Revision as of 18:16, 6 October 2018 editPbsouthwood (talk | contribs)Administrators149,860 edits →Evolution of plants← Previous edit | Latest revision as of 21:37, 9 October 2024 edit undoMark and inwardly digest (talk | contribs)Extended confirmed users3,576 edits Undid revision 1250291379 by 129.222.139.199 (talk)Tags: Undo Mobile edit Mobile web edit Advanced mobile edit | ||
(85 intermediate revisions by 31 users not shown) | |||
Line 1: | Line 1: | ||
{{ |
{{Short description|Overview of and topical guide to change in the heritable characteristics of organisms}} | ||
{{See also|Index of evolutionary biology articles|Evolution (disambiguation)}} | |||
<!--... Attention: THIS IS AN OUTLINE | <!--... Attention: THIS IS AN OUTLINE | ||
part of the set of |
part of the set of 830+ outlines listed at | ||
]. | ]. | ||
Misplaced Pages outlines are | Misplaced Pages outlines are | ||
Line 10: | Line 11: | ||
content navigation systems | content navigation systems | ||
See ] and | |||
|
] for more details. | ||
Further improvements | Further improvements | ||
to this outline are on the way | to this outline are on the way | ||
...--> | ...--> | ||
The following ] is provided as an overview of and topical guide to ]: | |||
{{See also|Index of evolutionary biology articles|Evolution (disambiguation)}} | |||
] | |||
The following ] is provided as an overview of and topical guide to evolution: | |||
{{Evolutionary biology}} | |||
] | |||
In ], '''evolution''' is change in the ] ] of ] over generations due to ], ], ], and ]. Also known as '''descent with modification'''. Over time these evolutionary processes lead to formation of new species (]), changes within lineages (]), and loss of species (]). "Evolution" is also another name for ], the subfield of ] concerned with studying ] that produced the ] on Earth. | |||
==Fundamentals about evolution== | ==Fundamentals about evolution== | ||
Line 32: | Line 33: | ||
** {{annotated link|Speciation}} | ** {{annotated link|Speciation}} | ||
*** Natural speciation | *** Natural speciation | ||
**** {{annotated link|Allopatric speciation}} |
**** {{annotated link|Allopatric speciation}} | ||
**** {{annotated link|Peripatric speciation}} |
**** {{annotated link|Peripatric speciation}} | ||
**** {{annotated link|Parapatric speciation}} |
**** {{annotated link|Parapatric speciation}} | ||
**** {{annotated link|Sympatric speciation}} | **** {{annotated link|Sympatric speciation}} | ||
*** Artificial speciation | *** Artificial speciation | ||
Line 42: | Line 43: | ||
*** {{annotated link|Hybrid speciation}} | *** {{annotated link|Hybrid speciation}} | ||
** {{annotated link|Despeciation}} | ** {{annotated link|Despeciation}} | ||
** {{annotated link|Anagenesis}} | |||
** ] – changes in a lineage that result in a new morphospecies distinct in form from an ancestral species ("phyletic transformation") | |||
** {{annotated link|Extinction}} | |||
** ] – end of a lineage such that there are no longer living populations of a species (or other taxon) | |||
* {{annotated link|Microevolution}} | |||
* ] – change within species or populations, due to ], selection (] and ]), ], and ] | |||
