mainstream, as well as providing novel, and controversial, memetic-based theories for the evolution of language and the human sense of individual selfhood.

The memetics movement split almost immediately into those who wanted to stick to Dawkins' definition of a meme as "a unit of information in the brain", and those who wanted to redefine it as observable cultural artefacts and behaviours. These two schools became known as the "internalists" and the "externalists". Prominent internalists included both Lynch and Brodie; the most vocal externalists included Derek Gatherer, a geneticist from Liverpool John Moores University and William Benzon, a writer on cultural evolution and music. The main rationale for externalism was that internal brain entities are not observable, and memetics cannot advance as a science, especially a quantitative science, unless it moves its emphasis onto the directly quantifiable aspects of culture. Internalists countered with various arguments: that brain states will eventually be directly observable with advanced technology, that most cultural anthropologists agree that culture is about beliefs and not artefacts, or that artefacts cannot be replicators in the same sense as mental entities (or DNA) are replicators. The debate became so heated that a 1998 Symposium on Memetics, organised as part of the 15th International Conference on Cybernetics, passed a motion calling for an end to definitional debates.

The most advanced statement of the internalist school came in 2002 with the publication of The Electric Meme, by Robert Aunger, an anthropologist from the University of Cambridge. Aunger also organised a conference in Cambridge in 1999, at which prominent sociologists and anthropologists were able to give their assessment of the progress made in memetics to that date. This resulted in the publication of Darwinizing Culture: The Status of Memetics as a Science, edited by Aunger and with a foreward by Dennett, in 2000.

In 2005, Journal of Memetics - Evolutionary Models of Information Transmission ceased publication and published a set of 'obituaries' for memetics. This was not intended to suggest that there can be no further work on memetics, but that the exciting childhood of memetics, which began in 1996, is finally drawing to a close, and that memetics will have to survive or become extinct in terms of the results it can generate for the field of cultural evolution. Memetics as a social, Internet-fueled popular scientific movement is now probably over. Many of the original proponents have moved away from it. Richard Dawkins and Daniel Dennett have both expressed some reservations as to its applicability, Susan Blackmore has left the University of the West of England to become a freelance science writer and now concentrates more on the field of consciousness and cognitive science. Derek Gatherer found the academic world of the north of England to be unsympathetic to his ideas, and gave up to work as a computer programmer in the pharmaceutical industry, although he still publishes the odd memetics article from time to time. Richard Brodie is now climbing the world professional poker rankings. Aaron Lynch disowned the memetics community and the words "meme" and "memetics" (without disowning the ideas in his book).

Susan Blackmore (2002) re-stated the meme definition as whatever is copied from one person to another person, whether habits, skills, songs, stories, or any other kind of information. Further she said that memes, like genes, are replicators. That is, they are information that is copied with variation and selection. Because only some of the variants survive, memes (and hence human cultures) evolve. Memes are copied by imitation, teaching and other methods, and they compete for space in our memories and for the chance to be copied again. Large groups of memes that are copied and passed on together are called co-adapted meme complexes, or memeplexes. In her definition, thus, the way that a meme replicates is through imitation. This requires brain capacity to generally imitate a model or selectively imitate the model. Since the process of social learning varies from one person to another, the imitation process cannot be said to be completely imitated. The sameness of an idea may be expressed with different memes supporting it. This is to say that the mutation rate in memetic evolution is extremely high, and mutations are even possible within each and every interaction of the imitation process. It becomes very interesting when we see that a social system composed of a complex network of microinteractions exists, but at the macro level an order emerges to create culture.

Dawkins responds in A Devil's Chaplain that there are actually two different types of memetic processes. The first is a type of cultural idea, action, or expression, which does have high variance; for instance, a student of his who had inherited some of the mannerisms of Wittgenstein. However, he also describes a self-correcting meme, highly resistant to mutation. As an example of this, he gives origami patterns in elementary schoolsexcept in rare cases, the meme is either passed on in the exact sequence of instructions, or (in the case of a forgetful child) terminates. This type of meme tends not to evolve, and to experience profound mutations in the rare event that it does. Some memeticists, however, see this as more of a continuum of meme strength, rather than two types of memes.

Another definition, given by Hokky Situngkir, tried to offer a more rigorous formalism for the meme, memeplexes, and the deme, seeing the meme as a cultural unit in a cultural complex system. It is based on the Darwinian genetic algorithm with some modifications to account for the different patterns of evolution seen in genes and memes. In the method of memetics as the way to see culture as a complex adaptive system, he describes a way to see memetics as an alternative methodology of cultural evolution. However, there are as many possible definitions that are credited to the word "meme". For example, in the sense of computer simulation the term memetic programming is used to define a particular computational viewpoint.

Memetics can be simply understood as a method for scientific analysis of cultural evolution. However, proponents of memetics as described in the Journal of Memetics - Evolutionary Models of Information Transmission believe that 'memetics' has the potential to be an important and promising analysis of culture using the framework of evolutionary concepts. Keith Henson who wrote Memetics and the Modular-Mind (Analog Aug. 1987) [2] makes the case that memetics needs to incorporate Evolutionary psychology to understand the psychological traits of a meme's host. [3] This is especially true of time varying host traits, such as those leading to wars.

