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| title | chunk | source | category | tags | date_saved | instance |
|---|---|---|---|---|---|---|
| Objections to evolution | 4/15 | https://en.wikipedia.org/wiki/Objections_to_evolution | reference | science, encyclopedia | 2026-05-05T03:36:58.826933+00:00 | kb-cron |
== Defining evolution == A major source of confusion and ambiguity in any creation–evolution debate arises from the definition of evolution itself. In the context of biology, evolution is genetic changes in populations of organisms over successive generations. The word also has a number of different meanings in different fields, from evolutionary computation to molecular evolution to sociocultural evolution to stellar and galactic evolution.
Evolution in colloquial contexts can refer to any sort of "progressive" development or gradual improvement, and a process that results in greater quality or complexity. When misapplied to biological evolution this common meaning can lead to frequent misunderstandings. For example, the idea of devolution ("backwards" evolution) is a result of erroneously assuming that evolution is directional or has a specific goal in mind (cf. orthogenesis). In reality, the evolution of a biological organism has no "objective" and is only showing increasing ability of successive generations to survive and reproduce in their environment; and increased suitability is only defined in relation to this environment. Biologists do not regard any one species (such as humans) as more highly evolved or advanced than another. Certain sources have been criticized for indicating otherwise due to a tendency to evaluate nonhuman organisms according to anthropocentric standards rather than according to more objective ones. Evolution also does not require that organisms become more complex. Although the biological development of different forms of life shows an apparent trend towards the evolution of biological complexity, there is a question as to whether this appearance of increased complexity is real, or whether it comes from neglecting the fact that the majority of life on Earth has always consisted of prokaryotes. In this view, complexity is not a necessary consequence of evolution, but specific circumstances of evolution on Earth frequently made greater complexity advantageous and thus naturally selected for. Depending on the situation, organisms' complexity can either increase, decrease, or stay the same, and all three of these trends have been observed in studies of evolution. Creationist sources frequently define evolution according to a colloquial, rather than the scientific meaning. As a result, many attempts to rebut evolution do not address the findings of evolutionary biology (see straw-man argument). This also means that advocates of creationism and evolutionary biologists often simply speak past each other.
== Scientific acceptance ==
=== Status as a theory ===
Critics of evolution assert that evolution is "just a theory", which emphasizes that scientific theories are never absolute, or misleadingly presents it as a matter of opinion rather than of fact or evidence. This reflects a difference of the meaning of theory in a scientific context: whereas in colloquial speech a theory is a conjecture or guess, in science, a theory is an explanation whose predictions have been verified by experiments or other evidence. Evolutionary theory refers to an explanation for the diversity of species and their ancestry which has met extremely high standards of scientific evidence. An example of evolution as theory is the modern synthesis of Darwinian natural selection and Mendelian inheritance. As with any scientific theory, the modern synthesis is constantly debated, tested, and refined by scientists, but there is an overwhelming consensus in the scientific community that it remains the only robust model that accounts for the known facts concerning evolution. Critics also state that evolution is not a fact. In science a fact is a verified empirical observation while in colloquial contexts a fact can simply refer to anything for which there is overwhelming evidence. For example, in common usage theories such as "the Earth revolves around the Sun" and "objects fall due to gravity" may be referred to as "facts", even though they are purely theoretical. From a scientific standpoint, therefore, evolution may be called a "fact" for the same reason that gravity can: under the scientific definition, evolution is an observable process that occurs whenever a population of organisms genetically changes over time. Under the colloquial definition, the theory of evolution can also be called a fact, referring to this theory's well-established nature. Thus, evolution is widely considered both a theory and a fact by scientists. Similar confusion is involved in objections that evolution is "unproven", since no theory in science is known to be absolutely true, only verified by empirical evidence. This distinction is an important one in philosophy of science, as it relates to the lack of absolute certainty in all empirical claims, not just evolution. Strict proof is possible only in formal sciences such as logic and mathematics, not natural sciences (where terms such as "validated" or "corroborated" are more appropriate). Thus, to say that evolution is not proven is trivially true, but no more an indictment of evolution than calling it a "theory". The confusion arises in that the colloquial meaning of proof is simply "compelling evidence", in which case scientists would indeed consider evolution "proven".
=== Degree of acceptance ===