** {{annotated link|Artificial selection}} | |||
** ] – the process by which humans increase particular traits in a lineage or population by choosing which individuals have offspring together (also called ]) | |||
** {{annotated link|Natural selection}} | |||
** ] – differential survival and reproduction of individuals due to differences in heritable traits (]), a key mechanism of ] | |||
*** {{annotated link|Sexual selection}} | |||
*** ] – a mode of natural selection wherein members of one gender choose mates of the other gender to mate with, resulting in distinct gender-based differences | |||
** {{annotated link|Mutation}} | |||
** ] – a permanent change of the genome of an organism (nucleotide sequence), a key mechanism of ] | |||
** {{annotated link|Gene flow}} | |||
** ] – movement of genes from one population to another (through migration, dispersal, transport of pollen, etc.) | |||
** {{annotated link|Genetic drift}} | |||
** ] – change in frequency of a gene variant (allele) in a population due to random sampling | |||
===Subfields=== | ===Subfields=== | ||
* {{annotated link|Biology}} | |||
* ] – the study of distribution of species and ecosystems in geographic space and through geological time | |||
** {{annotated link|Evolutionary biology}} | |||
* ] – the study of genetics in natural populations | |||
*** {{annotated link|Evolutionary developmental biology}} | |||
* ] – study of the evolutionary processes that produced the diversity of life on Earth. More specifically, it studies the descent of species, and the origin of new species. | |||
** {{annotated link|Genetics}} | |||
** ] – the study of developmental processes to determine the ancestral relationships and discover how developmental processes evolved (informally called evo-devo) | |||
* {{annotated link|Biogeography}} | |||
* ] – the study of ecology with explicit consideration of evolutionary histories of species, or conversely the study of evolution that incorporates an understanding of ecological interactions between the species | |||
* {{annotated link|Ecological genetics}} | |||
* ] – the study of changes in functional characteristics over generations as the result of selection | |||
* {{annotated link|Evolutionary biology}} | |||
* ] – branch of biological classification that classifies organisms based on phylogenetic relationship (shared descent), progenitor-descendant relationship (serial descent), and degree of evolutionary change | |||
** {{annotated link|Evolutionary developmental biology}} | |||
* ] – study of evolution using controlled experiments to test hypotheses and theories | |||
* {{annotated link|Evolutionary ecology}} | |||
* ] – study of change in sequence composition of cellular molecules such as DNA, RNA, and proteins across generations | |||
* {{annotated link|Evolutionary physiology}} | |||
* ] – study of evolutionary history, development, and relationships among groups of organisms | |||
* {{annotated link|Evolutionary taxonomy}} | |||
* ] – study of distribution and change in frequency of alleles within populations | |||
* {{annotated link|Experimental evolution}} | |||
* ] – study of evolution of life based on the fossil record | |||
* {{annotated link|Molecular evolution}} | |||
** ] – study of ancient viruses based on fossil viruses | |||
* {{annotated link|Phylogenetics}} | |||
** ] – summary of key dates and events in the history of ] | |||
* {{annotated link|Population genetics}} | |||
* ] – study of diversification of living forms, both past and present, and relationships among living organisms through time | |||
* {{annotated link|Paleontology}} | |||
** {{annotated link|Paleovirology}} | |||
** {{annotated link|Timeline of paleontology}} | |||
* {{annotated link|Systematics}} | |||
===History=== | ===History=== | ||
* {{annotated link|Charles Darwin}} | |||
* ] – English naturalist and geologist, best known for his contributions to evolutionary theory | |||
** {{annotated link|On the Origin of Species|''On the Origin of Species''}} | |||
:* '']'' – work of scientific literature by Charles Darwin, considered to be foundation of evolutionary biology (published 1859) | |||
