Articles: biological-evolution.
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There is clear heritability of human longevity. However, the genetics of ageing is likely to be complex. Evolution theory tells us not to expect genes that have been selected to promote ageing. ⋯ In addition, there may be contributions either from late-acting deleterious genes that escape the force of natural selection or that trade benefit at an early age against harm at older ages. In some species, there is evidence that genes have evolved to detect and respond to changes in the environment, e.g. food supply. Evolutionary understanding can also help to understand important features of the human life history such as menopause.
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Historical Article
Civic biology and the origin of the school antievolution movement.
In discussing the origins of the antievolution movement in American high schools within the framework of science and religion, much is overlooked about the influence of educational trends in shaping this phenomenon. This was especially true in the years before the 1925 Scopes trial, the beginnings of the school antievolution movement. There was no sudden realization in the 1920's--sixty years after the Origin of Species was published--that Darwinism conflicted with the Bible, but until evolution was being taught in the high schools, there was no impetus to outlaw it. ⋯ Antievolution legislation was part of a broader response to the ideologies of the new biology field, and was a reaction not only to the content of the new subject, but to the increasingly centralized control and regulation of education. Viewing the early school antievolution movement through the science-religion conflict is an artifact of the Scopes trial's re-creation of its origins. What largely caused support for the school antievolution movement in the South and particularly Tennessee were concerns over public education, which biology came to epitomize.
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As predicted by Darwin, bipedal posture and locomotion are key distinguishing features of the earliest known hominins. Hominin axial skeletons show many derived adaptations for bipedalism, including an elongated lumbar region, both in the number of vertebrae and their lengths, as well as a marked posterior concavity of wedged lumbar vertebrae, known as a lordosis. ⋯ Here we show that human females have evolved a derived curvature and reinforcement of the lumbar vertebrae to compensate for this bipedal obstetric load. Similarly dimorphic morphologies in fossil vertebrae of Australopithecus suggest that this adaptation to fetal load preceded the evolution of Homo.
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A 'consensus decision' is when the members of a group choose, collectively, between mutually exclusive actions. In humans, consensus decisions are often made democratically or in an 'equally shared' manner, i.e. all group members contribute to the decision. Biologists are only now realizing that shared consensus decisions also occur in social animals (other than eusocial insects). ⋯ However, this is not true for all individual group members, posing a question as to how shared decision making could evolve. Here, we use a game theory model to show that sharing of decisions can evolve under a wide range of circumstances but especially in the following ones: when groups are heterogeneous in composition; when alternative decision outcomes differ in potential costs and these costs are large; when grouping benefits are marginal; or when groups are close to, or above, optimal size. Since these conditions are common in nature, it is easy to see how mechanisms for shared decision making could have arisen in a wide range of species, including early human ancestors.
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We have sequenced the complete mitochondrial genome of the extinct American mastodon (Mammut americanum) from an Alaskan fossil that is between 50,000 and 130,000 y old, extending the age range of genomic analyses by almost a complete glacial cycle. The sequence we obtained is substantially different from previously reported partial mastodon mitochondrial DNA sequences. ⋯ We also conclude that the nuclear genomes of the African savannah and forest elephants diverged approximately 4.0 mya, supporting the view that these two groups represent different species. Finally, we found the mitochondrial mutation rate of proboscideans to be roughly half of the rate in primates during at least the last 24 million years.