The application of memetics to a difficult complex social system problem, environmental sustainability, has recently been attempted at thwink.org. Using meme types and memetic infection in several stock and flow simulation models, Jack Harich has demonstrated several interesting phenomenon that are best, and perhaps only, explained by memes. One model, The Dueling Loops of the Political Powerplace, argues that the fundamental reason corruption is the norm in politics is due to an inherent structural advantage of one feedback loop pitted against another. Another model, The Memetic Evolution of Solutions to Difficult Problems, uses memes, the evolutionary algorithm, and the scientific method to show how complex solutions evolve over time and how that process can be improved. The insights gained from these models are being used to engineer memetic solution elements to the sustainability problem.

In Selfish Sounds and Linguistic Evolution (2004, Cambridge University Press), Austrian linguist Nikolaus Ritt has attempted to operationalise memetic concepts and use them for the explanation of long term sound changes and change conspiracies in early English. It is argued that a generalised Darwinian framework for handling cultural change can provide explanations where established, speaker centered approaches fail to do so. The book makes comparatively concrete suggestions about the possible material structure of memes, and provides two empirically rather rich case studies.

Memeoid is a neologism for people who have been taken over by a meme to the extent that that their own survival becomes inconsequential. Examples include kamikazes, suicide bombers and cult members who commit mass suicide. Compare with Zombie

The term was apparently coined by H. Keith Henson in "Memes, L5 and the Religion of the Space Colonies," L5 News, 1985 pp 5-8, [4] and referenced in Richard Dawkins' book The Selfish Gene, 2nd ed., page 330. ISBN 0-19-286092-5.

Memotype is the actual information-content of a meme.

A meme-complex (sometimes abbreviated memeplex, sometimes miss-pronounced/spelled Memoplex) is a collection or grouping of memes that have evolved into a mutually supportive or symbiotic relationship. Simply put, a meme-complex is a set of ideas that reinforce each other. Meme-complexes are roughly analogous to the symbiotic collection of individual genes that make up the genetic codes of biological organisms. An example of a Memeplex would be a religion.

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Row erupts as East London gallery accused of showing ‘alt-right’ and ‘racist’ art – Art Newspaper

LD50, an East London gallery that has come under fire for promoting fascism, says the cultural sphere has become the preserve of the Left and anyone who opposes this political viewpoint is now publicly vilified, delegitimated [sic] and intimidated with menaces. The statement, posted on the gallerys website on 21 February, comes amid calls for the space to be shut down over an exhibition and series of talks it hosted about the alt-right movement. Last summer, the Dalston-based gallery, which is run by Lucia Diego, held a neoreaction conference featuring speakers including Peter Brimelow, Brett Stevens and Iben Thranholm. Brimelow is known as an anti-immigration activist and author and is the president of the VDARE Foundation, a white nationalist organisation based in the US. Stevens edits a far-right website and has previously praised the racist mass murderer Anders Breivik, while Thranholm is a Danish journalist who writes about Christianity and theology and is an outspoken critic of European immigration policy. LD50 then organised an exhibition, titled Amerika, that included Pepe memes (Pepe the Frog is an online cartoon character that has been branded a hate symbol after racists depicted him as Adolf Hitler and a member of the Ku Klux Klan) and a cardboard cut-out of Donald Trump. The show prompted artists and campaigners to start the Tumblr blog, Shut Down LD50 Gallery, which says the gallery is using the cover of the contemporary art scene and academia to legitimise the spread of materials [that have drawn on fascist traditions] and the establishment of a culture of hatred. The blog says that LD50 has been responsible for one of the most extensive neo-Nazi cultural programmes to appear in London in the last decade. The gallery has posted all criticism on its website, including Tweets by artists denouncing its programme. LD50 has defended its programme, saying it has found itself in recent months increasingly interested in the political ruptures in the West: America and closely observed events there throughout the extraordinary and dramatic election cycle. The gallery says it presented a very liberal audience with a speaker who was knowledgeable in alt-right and NRx [neoreactionary] discourses to create a dialogue between two different and contrasting ideologies. Of its exhibition, LD50 says it explored some of the topics currently faced by our generation, including themes of memetics, the occult, male frustration, artificial intelligence [and] algorithms. The gallery maintains that the role of art is to provide a vehicle for the free exploration of ideas, even and perhaps especially where these are challenging, controversial or indeed distasteful. It continues: Art should have exemplified this willingness to discuss new ideas, but it has just become apparent to us that this sphere now (and perhaps for the last few years) stands precisely for the opposite of this.

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Row erupts as East London gallery accused of showing 'alt-right' and 'racist' art - Art Newspaper

Is America Prepared for Meme Warfare? – Motherboard

Memes, as any alt-right Pepe sorcerer will tell you, are not just frivolous entertainment. They are magic, the stuff by which reality is made and manipulated. What's perhaps surprising is that this view is not so far off from one within the US defense establishment, where a growing body of research explores how memes can be used to win wars.

This recent election proved that memes, some of which have been funded by politically motivated millionaires and foreign governments, can be potent weapons, but they pose a particular challenge to a superpower like the United States.

Memes appear to function like the IEDs of information warfare. They are natural tools of an insurgency; great for blowing things up, but likely to sabotage the desired effects when handled by the larger actor in an asymmetric conflict. Just think back to the NYPD's hashtag boondoggle for an example of how quickly things can go wrong when big institutions try to control messaging on the internet. That doesn't mean research should be abandoned or memes disposed of altogether, but as the NYPD case and other examples show, the establishment isn't really built for meme warfare.