** {{annotated link|Caricatures of Charles Darwin and his evolutionary theory in 19th-century England}} | |||
** {{annotated link|Darwinism}} | |||
* ] – historical account of evolutionary thought from antiquity through present | |||
* {{annotated link|History of evolutionary thought}} | |||
:* By period or event | |||
** By period or event | |||
::* ] | |||
*** {{annotated link|Evolutionary ideas of the Renaissance and Enlightenment}} | |||
::* ] | |||
*** {{annotated link|Transmutation of species}} | |||
::* ] | |||
*** {{annotated link|1860 Oxford evolution debate}} | |||
::* ] | |||
*** {{annotated link|Neo-Darwinism}} | |||
::* ] | |||
*** {{annotated link|The eclipse of Darwinism}} | |||
::* ] | |||
*** {{annotated link|Evolutionary progress}} | |||
::* ], early 20th century synthesis of ideas from various fields of biology (particularly genetics, systematics, ecology, and paleontology) | |||
*** {{annotated link|Scopes Trial}} | |||
::* ] | |||
*** {{annotated link|Modern synthesis (20th century)|Modern synthesis}} | |||
:* By field | |||
**** {{annotated link|Extended evolutionary synthesis}} | |||
::* ] | |||
*** {{annotated link|Evolutionary biology#Current research topics|Current research}} | |||
::* ] | |||
** By field | |||
::* ] | |||
*** {{annotated link|Evolutionary developmental biology}} | |||
::* ] | |||
* |
*** {{annotated link|History of evolutionary psychology}} | ||
*** {{annotated link|History of molecular evolution}} | |||
*** {{annotated link|History of paleontology}} | |||
* {{annotated link|Social effect of evolutionary theory}} | |||
==Evolutionary theory and modelling== | ==Evolutionary theory and modelling== | ||
Line 96: | Line 104: | ||
===Population genetics=== | ===Population genetics=== | ||
* |
* {{annotated link|Population genetics}} | ||
* Process | * Process | ||
** |
** {{annotated link|Mutation}} | ||
** |
** {{annotated link|Selection (biology)|Selection}} | ||
*** |
*** {{annotated link|Natural selection}} | ||
**** |
**** {{annotated link|Sexual selection}} | ||
*** |
*** {{annotated link|Artificial selection}} | ||
*** |
*** {{annotated link|Ecological selection}} | ||
** |
** {{annotated link|Gene flow}} | ||
** |
** {{annotated link|Genetic drift}} | ||
*** |
*** {{annotated link|Small population size}} | ||
*** |
*** {{annotated link|Population bottleneck}} | ||
*** |
*** {{annotated link|Founder effect}} | ||
*** |
*** {{annotated link|Coalescent theory}} | ||
* Variation | * Variation | ||
** |
** {{annotated link|Genetic variation}} | ||
*** |
*** {{annotated link|Genetic diversity}} | ||
*** |
*** {{annotated link|Gene frequency}} | ||
*** |
*** {{annotated link|Polymorphism (biology)}} | ||
* Key concepts | * Key concepts | ||
** |
** {{annotated link|Hardy–Weinberg principle|Hardy-Weinberg law}} | ||
** |
** {{annotated link|Genetic linkage}} | ||
** |
** {{annotated link|Identity by descent}} | ||
** |
** {{annotated link|Linkage disequilibrium}} <!--Haldane's general selection model--> | ||
** |
** {{annotated link|Fisher's fundamental theorem of natural selection|Fisher's fundamental theorem}} | ||
** |
** {{annotated link|Neutral theory of molecular evolution|Neutral theory}} | ||
** |
** {{annotated link|Shifting balance theory}} | ||
** |
** {{annotated link|Price equation}} | ||
** |
** {{annotated link|Coefficient of relationship}} | ||
** |
** {{annotated link|Fitness (biology)|Fitness}} | ||
** |
** {{annotated link|Heritability}} | ||
* Effects of selection | * Effects of selection | ||
