Evolution is a scientific theory used by biologists. It explains how living things change over a long time, and how they have come to be the way they are.[1]
The Earth has been around for a very long time.[2][3] By doing research on the layers of rock, we can find out about its past. That kind of research is called historical geology.
We know that living things have changed over time, because we can see their remains in the rocks. These remains are called 'fossils'. So we know that the animals and plants of today are different from those of long ago. And the further we go back, the more different the fossils are.[4] How has this come about? Evolution has taken place. That evolution has taken place is a fact, because it is overwhelmingly supported by many lines of evidence.[5][6][7] At the same time, evolutionary questions are still being actively researched by biologists.
Comparison of DNA sequences allows organisms to be grouped by how similar their sequences are. In 2010 an analysis compared sequences to phylogenetic trees, and supported the idea of common descent. There is now "strong quantitative support, by a formal test",[8] for the unity of life.[9]
The theory of evolution is the basis of modern biology. "Nothing in biology makes sense except in the light of evolution".[10]
The evidence for evolution is given in a number of books.[11][12][13][14] Some of this evidence is discussed here.
The realization that some rocks contain fossils was a landmark in natural history. There are three parts to this story:
The most convincing evidence for the occurrence of evolution is the discovery of extinct organisms in older geological strata... The older the strata are...the more different the fossil will be from living representatives... that is to be expected if the fauna and flora of the earlier strata had gradually evolved into their descendants.
Ernst Mayr [1]p13
The evolution of the horse family (Equidae) is a good example of the way that evolution works. The oldest fossil of a horse is about 52 million years old. It was a small animal with five toes on the front feet and four on the hind feet. At that time, there were more forests in the world than today. This horse lived in woodland, eating leaves, nuts and fruit with its simple teeth. It was only about as big as a fox.[19]
About 30 million years ago the world started to become cooler and drier. Forests shrank; grassland expanded, and horses changed. They ate grass, they grew larger, and they ran faster because they had to escape faster predators. Because grass wears teeth out, horses with longer-lasting teeth had an advantage.
For most of this long period of time, there were a number of horse types (genera). Now, however, only one genus exists: the modern horse, Equus. It has teeth which grow all its life, hooves on single toes, great long legs for running, and the animal is big and strong enough to survive in the open plain.[19] Horses lived in western Canada until 12,000 years ago,[20] but all horses in North America became extinct about 11,000 years ago. The causes of this extinction are not yet clear. Climate change and over-hunting by humans are suggested.
So, scientists can see that changes have happened. They have happened slowly over a long time. How these changes have come about is explained by the theory of evolution.
This is a topic which fascinated both Charles Darwin and Alfred Russel Wallace.[21][22][23] When new species occur, usually by the splitting of older species, this takes place in one place in the world. Once it is established, a new species may spread to some places and not others.
Australasia has been separated from other continents for many millions of years. In the main part of the continent, Australia, 83% of mammals, 89% of reptiles, 90% of fish and insects and 93% of amphibians are endemic.[24] Its native mammals are mostly marsupials like kangaroos, bandicoots, and quolls.[25] By contrast, marsupials are today totally absent from Africa and form a small portion of the mammalian fauna of South America, where opossums, shrew opossums, and the monito del monte occur (see the Great American Interchange).
The only living representatives of primitive egg-laying mammals (monotremes) are the echidnas and the platypus. They are only found in Australasia, which includes Tasmania, New Guinea, and Kangaroo Island. These monotremes are totally absent in the rest of the world.[26] On the other hand, Australia is missing many groups of placental mammals that are common on other continents (carnivora, artiodactyls, shrews, squirrels, lagomorphs), although it does have indigenous bats and rodents, which arrived later.[27]
The evolutionary story is that placental mammals evolved in Eurasia, and wiped out the marsupials and monotremes wherever they spread. They did not reach Australasia until more recently. That is the simple reason why Australia has most of the world's marsupials and all the world's monotremes.