For a number of reasons, memetics are likely to become more important in the new White House.

To understand this issue, we first have to define what a meme is because that is a subject of some controversy and confusion in its own right. We tend to think of memes from their popular use on the internet as iterative single panel illustrations with catchy tag lines, Pepe and Lolcats being two well known known examples of that type. But in its scientific and military usage a meme refers to something far broader. In his 2006 essay Evolutionary Psychology, Memes and the Origin of War, the American transhumanist writer Keith Henson defined memes as "replicating information patterns: ways to do things, learned elements of culture, beliefs or ideas."

Memetics, the study of meme theory and application, is a kind of grab bag of concepts and disciplines. It's part biology and neuroscience, part evolutionary psychology, part old fashioned propaganda, and part marketing campaign driven by the same thinking that goes into figuring out what makes a banner ad clickable. Though memetics currently exists somewhere between science, science fiction, and social science, some enthusiasts present it as a kind of hidden code that can be used to reprogram not only individual behaviors but entire societies.

For a number of reasons, memetics are likely to become more important in the new White House. Jeff Giesea is a former employee of tech giant and Trump donor Peter Thiel, and an influential organizer within the alt right who was prominently featured in recent profiles on the movement and its ties to the Trump administration. Giesea is also the author of an article published in an official NATO strategic journal in late 2015just as the Trump campaign was really building steamentitled "It's Time to Embrace Memetic Warfare."

"It's time to drive towards a more expansive view of Strategic Communications on the social media battlefield," Giesea said in his essay on the power of memes. "It's time to adopt a more aggressive, proactive, and agile mindset and approach. It's time to embrace memetic warfare."

Giesea was far from the first to suggest this. Some forward thinkers within the US military were interested in how memes might be used in warfare years before the killing and digital resurrection of Harambe dominated popular culture. Public records indicate that the military's interest in memes picked up after 2001, spurred by the wars against jihadist terrorist groups and the parallel "War of ideas" with Islamist ideology.

Despite the government research and interest inside the military for applying memes to war, it seemed to be insurgent groups that used them most effectively.

"Memetics: A Growth Industry in US Military operations" was published in 2005 by Michael B. Prosser, then a Major and now a Lieutenant Colonel in the Marine Corps. Written as an assignment for the Marine Corps' School of Advanced Warfighting, Prosser's paper includes a disclaimer clarifying that it represents only his own views and not those of the military or US government. In it, he lays out a vision for both weaponizing and diffusing memes, defined as "units of cultural transmission" and "bits of cultural information transmitted and replicated throughout populations and/or societies" in order to "understand and defeat an enemy ideology and win over the masses of undecided noncombatants."

Prosser's paper includes a detailed proposal for the development of a "Meme Warfare Center." The center's function is to "advise the Commander on meme generation, transmission, coupled with a detailed analysis on enemy, friendly and noncombatant populations." Headed by a senior civilian or military leader known as a "Meme Management Officer" or "Meme and Information Integration Advisor," Prosser writes, "the MWC is designed to advise the commander and provide the most relevant meme combat options within the ideological and nonlinear battle space."

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A year after the Meme Warfare Center proposal was published, DARPA, the Pentagon agency that develops new military technology, commissioned a four-year study of memetics. The research was led by Dr. Robert Finkelstein, founder of the Robotic Technology Institute, and an academic with a background in physics and cybernetics.

Finkelstein's study of "Military Memetics" centered on a basic problem in the field, determining "whether memetics can be established as a science with the ability to explain and predict phenomena." It still had to be proved, in other words, that memes were actual components of reality and not just a nifty concept with great marketing.

Finkelstein's work tries to bring memetics closer to hard science by providing a "meme definition for Military Memetics," that is "information which propagates, has impact, and persists (Info-PIP)." Classifying memes according to this definition, and separating them out from all the ideas that don't count as memes, he offers metrics like "persistence" to measure their effectiveness.

Despite the government research and interest inside the military for applying memes to war, it seemed to be insurgent groups that used them most effectively. During the early stages of ISIS' war in Iraq and Syria, for instance, the group used memes to captivate an international audience and broadcast its message both to enemies and potential recruits.

One of the first public applications of the research into memetics and social media propaganda was the State Department's 2013 "Think Again Turn Away" initiative. The campaign's attempts to counteract ISIS social media propaganda did not turn out well. The program, according to director of the SITE Intelligence Group Rita Katz, was "not only ineffective, but also provides jihadists with a stage to voice their arguments." Similar to how ISIS supporters hijacked the government's platform, a year later activists used the NYPD's own hashtag to highlight police abuse.

"Look at their fancy memes compared to what we're not doing," said Sen. Cory Booker to other members of the Homeland Security Committee during a 2015 hearing on "Jihad 2.0." Booker's assessment has become increasingly common but some critics question whether focusing on a "meme gap" is an effective way to combat groups like ISIS.

"I've never seen a military program in that area that was effective," John Robb, a former Air Force pilot involved in special operations and author of Brave New War: The Next Stage of Terrorism and the End of Globalization, told Motherboard. As he sees it, the US military will always be at a structural disadvantage when it comes to applying memetics in war because, "the most effective types of manipulation all yield disruption." According to Robb, "the broad manipulation of public sentiment is really not in [the military's] wheelhouse," and that is largely because, "all the power is in the hands of the people on the outside doing the disruption."