** |
** {{annotated link|Genetic hitchhiking}} | ||
** |
** {{annotated link|Negative selection (natural selection)}} | ||
* Related topics | * Related topics | ||
** |
** {{annotated link|Microevolution}} | ||
** |
** {{annotated link|Evolutionary game theory}} | ||
** |
** {{annotated link|Fitness landscape}} | ||
** |
** {{annotated link|Genetic genealogy}} | ||
** {{annotated link|Quantitative genetics}} | |||
** ], branch of population genetics that deals with phenotypes which vary continuously | |||
===Evolutionary phenomena=== | ===Evolutionary phenomena=== | ||
* |
* {{annotated link|Adaptation}} | ||
* |
* {{annotated link|Adaptive radiation}} | ||
* |
* {{annotated link|Coevolution}} | ||
* |
* {{annotated link|Concerted evolution}} | ||
* |
* {{annotated link|Convergent evolution}} | ||
** |
** {{annotated link|List of examples of convergent evolution}} | ||
* |
* {{annotated link|Divergent evolution}} | ||
** |
** {{annotated link|Divergent evolution in animals}} | ||
* |
* {{annotated link|Evolution of ageing}} | ||
* |
* {{annotated link|Evolution of biological complexity}} | ||
* |
* {{annotated link|Evolution of multicellularity}} | ||
* |
* {{annotated link|Evolution of photosynthesis}} | ||
* |
* {{annotated link|Evolution of sexual reproduction}} | ||
* |
* {{annotated link|Evolutionary arms race}} | ||
* |
* {{annotated link|Evolutionary capacitance}} | ||
* |
* {{annotated link|Evolutionary fauna}} | ||
* |
* {{annotated link|Evolutionary pressure}} | ||
* |
* {{annotated link|Evolutionary radiation}} | ||
* |
* {{annotated link|Evolutionary trap}} | ||
* {{annotated link|Evolvability}} | |||
* ] | |||
* {{annotated link|Exaptation}} | |||
* ] – | |||
* {{annotated link|Extinction}} | |||
* ] – capacity of a system for adaptive evolution. Beneficial mutations are always rare, but if they are too rare, then adaptation cannot occur. Biological genomes are structured in ways that make beneficial changes less unlikely than they would otherwise be. Evolution has created not just fitter organisms, but populations of organisms that are better able to evolve. | |||
* {{annotated link|Fitness (biology)}} | |||
* ] | |||
** {{annotated link|Inclusive fitness}} | |||
* ] | |||
*** {{annotated link|Kin selection}} | |||
** ] | |||
** {{annotated link|Reproductive success}} | |||
*** ] | |||
* {{annotated link|Genetic recombination}} | |||
** ] | |||
* |
* {{annotated link|Horizontal gene transfer in evolution}} | ||
* {{annotated link|Human evolution (origins of society and culture)}} | |||
* ] | |||
* {{annotated link|Inversion (evolutionary biology)}} | |||
* ] | |||
* {{annotated link|Mosaic evolution}} | |||
* ] | |||
* |
* {{annotated link|Parallel evolution}} | ||
* |
* {{annotated link|Quantum evolution}} | ||
* |
* {{annotated link|Recurrent evolution}} | ||
* {{annotated link|Robustness (evolution)}} | |||
* ] | |||
* {{annotated link|Speciation}} | |||
* ] | |||
* ] | |||
* ] | |||
===Modelling=== | ===Modelling=== | ||
* |
* {{annotated link|Emergent evolution}} | ||
* |
* {{annotated link|Epic of evolution}} | ||
* |
* {{annotated link|Evolution window}} | ||
* |
* {{annotated link|Evolutionary dynamics}} | ||
* |
* {{annotated link|Evolutionary game theory}} | ||
* |
* {{annotated link|Evolutionary graph theory}} | ||
* |
* {{annotated link|Evolutionary invasion analysis}} | ||
* |
* {{annotated link|Largest-scale trends in evolution}} | ||
==Taxonomy, systematics, and phylogeny== | ==Taxonomy, systematics, and phylogeny== | ||
===Fundamentals=== | ===Fundamentals=== | ||
* |
* {{annotated link|Taxonomy (biology)|Taxonomy}} | ||