In about 6,500sqmi (17,000km2), the Hawaiian Islands have the most diverse collection of Drosophila flies in the world, living from rainforests to mountain meadows. About 800 Hawaiian drosophilid species are known.
Genetic evidence shows that all the native drosophilid species in Hawaii have descended from a single ancestral species that colonized the islands, about 20 million years ago. The subsequent adaptive radiation was spurred by a lack of competition and a wide variety of vacant niches. Although it would be possible for a single pregnant female to colonise an island, it is more likely to have been a group from the same species.[28][29][30][31]
The combination of continental drift and evolution can explain what is found in the fossil record. Glossopteris is an extinct species of seed fern plants from the Permian period on the ancient supercontinent of Gondwana.[32]
Glossopteris fossils are found in Permian strata in southeast South America, southeast Africa, all of Madagascar, northern India, all of Australia, all of New Zealand, and scattered on the southern and northern edges of Antarctica.
During the Permian, these continents were connected as Gondwana. This is known from magnetic striping in the rocks, other fossil distributions, and glacial scratches pointing away from the temperate climate of the South Pole during the Permian.[13]p103[33]
When biologists look at living things, they see that animals and plants belong to groups which have something in common. Charles Darwin explained that this followed naturally if "we admit the common parentage of allied forms, together with their modification through variation and natural selection".[21]p402[11]p456
For example, all insects are related. They share a basic body plan, whose development is controlled by master regulatory genes.[34] They have six legs; they have hard parts on the outside of the body (an exoskeleton); they have eyes formed of many separate chambers, and so on. Biologists explain this with evolution. All insects are the descendants of a group of animals who lived a long time ago. They still keep the basic plan (six legs and so on) but the details change. They look different now because they changed in different ways: this is evolution.[35]
It was Darwin who first suggested that all life on Earth had a single origin, and from that beginning "endless forms most beautiful and most wonderful have been, and are being, evolved".[11]p490[21] Evidence from molecular biology in recent years has supported the idea that all life is related by common descent.[36]
Strong evidence for common descent comes from vestigial structures.[21]p397 The useless wings of flightless beetles are sealed under fused wing covers. This can be simply explained by their descent from ancestral beetles which had wings that worked.[14]p49
Rudimentary body parts, those that are smaller and simpler in structure than corresponding parts in ancestral species, are called vestigial organs. Those organs are functional in the ancestral species but are now either nonfunctional or re-adapted to a new function. Examples are the pelvic girdles of whales, halteres (hind wings) of flies, wings of flightless birds, and the leaves of some xerophytes (e.g. cactus) and parasitic plants (e.g. dodder).
However, vestigial structures may have their original function replaced with another. For example, the halteres in flies help balance the insect while in flight, and the wings of ostriches are used in mating rituals, and in aggressive display. The ear ossicles in mammals are former bones of the lower jaw.
In 1893, Robert Wiedersheim published a book on human anatomy and its relevance to man's evolutionary history. This book contained a list of 86 human organs that he considered vestigial.[37] This list included examples such as the appendix and the 3rd molar teeth (wisdom teeth).