Meme wars seem to favor insurgencies because, by their nature, they weaken monopolies on narrative and empower challenges to centralized authority. A government could use memes to increase disorder within a system, but if the goal is to increase stability, it's the wrong tool for the job.

"Stuff like this is perennial," Robb said about the new interest in meme warfare. "Every couple of years a new program comes out, people spend money for a couple of years then it goes away. Then people forget about that failure and they do it again."

We've just witnessed a successful meme insurgency in America. Donald Trump's campaign was founded as an oppositional movementagainst the Republican establishment, Democrats, the media, and "political correctness." It used memes successfully precisely because, as an opposition, it benefited by increasing disorder. Every meme about "Sick Hillary," "cucks," or "draining the swamp" chipped away at the wall built around institutional authority.

Trump's win shocked the world, but if we all read alt-right power broker Jeff Giesea's paper about memetic warfare in 2015, we might have seen it coming.

"For many of us in the social media world, it seems obvious that more aggressive communication tactics and broader warfare through trolling and memes is a necessary, inexpensive, and easy way to help destroy the appeal and morale of our common enemies," he said.

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Is America Prepared for Meme Warfare? - Motherboard

The scientific controversy behind memes – Varsity Online

Bethan Clark investigates the surprising academics behind memeticsm the field behind the humble internet meme

Memes currently dominate Facebook homepages and Twitter feeds. Indeed, even before their relatively recent rise to ubiquity, they had a home on niche sites for sharing image macros, early meme flagships, and other more popular platforms such as Tumblr. Recently, the rise of Memebridge has already prompted discussion on the pervasiveness and influence of memes on social media.

An interesting point is often overlooked however. There is an oft-omitted fact about the origin of internet memes: that they are not what the term was originally intended to mean. Tracing back the evolution of the term is a gateway to the surprisingly controversial field of science that inspired memes as we know them.

It was Richard Dawkins who coined the term meme, proposing to define it as the cultural version of a gene in his well-known book, The Selfish Gene. Understanding human cultural evolution as being comparable to the biological evolution of species, this makes the meme a unit of culture, just as the gene is a unit of genetic inheritance.

Like genes existing in individuals cells and being passed down through generations, memes reside in individuals and can replicate themselves. Memes are hosted in the mind and reproduce by jumping between individuals when one influences another to adopt a belief. What makes the meme such a useful idea is the framework it provides to describe cultural evolution.

In the academic world, as well as across our Facebook feeds, the meme war rages on

What counts as a meme? Almost anything, according to Dawkins. His examples include tunes, ideas, catch-phrases, clothes fashions, ways of making pots or of building arches and even the idea of God. The spin-off that we are more familiar with nowadays, internet memes, is clearly a rather more limited category.

The internet meme as a concept was first suggested by Mike Godwin in Wired in June 1993 and 20 years later, Dawkins made clear their distinction from his original. This distinction lies in their distribution, altered deliberately by human creativity as opposed to random mutation and selection processes.

However, the original version of the meme is still discussed in academia. It led to the creation of a whole field, that of memetics, where memes are used as an approach to evolutionary models of cultural information transfer. Extending the analogy with genes, if the three conditions of variation, replication, and differential fitness are met, then meme evolution willnaturally occur, and with it, cultural evolution.

Memetics is simply the study of this process, applied to culture: the analysis of the spread of ideas based on their success instead of the more traditional concern for their truth. However, it is a hotly-contested field, full of internal warring as well as external attacks.

Criticism of meme theory comes from many angles, ranging from quibbles about terminology to queries of theresearch status of the meme. Its been labelled a pseudoscience by critics, with the concept of a meme being called into question at every stage. At the level of terminology, semiotic theorists claim the meme is a simplified version of the semiotic concept of the sign, and evolutionary biology Ernst Mayr declared it an unnecessary synonym for concept.

The usefulness of memetics has also been criticised. Mary Midgley, an English moral philosopher, argued that as culture is pattern-like, a reductionist approach is limited. Its an interesting parallel to emerging criticism about internet memes, though many would reject this as taking them too seriously.

Memebridge: dank memes or dark feelings?

Not even the application of memes within the field itself is free from quarrelling. Some memeticists see memes as a useful philosophical perspective to guide inquiry, whereas others focus on developing an empirical grounding for the field to be respected.

Not everyone is convinced this is possible, however. Midgley has highlighted the reliance of memetics on producing knowledge through metaphors, something she asserts is a questionable research approach. The use of metaphor, in this case the analogy between cultural phenomena and genes, can overlook effects that do not fit neatly into the comparison.

Memeticists defend their position, pointing to the ability of metaphors to reveal insights that would otherwise have been missed, but its a debate that is unlikely to be decisively concluded any time soon. The mirror criticism of the reliance of internet memes on relatability, and the corresponding alienation of individuals who do not identify with the subject of the memes, is currently just as unresolved.

It seems the criticism and confusion in the field of memetics is unlikely to abate any time soon. In the academic world, as well as across our Facebook feeds, the meme war rages on

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The scientific controversy behind memes - Varsity Online

Cognitive science: Dennett rides again – Nature.com

Daniel C. Dennett W. W. Norton: 2017. ISBN: 9780393242072

Buy this book: US UK Japan

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Cognitive scientist Daniel Dennett in 2013.