** |
** {{annotated link|Alpha taxonomy}} | ||
** |
** {{annotated link|Biological classification}} | ||
** |
** {{annotated link|Binomial nomenclature}} | ||
** |
** {{annotated link|Evolutionary taxonomy}} | ||
** |
** {{annotated link|Catalogue of life}} | ||
** |
** {{annotated link|Homonym (biology)}} | ||
** |
** {{annotated link|Integrated Taxonomic Information System}} | ||
** |
** {{annotated link|International Code of Zoological Nomenclature}} | ||
** |
** {{annotated link|International Code of Nomenclature for algae, fungi, and plants}} | ||
** |
** {{annotated link|Linnaean taxonomy}} | ||
** |
** {{annotated link|Phenetics}} | ||
** |
** {{annotated link|Species 2000}} | ||
** |
** {{annotated link|Taxon}} | ||
** |
** {{annotated link|Taxonomic rank}} | ||
** |
** {{annotated link|Type (biology)}} | ||
** |
** {{annotated link|Species description}} | ||
* {{annotated link|Systematics}} | |||
* ] – study of diversification of living forms, both past and present | |||
** |
** {{annotated link|Cladogram}} | ||
** |
** {{annotated link|Phylogenetic tree}} | ||
* |
* {{annotated link|Phylogenetics}} | ||
** |
** {{annotated link|Cladistics}} | ||
** |
** {{annotated link|Computational phylogenetics}} | ||
** {{annotated link|Common descent}} | |||
** ] – how different lineages of organisms share a most recent common ancestor | |||
** |
** {{annotated link|Evidence of common descent}} | ||
** |
** {{annotated link|Evolutionary grade}} | ||
** |
** {{annotated link|Lineage (evolution)}} | ||
** |
** {{annotated link|Molecular phylogenetics}} | ||
** {{annotated link|Most recent common ancestor}} | |||
** ] – most recent individual from which all organisms in a group are directly descended. It is impossible to identify the specific MRCA of a large set of individuals, but an estimate of the time at which the MRCA lived can often be given. | |||
===Basic concepts of phylogenetics=== | ===Basic concepts of phylogenetics=== | ||
* |
* {{annotated link|Phylogenetic tree}} | ||
* |
* {{annotated link|Phylogenetic network}} | ||
* |
* {{annotated link|Long branch attraction}} | ||
* {{annotated link|Clade}} | |||
* ] vs ] | |||
* {{annotated link|Evolutionary grade|Grade}} | |||
* ] | |||
* {{annotated link|Ghost lineage}} | |||
===Inference methods=== | ===Inference methods=== | ||
* |
* {{annotated link|Maximum parsimony (phylogenetics)}} | ||
* |
* {{annotated link|Minimum evolution}} | ||
* ''Probabilistic methods'' | * ''Probabilistic methods'' | ||
** |
** {{annotated link|Maximum likelihood estimation}} | ||
** |
** {{annotated link|Bayesian inference in phylogeny|Bayesian inference}} | ||
* |
* {{annotated link|Distance matrices in phylogeny}} | ||
** |
** {{annotated link|Neighbor joining}} | ||
** {{annotated link|UPGMA|Unweighted Pair Group Method with Arithmetic Mean|abbreviation=UPGMA}} | |||
** ] | |||
** |
** {{annotated link|Least squares inference in phylogeny}} | ||
* |
* {{annotated link|Three-taxon analysis}} | ||
===Current topics=== | ===Current topics=== | ||
* {{annotated link|PhyloCode|aka=International Code of Phylogenetic Nomenclature}} | |||
* ] | |||
* |
* {{annotated link|DNA barcoding}} | ||
* |
* {{annotated link|Molecular phylogenetics}} | ||
* |
* {{annotated link|Phylogenetic comparative methods}} | ||
* |
* {{annotated link|Phylogenetic network}} | ||
* |
* {{annotated link|Phylogenetic niche conservatism}} | ||
* |
* {{annotated link|List of phylogenetics software}} | ||
* |
* {{annotated link|Phylogenomics}} | ||
* |
* {{annotated link|Phylogeography}} | ||
* |
* {{annotated link|DNA phylogeny}} | ||