The strong grip of a baby is another example.[38] It is a vestigial reflex, a remnant of the past when pre-human babies clung to their mothers' hair as the mothers swung through the trees. This is borne out by the babies' feet, which curl up when it is sitting down (primate babies grip with the feet as well). All primates except modern man have thick body hair to which an infant can cling, unlike modern humans. The grasp reflex allows the mother to escape danger by climbing a tree using both hands and feet.[13][39]
Vestigial organs often have some selection against them. The original organs took resources, sometimes huge resources. If they no longer have a function, reducing their size improves fitness. And there is direct evidence of selection. Some cave crustacea reproduce more successfully with smaller eyes than do those with larger eyes. This may be because the nervous tissue dealing with sight now becomes available to handle other sensory input.[40]p310
From the eighteenth century it was known that embryos of different species were much more similar than the adults. In particular, some parts of embryos reflect their evolutionary past. For example, the embryos of land vertebrates develop gill slits like fish embryos. Of course, this is only a temporary stage, which gives rise to many structures in the neck of reptiles, birds and mammals. The proto-gill slits are part of a complicated system of development: that is why they persisted.[34]
Another example are the embryonic teeth of baleen whales.[41] They are later lost. The baleen filter is developed from different tissue, called keratin. Early fossil baleen whales did actually have teeth as well as the baleen.[42]
A good example is the barnacle. It took many centuries before natural historians discovered that barnacles were crustacea. Their adults look so unlike other crustacea, but their larvae are very similar to those of other crustacea.[43]
Charles Darwin lived in a world where animal husbandry and domesticated crops were vitally important. In both cases farmers selected for breeding individuals with special properties, and prevented the breeding of individuals with less desirable characteristics. The eighteenth and early nineteenth century saw a growth in scientific agriculture, and artificial breeding was part of this.
Darwin discussed artificial selection as a model for natural selection in the 1859 first edition of his work On the Origin of Species, in Chapter IV: Natural selection:
Nikolai Vavilov showed that rye, originally a weed, came to be a crop plant by unintentional selection. Rye is a tougher plant than wheat: it survives in harsher conditions. Having become a crop like the wheat, rye was able to become a crop plant in harsh areas, such as hills and mountains.[45][46]
There is no real difference in the genetic processes underlying artificial and natural selection, and the concept of artificial selection was used by Charles Darwin as an illustration of the wider process of natural selection. There are practical differences. Experimental studies of artificial selection show that "the rate of evolution in selection experiments is at least two orders of magnitude (that is 100 times) greater than any rate seen in nature or the fossil record".[47]p157
Some have thought that artificial selection could not produce new species. It now seems that it can.
New species have been created by domesticated animal husbandry, but the details are not known or not clear. For example, domestic sheep were created by hybridisation, and no longer produce viable offspring with Ovis orientalis, one species from which they are descended.[48] Domestic cattle, on the other hand, can be considered the same species as several varieties of wild ox, gaur, yak, etc., as they readily produce fertile offspring with them.[49]
The best-documented new species came from laboratory experiments in the late 1980s. William Rice and G.W. Salt bred fruit flies, Drosophila melanogaster, using a maze with three different choices of habitat such as light/dark and wet/dry. Each generation was put into the maze, and the groups of flies that came out of two of the eight exits were set apart to breed with each other in their respective groups.
After thirty-five generations, the two groups and their offspring were isolated reproductively because of their strong habitat preferences: they mated only within the areas they preferred, and so did not mate with flies that preferred the other areas.[50][51]
Diane Dodd was also able to show how reproductive isolation can develop from mating preferences in Drosophila pseudoobscura fruit flies after only eight generations using different food types, starch and maltose.[52]
Dodd's experiment has been easy for others to repeat. It has also been done with other fruit flies and foods.[53]
Some biologists say that evolution has happened when a trait that is caused by genetics becomes more or less common in a group of organisms.[54] Others call it evolution when new species appear.
Changes can happen quickly in the smaller, simpler organisms. For example, many bacteria that cause disease can no longer be killed with some of the antibiotic medicines. These medicines have only been in use about eighty years, and at first worked extremely well. The bacteria have evolved so that they are no longer affected by antibiotics anymore.[55] The drugs killed off all the bacteria except a few which had some resistance. These few resistant bacteria produced the next generation.
The Colorado beetle is famous for its ability to resist pesticides. Over the last 50 years it has become resistant to 52 chemical compounds used in insecticides, including cyanide.[56] This is natural selection speeded up by the artificial conditions. However, not every population is resistant to every chemical.[57] The populations only become resistant to chemicals used in their area.
Although there were a number of natural historians in the 18th century who had some idea of evolution, the first well-formed ideas came in the 19th century. Three biologists are most important.