In Joel and Ethan Coen's 2009 film A Serious Man, physics professor Larry Gopnik is in the middle of an existential crisis. In a dream, he gives a lecture on Heisenberg's uncertainty principle; Sy Ableman, the older man with whom Gopnik's wife is having an affair, stays on after the students disperse. In a condescending drawl, he addresses Gopnik and his equation-covered chalkboard: I'll concede that it's subtle, clever but at the end of the day, is it convincing?

Philosopher and cognitive scientist Daniel Dennett has been hearing variants of this riposte for decades. If history is a guide, his latest book, From Bacteria to Bach and Back, will elicit similar responses. It is a supremely enjoyable, intoxicating work, tying together 50 years of thinking about where minds come from and how they work. Dennett's path from the origins of life to symphonies is long and winding, but you couldn't hope for a better guide. Walk with him and you'll learn a lot.

The book's backbone is Charles Darwin's theory of natural selection. That replaced the idea of top-down intelligent design with a mindless, mechanical, bottom-up process that guides organisms along evolutionary trajectories into ever more complex regions of design space. Dennett also draws heavily on the idea of 'competence without comprehension', best illustrated by mathematician Alan Turing's proof that a mechanical device could do anything computational. Natural selection has created, through genetic evolution, a world rich in competence without comprehension the bacteria, trees and termites that make up so much of Earth's biomass.

Yet, as Dennett and others argue, genetic evolution is not enough to explain the skills, power and versatility of the human mind. Over the past 10,000 years, human behaviour and our ability to manipulate the planet have changed too quickly for biological evolution to have been the driving force. In Dennett's view, our brains turned into fully fledged modern minds thanks to cultural memes: 'ways of behaving' pronouncing a word this way, dancing like so that can be copied, remembered and passed on.

Some memes are better than others at getting passed on. This drives natural selection, fashioning memetic design without a designer. The first memes, Dennett argues, were words, the lifeblood of cultural evolution, which act as virtual DNA for the richly cumulative cultural evolution that marks out our species. At first, he writes, words evolved to better fit the brains they had to colonize. Only later did brains start evolving genetically to better accommodate words, beginning a co-evolutionary process that turned us into voluble creatures.

More generally, Dennett sees memetic evolution as akin to how software has co-evolved with hardware. Memes are like apps that add a talent, a bit of know-how, slowly building up the repertoire of human competences and ever-greater degrees of comprehension. This, he avers, kicked off an incremental process that led to self-monitoring, reflection and the emergence of new things to think about: words and other memes.

Later, inventions from writing to clocks gave us memorable things to do things with. Step by small step, he argues, we moved away from bottom-up cultural evolution towards consciously directed, top-down explorations, giving birth to genuinely intelligent design. This has enabled us to wipe out smallpox, put people on the Moon and ask questions about our own minds.

Perhaps none are bigger than the problem of consciousness. Dennett reprises his long-held counter-intuitive idea that consciousness is a 'user illusion' similar to the interface of an app, through which people interact with the program without understanding how it works. Memetic apps in our brains, Dennett argues, create a 'user interface' that renders the memes 'visible' to the 'self', authoring both words and deeds.

Critics often quip that Dennett doesn't explain consciousness so much as explain it away, or duck the challenge entirely, and this chapter is unlikely to bring them around. When it comes to plugging the hole of subjective experience, sceptics are likely to see his solution as barely touching the sides. Dennett might well reply that a lack of imagination prevents them from seeing how his theory supports a version of consciousness devoid of over-inflation. For the philosophical background to these hard-to-swallow ideas, see Dennett's Consciousness Explained (Little, Brown, 1991).

Although From Bacteria to Bach and Back covers territory that Dennett has explored before, it is no mere rehash. Over the past couple of decades, many psychologists, linguists and philosophers have developed ideas that extend and deepen Dennett's contributions, and he draws on these in consolidating and refining his arguments.

Dennett has earned his reputation as one of today's most readable, intellectually nimble and scientifically literate philosophers, as this subtle, clever book shows. But at the end of the day, is it convincing? It's not an open-and-shut case, as he acknowledges. Many may find the earlier chapters more persuasive than the later ones, in which memetics shoulders so much weight and human consciousness looms large. Even scholars who embrace Dennett's account of how Darwinian processes fashion cultural design may stop short of hitching their wagon to his claims. But a virtue of his broad perspective is that it can tolerate disagreements over fine details while still hewing to the spirit of his vision.

Dennett's is not the only game in town, as he well knows, but it is immensely instructive and pleasurable to see this game played with such skill, verve and wit.

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Cognitive science: Dennett rides again - Nature.com

Thagomizer and Four Other Invented Words – Big Shiny Robot!

There are entire fields of study involving the investigation and understanding of language. Linguistics and philology suss out the origin, evolution, and usage of words in both historical and modern contexts. In most cases it is possible to take any given word, commonly accepted or newly adopted slang, and trace it back, sometimes thousands of years or more.

A study published in the Proceedings of the National Academy of Sciences in 2012 suggests a set of 23 words believed to date back in more or less their current form at least 15,000 years. However, sometimes words come out of nowhere, either necessitated by the emergence of some new thing in need of naming, the mashing up of existing words, or the brilliantly nonsensical minds of artists, writers, and entertainers.

