Evolution: Difference between revisions

[[Microevolution]] refers to small-scale changes in gene-frequencies in a population over a few generations ([[population genetics]] is the branch of biology that provides the mathematical structure for the study of the process of microevolution). These changes may be due to a number of processes: [[mutation]], [[gene flow]], [[genetic drift]], as well as [[natural selection]]. [[Macroevolution]] refers to large-scale changes in gene-frequencies in a population over a long period of time (and may culminate in the evolution of new [[species]]). The difference between the two is hard to distinguish because, over time, successive tiny mutations like those evidenced in microevolution could build up in isolated populations and eventually create entirely new species, which is known as macroevolution. TheseWhile twomicroevolution termshas arebeen oftendemostrated usedin bythe certainlaboratory [[creationism|creationists]],to whothe claimsatisfaction thatof microevolutionmost canobservers, andthe doestheory happenof butmacroevolution thatis macroevolutionstill cannotcontroversial. ThisSome iscritics basedhold onthat the supposition thatwhile microevolution may occur with an existing gene pool, whereas macroevolution requires the introduction of newly-evolved genes. These newly-evolved genes would represent beneficial mutations; creationistsit generallyis argueargued that such mutations are observed to be almost always detrimental.

The studytheory of macroevolution addressesseeks to address such questions such as;

There are two main ways in which "macroevolution" maymight occur. The first way is through the extrapolation of microevolutionary processes. Tiny microevolutions, over sufficient time, add up and accumulate in isolated populations and eventually result in new species. The second way in which "macroevolution" occursis believed to occur is through sudden and rapid changes. This theory, [[punctuated equilibrium]], put forth by [[Stephen Jay Gould]], is based on the fact that there are critical genes (such as the [[homeobox]]) in all living organisms, and a small change in them could cause drastic changes in the organism, resulting in a new species quite rapidly.

Single small mutations are sometimes the main difference between one species and another. Scientists have discovered very important genes, such as the [[homeobox]], which regulate the growth of animals in their embryonic state. Scientists have managed to create new species of fly by irradiating the homeobox gene, causing a radical mutation in the development of the segments of the body. The fly may grow an extra thorax, or grow legs out of its eyestalks, all due to a single base pair alteration!. The additional information needed for these structures did not arise from the mutation, of course, but existed elsewhere in the animal's DNA and was replicated at the novel ___location. It has been proposed that centipedes and millipedes originated from insect precursors, but their homeobox gene mutated and they ended up growing dozens of body segments instead of just one. A very small change, and an entire species is formed.

Some proponents of [[creationism]]critics accept that microevolution occurs in the short term, whereas macroevolution, specifically leading to speciation, is expressly rejected. They claim that known sources of variation can only account for variation within species, and can not account for the variation between larger taxonomic groups, thus making [[macroevolution]] impossible.

Microevolution can easily be demonstrated in the laboratory to the satisfaction of most observers. Whilst speciation events have been demonstrated in the laboratory and observed in the field, really dramatic differences between species do not usually occur in directly observable timescales (it occurs too quickly for the process to be shown in the fossil record.) SomeIt creationists haveis argued that, since macroevolution can not be confirmed by a [[controlled experiment]], it cannot be considered to be part of a scientific theory. However, evolutionists counter that astronomy, geology, archaeology and the other historical sciences, like macroevolution, have to check hypotheses through [[natural experiment]]s. They confirm hypotheses by finding out if they conform or fit with the physical or observational evidence and can make valid predictions. In this way, macroevolution is testable and falsifiable.

ScientistsMost scientists consider large gaps between taxonomic groups to be explainable by ecological/evolutionary factors, such as extinctions, population bottlenecks, and the emergence of unoccupied ecological niches. Macroevolution is simply the result of microevolution over a longer period of time. According to the [[modern synthesis]], no distinction needs to be drawn between different kinds of evolution because all are caused by the same factors.