Jean-Baptiste de Lamarck (17441829), a French biologist, claimed that animals changed according to natural laws. He said that animals could pass on traits they had acquired during their lifetime to their offspring, using inheritance. Today, his theory is known as Lamarckism. Its main purpose is to explain adaptations by natural means.[58] He proposed a tendency for organisms to become more complex, moving up a ladder of progress, plus use and disuse.
Lamarck's idea was that a giraffe's neck grew longer because it tried to reach higher up. This idea failed because it cannot be reconciled with heredity (Mendel's work). Mendel made his discoveries about half a century after Lamarck's work.
Charles Darwin (18091882) wrote his On the Origin of Species in 1859. In this book, he put forward much evidence that evolution had occurred. He also proposed natural selection as the way evolution had taken place. But Darwin did not understand about genetics and how traits were actually passed on. He could not accurately explain what made children look like their parents.
Nevertheless, Darwin's explanation of evolution was fundamentally correct. In contrast to Lamarck, Darwin's idea was that the giraffe's neck became longer because those with longer necks survived better.[21]p177/8 These survivors passed their genes on, and in time the whole race got longer necks.
An Austrian monk called Gregor Mendel (18221884) bred plants. In the mid-19th century, he discovered how traits were passed on from one generation to the next.
He used peas for his experiments: some peas have white flowers and others have red ones. Some peas have green seeds and others have yellow seeds. Mendel used artificial pollination to breed the peas. His results are discussed further in Mendelian inheritance. Darwin thought that the inheritance from both parents blended together. Mendel proved that the genes from the two parents stay separate, and may be passed on unchanged to later generations.
Mendel published his results in a journal that was not well-known, and his discoveries were overlooked. Around 1900, his work was rediscovered.[59][60]Genes are bits of information made of DNA which work like a set of instructions. A set of genes are in every living cell. Together, genes organise the way an egg develops into an adult. With mammals, and many other living things, a copy of each gene comes from the father and another copy from the mother. Some living organisms, including some plants, only have one parent, so get all their genes from them. These genes produce the genetic differences which evolution acts on.
Darwin's On the Origin of Species has two themes: the evidence for evolution, and his ideas on how evolution took place. This section deals with the second issue.
The first two chapters of the Origin deal with variation in domesticated plants and animals, and variation in nature.
All living things show variation. Every population which has been studied shows that animal and plants vary as much as humans do.[61][62]p90 This is a great fact of nature, and without it evolution would not occur. Darwin said that, just as man selects what he wants in his farm animals, so in nature the variations allow natural selection to work.[63]
The features of an individual are influenced by two things, heredity and environment. First, development is controlled by genes inherited from the parents. Second, living brings its own influences. Some things are entirely inherited, others partly, and some not inherited at all.
The colour of eyes is entirely inherited; they are a genetic trait. Height or weight is only partly inherited, and the language is not at all inherited. Just to be clear: the fact that humans can speak is inherited, but what language is spoken depends on where a person lives and what they are taught. Another example: a person inherits a brain of somewhat variable capacity. What happens after birth depends on many things such as home environment, education and other experiences. When a person is adult, their brain is what their inheritance and life experience have made it.
Evolution only concerns the traits which can be inherited, wholly or partly. The hereditary traits are passed on from one generation to the next through the genes. A person's genes contain all the traits which they inherit from their parents. The accidents of life are not passed on. Also, of course, each person lives a somewhat different life: that increases the differences.
Organisms in any population vary in reproductive success.[64]p81 From the point of view of evolution, 'reproductive success' means the total number of offspring which live to breed and leave offspring themselves.