It's fairly common knowledge that Shakespeare was responsible for the coining of many words in common use today. In fact, Shakespeare is credited with creating more than 1700 words through myriad techniques, mostly by modifying existing words in some way or mashing words together into a portmanteau (fun fact, 'portmanteau' in this context is itself an invented word, first used by Lewis Carroll inThrough the Looking-Glass).

Well, slithymeans lithe and slimy. Lithe is the same as active. You see it's like a portmanteau, there are two meanings packed up into one word. -Humpty Dumpty, explaining Jabberwocky

It might be a reasonable supposition that in the world of language there is nothing new under the sun. If a word is needed, surely it has been coined by now, right? Not so. This business of inventing new words is still going strong and we're not just talking about the constantly evolving slang of modern youth. So buckle up fam cause this sh*t is lit(erary).

Thagomizer

Raise your hand if you like dinosaurs. Now, raise your other hand and give yourself a high-five because dinosaurs rule. Any branch of scientific inquiry that causes toddlers the world over to learn the official taxonomic names of things is objectively rad. If you're like me, it's been at least twenty years (maybe more, but don't ask, it's rude) since you learned the names of all your favorite dinos but you still remember them, don't you? You've got your T-Rex, Raptors, Triceratops, Stegosaurus... but answer me this, what do you call the group of spikes at the end of a Stego's tail? If you don't know, then bask in the awesomeness of my superior intellect you ignorant toddler. If you do know, congratulations on reading the heading of this paragraph. You've mastered the art of foreshadowing and reading comprehension.

While evolution has brought us 'endless forms most beautiful and most wonderful' (and at least a few most horrible and most why-do-you-exist-ible, seriously check out this nasty bugger) it isn't great at breaking the mold. Most things, human beings included, are just remixes of familiar old biological tunes. As such, there aren't many opportunities for paleontologists to name new stuff. Which makes it all the more shocking that nobody thought to give that bunch of spikes at the end of a Stego's tail a cool name. That is, until 1982 when Gary Larsen came along and slapped his name on those bad boys.

One year later, the term was picked up by Paleontologist Ken Carpenter who used it to describe a fossil at the annual meeting of the Society of Vertebrate Paleontology and the rest, as they say, is pre-history. While the term is informal, it has been adopted by a little museum called the Smithsonian (among others). You may have heard of it. And thus, Gary Larsen entered the hallowed halls of taxonomic legend, just like the late-great Thag Simmons.

Nerd

If you're a regular visitor to Big Shiny Robot you're already familiar with this word, you probably hear it in your dreams before you wake in a cold sweat and thank whatever god keeps you from existential terror that high school is over. You may also be familiar with this word if you're a human being living in the twenty-first century. What you may not know is where the word originated.

It wasn't always a slur thrown at all the most interesting people I know or the the name of a criminally underrated crunchy candy. Once upon a time it was just some nonsense thrust from the magical mind of one Theodore Geisel, you may know him by his pseudonym, Dr. Seuss.

In his bookIf I Ran the Zoo,Seuss invented a slew of characters and creatures as he was wont to do. Among them, was the noble nerd, clad in a black t-shirt, hair disheveled, and red in the face. It's not difficult to understand why the term took root, what is a mystery is why none of the other invented words that share the page with the noble nerd enjoyed similar legacies.

Perhaps it's one of those bizarre cultural memes we'll never fully understand. Speaking of memes...

Meme

Memes are like pop songs. First you don't get what all the commotion is about, then you jump on the train, then they get beaten into you until you feel irrational anger whenever you encounter it. Seriously, the next person I hear say 'Howbow Dah' is going to have to Cash me Ousside.

But before they were image macros crowding up your social media feeds, 'meme' was coined by Richard Dawkins as a way to describe ideas or behaviors that spread from person to person within a culture. You probably know Dawkins for his outspoken and unabashed atheism, he shows up anytime Ken Ham or Kirk Cameron badly photoshop a duck's head on a crocodile or build a creation museum. But Dawkins is actually a renowned evolutionary biologist, before he was the poster boy for the non-religious he wrote a book calledThe Selfish Genewhich explores the propagation of genes, expanding on natural selection.

In the book, Dawkins explains how ideas and behaviors can spread through a society in the same way that genetic mutations can spread through a species. This idea wasn't new to Dawkins, it was discussed during Darwin's time. T.H. Huxley, a contemporary of Darwin's described this phenomenon thusly:'The struggle for existence holds as much in the intellectual as in the physical world. A theory is a species of thinking, and its right to exist is coextensive with its power of resisting extinction by its rivals.'

Dawkins based the term on a shortened version of the word mimeme, Greek for 'imitated thing.' While memes in their current form have existed as long as the internet, and the term and study (memetics) of them has existed since shortly after Dawkin's writing, memes themselves have existed probably as long as human beings have been sharing ideas.

Those of you who remember a time before the internet, probably remember seeing 'Frodo Lives' emblazoned on buttons, stickers, and bathroom walls next to phone numbers promising good times. There was also that pointy S that every kid has drawn in school since no one knows when. Perhaps the oldest known meme is the Sator Square, a two dimensional palendrome that can be read from any side and translates roughly to 'the farmer works a plow.' It's good to know that modern culture doesn't have a monopoly on nonsense memes. Howbow dah.