===Group Traits=== | ===Group Traits=== | ||
* |
* {{annotated link|Symplesiomorphy}} | ||
* |
* {{annotated link|Synapomorphy|Apomorphy}} | ||
* |
* {{annotated link|Synapomorphy}} | ||
* |
* {{annotated link|Autapomorphy}} | ||
===Group Types=== | ===Group Types=== | ||
Line 264: | Line 271: | ||
==Evolution of biodiversity== | ==Evolution of biodiversity== | ||
* {{annotated link|Biodiversity}} | |||
* ] – variety of different types of life found on the Earth and the variations within species.<ref name=UN>{{cite web |url=http://www.unep-wcmc.org/what-is-biodiversity_50.html |title=What is biodiversity? |publisher=United Nations Environment Programme, World Conservation Monitoring Centre}}</ref> It is a measure of the variety of organisms present in different ecosystems. This can refer to genetic variation, ecosystem variation, or species variation (number of species)<ref name=UN/> within an area, biome, or planet. Terrestrial biodiversity tends to be greater near the equator,<ref>{{cite journal |last=Gaston |first=Kevin J. |title=Global patterns in biodiversity|journal=Nature|date=11 May 2000 |volume=405 |issue=6783 |pages=220–227 |doi=10.1038/35012228 |pmid=10821282}}</ref> which seems to be the result of the warm climate and high primary productivity.<ref>{{cite journal | last=Field | first=Richard | author2=Hawkins, Bradford A.; Cornell, Howard V.; Currie, David J.; Diniz-Filho, J. Alexandre F.; Guégan, Jean-François; Kaufman, Dawn M.; Kerr, Jeremy T.; Mittelbach, Gary G.; Oberdorff, Thierry; O’Brien, Eileen M.; Turner, John R. G.|title=Spatial species-richness gradients across scales: a meta-analysis|journal=Journal of Biogeography|date=1 January 2009|volume=36|issue=1|pages=132–147|doi=10.1111/j.1365-2699.2008.01963.x}}</ref> Biodiversity is not distributed evenly on Earth. It is richest in the tropics. Marine biodiversity tends to be highest along coasts in the Western Pacific, where sea surface temperature is highest and in the mid-latitudinal band in all oceans. | |||
===Origin and evolutionary history of life=== | ===Origin and evolutionary history of life=== | ||
* {{annotated link|Abiogenesis}} | * {{annotated link|Abiogenesis}} | ||
* {{annotated link| |
* {{annotated link|History of life}} | ||
* {{annotated link|Timeline of evolutionary history of life}} | * {{annotated link|Timeline of the evolutionary history of life}} | ||
===Evolution of organisms=== | ===Evolution of organisms=== | ||
Line 279: | Line 286: | ||
** {{annotated link|Evolution of mammals}} | ** {{annotated link|Evolution of mammals}} | ||
*** {{annotated link|Evolution of cetaceans}} | *** {{annotated link|Evolution of cetaceans}} | ||
*** {{annotated link|Evolution of horses}} | *** {{annotated link|Evolution of the horse|Evolution of horses}} | ||
*** {{annotated link|Evolution of primates}} | *** {{annotated link|Evolution of primates}} | ||
**** {{annotated link|Evolution of humans}} | **** {{annotated link|Evolution of humans}} | ||
Line 308: | Line 315: | ||
====Evolution of other taxa==== | ====Evolution of other taxa==== | ||
* |
* {{annotated link|Evolution of fungi}} | ||
* |
* {{annotated link|Evolution of viruses}} | ||
** |
** {{annotated link|Evolution of influenza}} | ||
* |
* {{annotated link|E. coli long-term evolution experiment}} | ||
===Evolution of cells, organs, and systems=== | ===Evolution of cells, organs, and systems=== | ||
* |
* {{annotated link|Evolution of cells}} | ||
* |
* {{annotated link|Evolution of flagella}} | ||
* |
* {{annotated link|Evolution of mammalian auditory ossicles}} | ||
* |
* {{annotated link|Evolution of nervous systems}} | ||