Variation can only affect future generations if it is inherited. Because of the work of Gregor Mendel, we know that much variation is inherited. Mendel's 'factors' are now called genes. Research has shown that almost every individual in a sexually reproducing species is genetically unique.[65]p204
Genetic variation is increased by gene mutations. DNA does not always reproduce exactly. Rare changes occur, and these changes can be inherited. Many changes in DNA cause faults; some are neutral or even advantageous. This gives rise to genetic variation, which is the seed-corn of evolution. Sexual reproduction, by the crossing over of chromosomes during meiosis, spreads variation through the population. Other events, like natural selection and drift, reduce variation. So a population in the wild always has variation, but the details are always changing.[62]p90
Evolution mainly works by natural selection. What does this mean? Animals and plants which are best suited to their environment will, on average, survive better. There is a struggle for existence. Those who survive will produce the next generation. Their genes will be passed on, and the genes of those who did not reproduce will not. This is the basic mechanism which changes a population and causes evolution.
Natural selection explains why living organisms change over time to have the anatomy, the functions and behaviour that they have. It works like this:
There are now many cases where natural selection has been proved to occur in wild populations.[5][67][68] Almost every case investigated of camouflage, mimicry and polymorphism has shown strong effects of selection.[69]
The force of selection can be much stronger than was thought by the early population geneticists. The resistance to pesticides has grown quickly. Resistance to warfarin in Norway rats (Rattus norvegicus) grew rapidly because those that survived made up more and more of the population. Research showed that, in the absence of warfarin, the resistant homozygote was at a 54% disadvantage to the normal wild type homozygote.[62]p182[70] This great disadvantage was quickly overcome by the selection for warfarin resistance.
Mammals normally cannot drink milk as adults, but humans are an exception. Milk is digested by the enzyme lactase, which switches off as mammals stop taking milk from their mothers. The human ability to drink milk during adult life is supported by a lactase mutation which prevents this switch-off. Human populations have a high proportion of this mutation wherever milk is important in the diet. The spread of this 'milk tolerance' is promoted by natural selection, because it helps people survive where milk is available. Genetic studies suggest that the oldest mutations causing lactase persistence only reached high levels in human populations in the last ten thousand years.[71][72] Therefore, lactase persistence is often cited as an example of recent human evolution.[73][74] As lactase persistence is genetic, but animal husbandry a cultural trait, this is geneculture coevolution.[75]
Adaptation is one of the basic phenomena of biology.[76] Through the process of adaptation, an organism becomes better suited to its habitat.[77]
Adaptation is one of the two main processes that explain the diverse species we see in biology. The other is speciation (species-splitting or cladogenesis).[78][79] A favourite example used today to study the interplay of adaptation and speciation is the evolution of cichlid fish in African rivers and lakes.[80][81]
When people speak about adaptation they often mean something which helps an animal or plant survive. One of the most widespread adaptations in animals is the evolution of the eye. Another example is the adaptation of horses' teeth to grinding grass. Camouflage is another adaptation; so is mimicry. The better adapted animals are the most likely to survive, and to reproduce successfully (natural selection).
An internal parasite (such as a fluke) is a good example: it has a very simple bodily structure, but still the organism is highly adapted to its particular environment. From this we see that adaptation is not just a matter of visible traits: in such parasites critical adaptations take place in the life cycle, which is often quite complex.[82]
Not all features of an organism are adaptations.[62]p251 Adaptations tend to reflect the past life of a species. If a species has recently changed its life style, a once valuable adaptation may become useless, and eventually become a dwindling vestige.
Adaptations are never perfect. There are always tradeoffs between the various functions and structures in a body. It is the organism as a whole which lives and reproduces, therefore it is the complete set of adaptations which gets passed on to future generations.
In populations, there are forces which add variation to the population (such as mutation), and forces which remove it. Genetic drift is the name given to random changes which remove variation from a population. Genetic drift gets rid of variation at the rate of 1/(2N) where N = population size.[47]p29 It is therefore "a very weak evolutionary force in large populations".[47]p55
Genetic drift explains how random chance can affect evolution in surprisingly big ways, but only when populations are quite small. Overall, its action is to make the individuals more similar to each other, and hence more vulnerable to disease or to chance events in their environment.