Robot (Robotnik)

I would be remiss if this invented word list didn't include the word that makes the crux of our namesake. While we're still waiting impatiently for robot butlers, robot best friends, and robot uprisings, robots have cemented themselves as a part of our world. You can get a robot alarm clock, a robot vacuum, even a robot that will fold your laundry (finally).

Robots are so ubiquitous it's surprising that the concept of a robot is so new, relatively speaking. The term first appeared in a play by Czech playwriteKarel apek titledR.U.R. (Rossums Universal Robots)about a factory that makes artificial people void of emotion but capable of doing all of the work human beings didn't want to do.

In the play, the robots eventually rise up and overthrow the human beings who have become so lazy they can no longer sustain themselves without the help of their artificial slaves.apek needed to invent a name for his creations, originally opting for Labori but later abandoning it. It was his brother Josef who suggested using robot (or robotnik in Czech) which means 'forced worker.'

Given the landscape of the time with the rise of communism and fascism,apek's play can easily be seen for what it most certainly was, a thinly veiled allegory about the greed of the upper class at the expense of the lower. The end of the play, with their masters overthrown and the world built anew by the robots, is a clear message to the world leaders of the time. Which is probably whyapek was on Hitler's short list, right up until 1938 when he died of the flu.

Later Isaac Asimov coined the term 'robotics,' a derivation ofapek's creation with his Three Laws of Robotics. These laws define the limitations of a robot in preserving its own existence as well as the safety of the human beings around it. Though, anyone who has read Asimov's work knows those laws rarely hold as steady as one would hope.

So you might want to think twice the next time you kick your Roomba across the room for smearing dog crap across the carpet.

Gremlin

The concept of mythical creatures causing trouble and making mischief for their human counterparts is nothing new to folklore. Stories of trolls and gnomes date back to antiquity and have roots in various mythologies the world over. However, Gremlins are relatively new to the scene. The word is thought to be a mashup of 'goblin' and the Old English 'gremman' which means to anger or vex.

Gremlins date back to Royal Air Force pilots circa World War I, who blamed small, nefarious creatures for the failures of aircraft. While in some circles these stories may have been thinly veiled attempts to blame aircraft failures on something mystical rather than on fellow soldiers, there were pilots who maintained they had in fact seen creatures chewing on wires and otherwise sabotaging planes on the ground and in the air.

Gremlins first appeared in printin a poem published in the journalAeroplaneon 10 April 1929. Author Roald Dahl is credited with popularizing Gremlins and introducing them to the world at large. Dahl himself was an RAF pilot, so he would have been familiar with the stories. He experienced his own accidental crash landing, however this was due to an inability to see the landing strip before running out of fuel, not the machinations of ill-tempered sprites.

Dah's first children's book was titledThe Gremlinswhich he wrote for Walt Disney Productions. The story was meant to be made into an animated feature. Characters were designed but the project was scrapped before completion. While the Disney film never saw the light of day, Dahl's creatures did eventually make it to the big and small screens.

TheTwilight ZoneepisodeNightmare at 20,000 Feetspecifically tells the tale of a gremlin sabotaging an aircraft, a direct reference to the stories of wartime RAF pilots. Steven Spielberg's 1984 filmGremlinsbears the name of the creatures, while the production publicly distanced itself from the previous, abandoned iteration, there's no arguing that the movie never would have happened without Dahl's earlier publication.

It turns out, even after all this time, language is still evolving. Maybe don't give the kids in your life too much hassle when they say things that sound ridiculous, they may just be ahead of their time.

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Thagomizer and Four Other Invented Words - Big Shiny Robot!

Meme RationalWiki

A meme is an idea or behavior that spreads from person to person within a society. The term was coined by Richard Dawkins in his book The Selfish Gene in 1976.[1] Dawkins proposed the idea that social information could change and propagate through a culture in a way similar to genetic changes in a population of organisms - i.e., evolution by natural selection. Sticking with its roots in genetics and evolution, the term is derived from the word gene, which is a unit of hereditary biological information made of DNA. Compared to a gene, which has a physical existence within a cell nucleus, a meme is far more abstract and this has led to accusations that memetics isn't really hard science.

The idea was subsequently developed to include political philosophies and religions, which were named memeplexes, because they contain vast numbers of interacting memes. Memes that interact favourably will form strong memeplexes, while memeplexes will resist incompatible memes. A political memeplex valuing authority of thought would be incompatible with memes valuing individuality of thought, for example. This goes some way to explaining the polarisation of thought on the political spectrum.

Like genes, memes may be useful, negative or neutral. For example, political philosophies - or indeed any philosophy including the philosophies of science - are also memes or memeplexes.

Religious mythology is part of the memeplex of religion, as would be the idea that one needs religion. In the same way that Dawkins' "selfish genes" would propagate through populations for their own benefit and not for the benefit of the organisms that carry them, memeplexes propagate through society irrespective of their value to the society. Enduring negative memeplexes are sometimes called "mind viruses"; with atheist proponents of memetics (e.g. Dawkins himself) citing Christian fundamentalism as one such example.

The internet has been a source for the creation and propagation of many new memes the majority of which are snowclones[wp] on image macros. On the internet an idea can be developed and quickly acquire modifications from users around the world, such that the root idea becomes the basis for multiple spin-off ideas, subsets of ideas, and other similar iterations. In this sense, a "meme" evolves, taking on a life of its own through the contributions of users of varied cultural backgrounds. Furthermore as large parts of the Internet are durable there is a permanent record of how the memes changed and developed.