* |
* {{annotated link|Evolution of snake venom}} | ||
* |
* {{annotated link|Evolution of the brain}} | ||
* |
* {{annotated link|Evolution of the eye}} | ||
** |
** {{annotated link|Evolution of color vision}} | ||
** |
** {{annotated link|Evolution of color vision in primates}} | ||
* |
* {{annotated link|Immune system#Other mechanisms and evolution|Immune system}} | ||
* |
* {{annotated link|Metabolism#Evolution|Evolution of metabolism}} | ||
===Evolution of molecules and genes=== | ===Evolution of molecules and genes=== | ||
* |
* {{annotated link|Directed evolution}} | ||
* |
* {{annotated link|Error threshold (evolution)}} | ||
* {{annotated link|Gene-centered view of evolution}} | |||
* ] | |||
* {{annotated link|Genome evolution}} | |||
* ] | |||
* |
* {{annotated link|Hologenome theory of evolution}} | ||
* |
* {{annotated link|Models of DNA evolution}} | ||
* |
* {{annotated link|Molecular evolution}} | ||
* |
** {{annotated link|History of molecular evolution}} | ||
** |
** {{annotated link|Neutral theory of molecular evolution}} | ||
** |
** {{annotated link|Nearly neutral theory of molecular evolution}} | ||
* {{annotated link|Neutral network (evolution)}} | |||
* |
* {{annotated link|RNA-based evolution}} | ||
* ] | |||
===Evolution of behaviour=== | ===Evolution of behaviour=== | ||
* |
* {{annotated link|Co-operation (evolution)}} | ||
* |
* {{annotated link|Evolution of biparental care in tropical frogs}} | ||
* |
* {{annotated link|Evolution of emotion}} | ||
* |
* {{annotated link|Empathy#Evolution|Evolution of empathy}} | ||
* |
* {{annotated link|Evolution of eusociality}} | ||
* |
* {{annotated link|Monogamy in animals}} | ||
* |
* {{annotated link|Reciprocal altruism}} | ||
* |
* {{annotated link|Reciprocity (evolution)}} | ||
===Evolution of other processes=== | ===Evolution of other processes=== | ||
* |
* {{annotated link|Evolution of ageing}} | ||
** |
** {{annotated link|Death#Evolution of aging and mortality|Evolution of aging and mortality}} | ||
** |
** {{annotated link|Programmed cell death#Evolutionary origin|Origin of programmed cell death}} | ||
* |
* {{annotated link|Origin of avian flight}} | ||
* |
* {{annotated link|Evolution of biological complexity}} | ||
* |
* {{annotated link|Mosaic evolution}} | ||
* |
* {{annotated link|Evolution of multicellularity}} | ||
* |
* {{annotated link|Evolution of sexual reproduction}} | ||
** |
** {{annotated link|Mating type}}s | ||
** |
** {{annotated link|Anisogamy#Evolution of anisogamy|Gamete differentiation/sexes}} | ||
** |
** {{annotated link|Sex-determination system#Evolution of sex-determination systems|Sex-determination}} | ||
** |
** {{annotated link|Biological life cycle|Life cycles/nuclear phases}} | ||
==Applications in other disciplines== | ==Applications in other disciplines== | ||
* {{annotated link|Applications of evolution}} | |||
* ] – practical applications in fields such as ecology, artificial intelligence, medicine, and computer science | |||
* |
* {{annotated link|Biological anthropology}} | ||
* |
* {{annotated link|Evolutionary aesthetics}} | ||
* |
* {{annotated link|Evolutionary anthropology}} | ||
* |
* {{annotated link|Evolutionary computation}} | ||
** {{annotated link|Evolutionary algorithm}} | |||
* ] – | |||
* {{annotated link|Evolutionary economics}} | |||
** ] – | |||
** {{annotated link|Kenneth Boulding's evolutionary perspective}} | |||
* ] – | |||
* |
* {{annotated link|Evolutionary epistemology}} | ||
* |
* {{annotated link|Evolutionary ethics}} | ||
* |
* {{annotated link|Evolutionary linguistics}} | ||
* |