How species form is a major part of evolutionary biology. Darwin interpreted 'evolution' (a word he did not use at first) as being about speciation. That is why he called his famous book On the Origin of Species.
Darwin thought most species arose directly from pre-existing species. This is called anagenesis: new species by older species changing. Now we think most species arise by previous species splitting: cladogenesis.[87][88]
Two groups that start the same can also become very different if they live in different places. When a species gets split into two geographical regions, a process starts. Each adapts to its own situation. After a while, individuals from one group can no longer reproduce with the other group. Two good species have evolved from one.
A German explorer, Moritz Wagner, during his three years in Algeria in the 1830s, studied flightless beetles. Each species is confined to a stretch of the north coast between rivers which descend from the Atlas mountains to the Mediterranean. As soon as one crosses a river, a different but closely related species appears.[89] He wrote later:
This was an early account of the importance of geographical separation. Another biologist who thought geographical separation was critical was Ernst Mayr.[91]
One example of natural speciation is the three-spined stickleback, a sea fish that, after the last ice age, invaded freshwater, and set up colonies in isolated lakes and streams. Over about 10,000 generations, the sticklebacks show great differences, including variations in fins, changes in the number or size of their bony plates, variable jaw structure, and color differences.[92]
The wombats of Australia fall into two main groups, Common wombats and Hairy-nosed wombats. The two types look very similar, apart from the hairiness of their noses. However, they are adapted to different environments. Common wombats live in forested areas and eat mostly green food with lots of moisture. They often feed in the daytime. Hairy-nosed wombats live on hot dry plains where they eat dry grass with very little water or goodness in it. Their metabolic system is slow and they sleep most of the day underground.
When two groups that started the same become different enough, then they become two different species. Part of the theory of evolution is that all living things started off the same, but then split off into different groups over billions of years.[93]
This was an important movement in evolutionary biology, which started in the 1930s and finished in the 1950s.[94][95] It has been updated regularly ever since. The synthesis explains how the ideas of Charles Darwin fit with the discoveries of Gregor Mendel, who found out how we inherit our genes. The modern synthesis brought Darwin's idea up to date. It bridged the gap between different types of biologists: geneticists, naturalists, and palaeontologists.
When the theory of evolution was developed, it was not clear that natural selection and genetics worked together. But Ronald Fisher showed that natural selection would work to change species.[96]Sewall Wright explained genetic drift in 1931.[97]
Co-evolution is where the existence of one species is tightly bound up with the life of one or more other species.
New or 'improved' adaptations which occur in one species are often followed by the appearance and spread of related features in the other species. The life and death of living things is intimately connected, not just with the physical environment, but with the life of other species.
These relationships may continue for millions of years, as it has in the pollination of flowering plants by insects. The gut contents, wing structures, and mouthparts of fossilized beetles and flies suggest that they acted as early pollinators. The association between beetles and angiosperms during the Lower Cretaceous period led to parallel radiations of angiosperms and insects into the late Cretaceous. The evolution of nectaries in Upper Cretaceous flowers signals the beginning of the mutualism between hymenoptera and angiosperms.[102]
Charles Darwin was the first to use this metaphor in biology. The evolutionary tree shows the relationships among various biological groups. It includes data from DNA, RNA and protein analysis. Tree of life work is a product of traditional comparative anatomy, and modern molecular evolution and molecular clock research.
The major figure in this work is Carl Woese, who defined the Archaea, the third domain (or kingdom) of life.[103] Below is a simplified version of present-day understanding.[104]
Macroevolution: the study of changes above the species level, and how they take place. The basic data for such a study are fossils (palaeontology) and the reconstruction of ancient environments. Some subjects whose study falls within the realm of macroevolution:
It is a term of convenience: for most biologists it does not suggest any change in the process of evolution.[5][105][106]p87 For some palaeontologists, what they see in the fossil record cannot be explained just by the gradualist evolutionary synthesis.[107] They are in the minority.