Most memes are humorous in nature. "All Your Base Are Belong to Us" was an early internet meme, and "lolcats" is a popular emergent meme. Other memes focus on potential dangers, such as cell phones causing fires at gas pumps. Memes quickly lose their humor value weeks after being created, even days. (see: reddit, 4chan)

A "scientific" study of memetics was attempted with the establishment of the Journal of Memetics, which lasted from 1997-2005.[2] While memetics has gained a few boosters in fields that study culture such as social psychology, sociology, and anthropology, it has largely been ignored as a methodological approach or met with harsh criticism. In the final issue of the Journal of Memetics, Bruce Edmonds argued that memetics had "failed to produce substantive results," writing "I claim that the underlying reason memetics has failed is that it has not provided any extra explanatory or predictive power beyond that available without the gene-meme analogy."[3]

A common criticism of memetics is that the meme is a more primitive version of the concept of "sign" in semiotics repackaged in biological and evolutionary language.[4][5] Luis Benitez-Bribiesca has criticized memetics for lacking a well-formed definition of "meme" and argued that the high rate of "mutation" as proposed by the memeticists would lead to a "chaotic disintegration" of culture rather than a progressive evolution. (Not to mention denouncing it as a "pseudoscientific dogma.")[6] Benitez-Bribiesca's criticisms concerning fidelity and the ill-defined nature of memes feature in many other critiques of memetics as well. Dawkins argues that the fidelity is high enough for memetic copying to work in accordance with evolutionary processes.[7] Dan Sperber and Scott Atran reply that high fidelity copying is the exception and not the rule in cultural transmission.[8][9] Another problem concerning fidelity is the reconstructive nature of memory. Because memory does not store an exact copy of information, we can expect fidelity to decrease both in the process of "copying" or imitating memes from person-to-person and in the process of each individual recalling memes from memory. Atran also notes that memetics attempts to (and fails to) circumvent the evolved cognitive architecture of the mind. Robert Boyd and Peter J. Richerson claim that population thinking is more important than a model of genetic inheritance as an evolutionary analogy to cultural evolution.[10]

The issue of the definition of meme features in most of the above criticisms as well. What is, or is not, a meme? Does the meme "carve nature at its joints"? We know, for example, that computer viruses can follow genetic and evolutionary algorithms.[11] But how far can this application be extended into the cultural realm? Mesoudi, Whiten, and Laland argue that advances in modern genetics have chipped away at the definition of the "gene" as a discrete unit and so the same criticism might be applied to genetics, but it is still a useful field. However, they also note some of the successes of non-memetic cultural evolutionary models such as Boyd and Richerson's population thinking approach in classifying archaeological artifacts.[12] Jeremy Burman claims that the meme was just a metaphor that got taken seriously and reified by a few too many people.[13] Many of the criticisms listed above, however, assert that whether the "meme" itself can be found or said to "exist" is irrelevant to its usefulness as it fails to provide a useful framework or systematic set of falsifiable predictions due to the circularity in the definition of fitness. (How do we know which memes are the most fit? The ones that spread the most are the fittest. And which memes spread the most? The ones that are the fittest, of course!)

Memetics has only a passing resemblance to genetics. In genetics, there is a clear separation between genes, genotypes, and phenotypes. That a gene is a proxy code for the phenotype, and the phenotype is what experiences selection pressure, not the gene. This is what allows natural selection to take place based on random mutation and inheritance of the code. A "meme", however, is a jumble of the three concepts - it acts as a gene but is also its own phenotype. Without this distinction, the evolution of memes is more Lamarckian than Darwinian. This should come as little surprise to those who consider that memes are the result of Dawkins proposing an rough allegory of genetics, rather than a serious science. To underscore the features of genetics that involve passing on information, a fairly legitimate comparison to how humans share and adapt ideas can be made. However, the similarities end there.

In fact, as an object of study, folklore comes closest to the subject proposed by the notion of memes. (For the idea of the "meme" as it has developed popularly, "folklore" is just the original name.) Folklorists have always paid attention to the ways that folk culture, arts, and traditions are handed down from one person to another and from one generation to the next. They hit upon the concept of the folk process: the way in which folklore is preserved, edited, and amended in the process of its transmission, a process that keeps the folk culture relevant and useful as it is transmitted.

The folklorists blinkered themselves early on by their insistence on exclusively oral transmission and arbitrary esthetic preferences for the "authentic". It wasn't until the 1970s and afterwards that folklorists realized that folklore was also being created by popular interactions with and responses to mass culture. The folklorists also learned to unsee the sharp distinction between the oral, handmade, and "authentic" versus published and mass-produced cultural artifacts. Technology was turning this into a continuum. Folklore could be spread by self-published broadsheets, by photocopier and fax machine, by email, and on the Internet. (Just like some folks took a while to figure out that folk music could be played on electric guitars.)

When the subject matter of folklore is expanded this way, it would appear in some ways to swallow the idea of the meme. At minimum, folklore offers an alternative vocabulary to discuss the preservation, alteration, and expansion of cultural ideas in the process of their transmission, one that does not need biological metaphors.

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Meme RationalWiki