Evolution

Any gradual directional change; now most commonly used to refer to the cumulative changes in the characteristics of populations of organisms from generation to generation. Evolution occurs by the fixation of changes (mutations) in the structure of the genetic material, and the passing on of these changes from ancestor to descendant. It is well demonstrated over geological time by the sequence of organisms preserved in the fossil record. There are two opposing schools of thought regarding the pattern and tempo of evolution.

The gradualist school is based on a model of evolution in which species change gradually through time by slow directional change within a lineage, producing a long graded series of differing forms. The punctuated equilibria school is based on a model in which species are relatively stable and long-lived in geological time, and that new species appear during outbursts of rapid speciation, followed by the differential success of certain of the newly formed species.

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while some people feel uncomfortable with the idea of evolution for religious reasons, every single observation about the nature of life on earth is consistent with evolution having happened. The opponents attempt to gain comfort from the way in which evalutianists sometimes disagree about some of the finer points about how evalutian happened, but they can only do so because they have lost sight of one key fact: every biologist in the world agrees that evalutian took place, but most biologists are willing to speculate on how evalutian took place, and to disagree with other biologists' speculations. we know it happened, we just don't know exactly how.

The fossil evidence

This is often depicted incorrectly as the only evidence for evolution. and it is certainly
convincing, but it is only the start. Fossil horses may be found with several toes, while modern horses have a single toe in their hoof, missing links can be found, like the bird reptile Archacoptryx, the amphibian Ichthyostega, the lobefish, the early members of the genus Homo, which walked upright, yet had smaller brains and limited cultures, or the seed fern.
The most important evidence from fossils comes when the order of their formation is examined. The science of geology has developed to the extent that we can order the rocks of the world quite accurately from their fossils. Whenever two fossils appear in the same sequence of rocks, the lower rock always has the more primitive of the two fossils. The estimated dates of rocks that were made in the past century can be independently checked by a variety of dating methods, and while the scales may change as we realize the earth is older than we ever imagined, the order of the rocks, and the order of the fossils has always stayed the same.

Biogeography

The distribution of animal and plant groups around the world is only explainable if you assume that similar species have evolved from a common ancestor. Before we understood plate tectonics, a number of the Gondwanan distributions were confusing, but now we can understand exactly why a marsupiial will be found only in the Americas and Australia, which were once both joined to Antarctica as part of Gondwanaland. It also explains why it is possible to find the teeth of extinct ancestors of the platypus of Australia in South America.

Case studies

There are a number of case studies which, while not demonstrating the formation of new species, show remarkable selection. Moths in an industrial part of Britain changing their colour as pollution darkens the bark of trees in their habitat, favouring a dark-winged form over a light-winged form, and many case studies, some of them described by Darwin himself, of artificial selection by farmers and animal breeders.

These studies do not show complete evolution, but they show how the appearance of a species can be hugely changed, given some form of selection. If these changes can happen in an observable period, runs the argument, think what might happen in a longer period. while this is not good evidence for evolution, it is a useful corroboration.

Convergent evolution

One of the basic arguments of evolution is that natural selection will shape the species so that it is well-adapted to fit into its environment. When similar environments exist in different parts of the world, similar-looking species will evolve to fill an available niche. The marsupial 'moles', 'cats' and 'mice' of Australia are all seen as good examples of similar conditions producing similar species. The American possums are similar in appearance to the Australian possums, even though the Australian possums are more closely related to kangaroos, koalas or wombats, based on blood biochemistry.

Once again, this is not proof of evolution, but it is a clear indication of the power of natural selection.

Adaptive radiation

In a new environment, such as a colonized island, new species are able to develop from a single pair of colonists, as some members specialize. The classic example here is found in the finches that flarwin observed and studied in the Galapagos Islands, known ever since as Darwin's finches.

Curiosities

Even some of the stranger aspects of humanity are easily explained by looking at the ways in which evolution can take place. In particular, humans are much more similar to baby chimpanzees than they are to adult chimpanzees. we mature less than the other primates, and it turns out that we humans are paedomorphic apes: we have gained a
great deal by holding off, from remaining immature, from putting off what any ape would regard as true adulthood.

Anatomy

The pentadactyl limb of the vertebrates is just one example of the similarities that can be seen throughout the animal kingdom. The equivalent bones are found in equivalent places, sometimes with a reduction, as in the case of the horse's hoof, now based on a single 'toe', but that bone is clearly the same as the equivalent bone in an elephant or a fossilized giant kangaroo.

The shape we are all in is a result of inheritance, and some features are either neutral in evolution, or blind alleys that we are stuck with. Men suffer inguinal hernias because their lower belly muscles are better designed for walking on all fours, and baby kangaroos are forced to be born when they are very small, simply because their mothers have a birth canal structure which only allows a very small baby to pass through.

Most animals show vestiges of one form or another, traces of characters that their ancestors held, but they have almost lost. Humans have a tiny caecum called the appendix, a remnant of something our plant-eating ancestors needed, and we also have a remnant tail bone. Horses have remnants of the toes that have disappeared from their feet, and some of the whales and dolphins have tiny remnants of their pelvises and hind limbs, leftover from the days when their ancestors lived on land.

Biochemistry

Time and time again, biochemists have studied the amino acids in key proteins, like cytochrome c, and found that similar species have similar proteins, while less similar (and presumably more distantly related) individuals have more differences in the proteins. These studies also throw us a few surprises, findings that may cause us to question some of our assumptions about classification. They do not make us question ev