Altruism the willingness of some to sacrifice themselves for others is widespread in social animals. As explained above, the next generation can only come from those who survive and reproduce. Some biologists have thought that this meant altruism could not evolve by the normal process of selection. Instead a process called "group selection" was proposed.[108][109] Group selection refers to the idea that alleles can become fixed or spread in a population because of the benefits they bestow on groups, regardless of the alleles' effect on the fitness of individuals within that group.
For several decades, critiques cast serious doubt on group selection as a major mechanism of evolution.[110][111][112][113]
In simple cases it can be seen at once that traditional selection suffices. For example, if one sibling sacrifices itself for three siblings, the genetic disposition for the act will be increased. This is because siblings share on average 50% of their genetic inheritance, and the sacrificial act has led to greater representation of the genes in the next generation.
Altruism is now generally seen as emerging from standard selection.[114][115][116][117][118] The warning note from Ernst Mayr, and the work of William Hamilton are both important to this discussion.[119][120]
Hamilton's equation describes whether or not a gene for altruistic behaviour will spread in a population. The gene will spread if rxb is greater than c:
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- Late-night hosts on the evolution of Trump: 'Dickish to dictatorish' - The Guardian [Last Updated On: February 7th, 2017] [Originally Added On: February 7th, 2017]
- Exhibition charts 500 years of evolution of robots - Phys.Org [Last Updated On: February 7th, 2017] [Originally Added On: February 7th, 2017]
- Blockchain: Investment (R)Evolution For Developing Markets - Forbes [Last Updated On: February 7th, 2017] [Originally Added On: February 7th, 2017]
- See the Evolution of the Famed Porsche 911 in 7 Photos - WIRED [Last Updated On: February 7th, 2017] [Originally Added On: February 7th, 2017]
- How evolution turned ordinary plants into ravenous meat-eaters - Wired.co.uk [Last Updated On: February 7th, 2017] [Originally Added On: February 7th, 2017]
- Are Evolution Fresh Drinks 'Poison'? - snopes.com [Last Updated On: February 7th, 2017] [Originally Added On: February 7th, 2017]
- The Evolution and Maturation of HPC in the Enterprise - CIO [Last Updated On: February 7th, 2017] [Originally Added On: February 7th, 2017]
- From Whoa to 'Wick:' The Evolution of Keanu Reeves - Film School Rejects [Last Updated On: February 9th, 2017] [Originally Added On: February 9th, 2017]
- 'Goldilocks' genes that tell the tale of human evolution hold clues to variety of diseases - Science Daily [Last Updated On: February 9th, 2017] [Originally Added On: February 9th, 2017]
- London exhibition charts 500 years of evolution of robots - Chicago Sun-Times [Last Updated On: February 9th, 2017] [Originally Added On: February 9th, 2017]
- Chimpanzee feet allow scientists a new grasp on human foot ... - Science Daily [Last Updated On: February 9th, 2017] [Originally Added On: February 9th, 2017]
- 'Evolution To Revolution' As New York Fashion Week Gets Political - NPR [Last Updated On: February 9th, 2017] [Originally Added On: February 9th, 2017]
- Orangutan squeaks reveal language evolution, says study - BBC ... - BBC News [Last Updated On: February 9th, 2017] [Originally Added On: February 9th, 2017]
- Deeper origin of gill evolution suggests 'active lifestyle' link in early ... - Science Daily [Last Updated On: February 10th, 2017] [Originally Added On: February 10th, 2017]
- Horse evolution bucks evolutionary theory - Science News [Last Updated On: February 10th, 2017] [Originally Added On: February 10th, 2017]
- From Tara Palmer-Tomkinson to Cara Delevingne: the evolution of the It girl - The Guardian [Last Updated On: February 11th, 2017] [Originally Added On: February 11th, 2017]
- Evolution gives rhyme its reason - Aurora News Register [Last Updated On: February 11th, 2017] [Originally Added On: February 11th, 2017]
- Evolution of in-car audio tech moving at 'speed of sound' - Times of India [Last Updated On: February 11th, 2017] [Originally Added On: February 11th, 2017]
- Scientists solve fish evolution mystery - Phys.Org [Last Updated On: February 11th, 2017] [Originally Added On: February 11th, 2017]
- The Difference Between Healthy Love & Unhealthy Love - Collective Evolution [Last Updated On: February 12th, 2017] [Originally Added On: February 12th, 2017]
- This Woman Was Raped & Forgave Him, So They Did A Ted Talk Together - Collective Evolution [Last Updated On: February 12th, 2017] [Originally Added On: February 12th, 2017]
- A primer on Darwin Day: Some religious groups embrace 'Theistic evolution' - LancasterOnline [Last Updated On: February 12th, 2017] [Originally Added On: February 12th, 2017]
- Pokmon Go Eevee evolution: How to evolve Eevee into Vaporeon, Jolteon and Flareon with new names - Eurogamer.net [Last Updated On: February 12th, 2017] [Originally Added On: February 12th, 2017]
- Evolution of baseball from power to speed has left SBs behind - Chicago Sun-Times [Last Updated On: February 12th, 2017] [Originally Added On: February 12th, 2017]
- More order with less judgment: An optimal theory of the evolution of cooperation - Science Daily [Last Updated On: February 12th, 2017] [Originally Added On: February 12th, 2017]
- How the horse can help us answer one of evolution's biggest questions - Raw Story [Last Updated On: February 12th, 2017] [Originally Added On: February 12th, 2017]
- China Is Now The World's Largest Producer of Solar Power ... - Collective Evolution [Last Updated On: February 13th, 2017] [Originally Added On: February 13th, 2017]
- Community Viewpoint: Evolution, like gravity, is much more than theory it is a fact - Kdminer [Last Updated On: February 13th, 2017] [Originally Added On: February 13th, 2017]
- See the Evolution of Movie Magic With Every Oscar Winner for ... - Gizmodo [Last Updated On: February 13th, 2017] [Originally Added On: February 13th, 2017]
- How the horse can help us answer one of evolution's biggest questions - Phys.Org [Last Updated On: February 13th, 2017] [Originally Added On: February 13th, 2017]
- How evolution alters biological invasions - Phys.Org [Last Updated On: February 13th, 2017] [Originally Added On: February 13th, 2017]
- The Evolution of Valentine's Day - Inside Science News Service [Last Updated On: February 14th, 2017] [Originally Added On: February 14th, 2017]
- Why evolution may be tech billionaires' biggest enemy - The Week Magazine [Last Updated On: February 14th, 2017] [Originally Added On: February 14th, 2017]
- Russell Westbrook is leading an evolution in NBA rebounding - Washington Post [Last Updated On: February 14th, 2017] [Originally Added On: February 14th, 2017]
- Eye Evolution: A Closer Look - Discovery Institute [Last Updated On: February 14th, 2017] [Originally Added On: February 14th, 2017]
- How evolution alters biological invasions -- ScienceDaily - Science Daily [Last Updated On: February 14th, 2017] [Originally Added On: February 14th, 2017]
- Evolution always wins: University of Idaho video game uses mutating aliens to teach science concepts - The Spokesman-Review [Last Updated On: February 14th, 2017] [Originally Added On: February 14th, 2017]
- Geneticists track the evolution of parenting - Phys.Org [Last Updated On: February 14th, 2017] [Originally Added On: February 14th, 2017]
- How this cockeyed squid shines a light on deep sea evolution - Christian Science Monitor [Last Updated On: February 14th, 2017] [Originally Added On: February 14th, 2017]
- Cockeyed squid shines light on deep sea evolution - Christian Science Monitor [Last Updated On: February 15th, 2017] [Originally Added On: February 15th, 2017]
- Fossil discovery rewrites understanding of reproductive evolution - Science Daily [Last Updated On: February 15th, 2017] [Originally Added On: February 15th, 2017]