* {{annotated link|Evolutionary medicine}} | ||
* |
* {{annotated link|Evolutionary neuroscience}} | ||
* {{annotated link|Evolutionary psychology}} | |||
** ] – | |||
** {{annotated link|Biosocial criminology}} | |||
** ] – | |||
** {{annotated link|Criticism of evolutionary psychology}} | |||
** ] – | |||
** |
** {{annotated link|Evolution of morality}} | ||
** {{annotated link|Evolution of schizophrenia}} | |||
** ] – | |||
** |
** {{annotated link|Evolutionary aesthetics}} | ||
** {{annotated link|Evolutionary approaches to depression}} | |||
** ] – | |||
** {{annotated link|Evolutionary developmental psychology}} | |||
** |
*** {{annotated link|Evolutionary developmental psychopathology}} | ||
** {{annotated link|Evolutionary educational psychology}} | |||
** ] – | |||
** |
** {{annotated link|Evolutionary ethics}} | ||
** {{annotated link|Evolutionary leadership theory}} | |||
** ] – | |||
** |
** {{annotated link|Evolutionary musicology}} | ||
** |
** {{annotated link|Evolutionary origin of religions}} | ||
** |
** {{annotated link|Evolutionary psychology of language}} | ||
** |
** {{annotated link|Evolutionary psychology of parenting}} | ||
** |
** {{annotated link|Evolutionary psychology of religion}} | ||
** {{annotated link|Theoretical foundations of evolutionary psychology}} | |||
* ] – | |||
* {{annotated link|Evolutionary robotics}} | |||
* {{annotated link|Evolutionary systems}} | |||
* {{annotated link|Sociobiology}} | |||
** {{annotated link|Sociocultural evolution}} | |||
** {{annotated link|Cultural evolution}} | |||
* {{annotated link|Universal Darwinism}} | |||
==Evolutionary issues== | ==Evolutionary issues== | ||
===Controversy about evolution=== | ===Controversy about evolution=== | ||
* |
* {{annotated link|Creation–evolution controversy}} | ||
** {{annotated link|Outline of the creation–evolution controversy}} | |||
* |
* {{annotated link|Criticism of evolutionary psychology}} | ||
* |
* {{annotated link|Evolutionary argument against naturalism}} | ||
* |
* {{annotated link|Level of support for evolution}} | ||
* |
* {{annotated link|Objections to evolution}} | ||
* |
* {{annotated link|Social effects of evolutionary theory}} | ||
* |
* {{annotated link|Theology of creationism and evolution}} | ||
===Religious and philosophical views of evolution=== | ===Religious and philosophical views of evolution=== | ||
* |
* {{annotated link|Acceptance of evolution by religious groups}} | ||
* |
* {{annotated link|Conscious evolution}} | ||
* |
* {{annotated link|Buddhism and evolution}} | ||
* |
* {{annotated link|Catholic Church and evolution}} | ||
* |
* {{annotated link|Hindu views on evolution}} | ||
* |
* {{annotated link|Islamic views on evolution}} | ||
* |
** {{annotated link|Ahmadiyya views on evolution}} | ||
* {{annotated link|Jewish views on evolution}} | |||
* |
* {{annotated link|Mormon views on evolution}} | ||
* |
* {{annotated link|Theistic evolution}} | ||
* ] | |||
=== Influence of evolutionary theory === | === Influence of evolutionary theory === | ||
* |
* {{annotated link|Social effects of evolutionary theory}} | ||
* See also '']'' | * See also '']'' | ||
Line 436: | Line 448: | ||
* '']'' – book by zoologist and evolutionary biologist ], canonical publication of ], first published in 1942 by ] | * '']'' – book by zoologist and evolutionary biologist ], canonical publication of ], first published in 1942 by ] | ||
* '']'' – technical book on macroevolutionary theory by the Harvard paleontologist Stephen Jay Gould | * '']'' – technical book on macroevolutionary theory by the Harvard paleontologist Stephen Jay Gould | ||
* |
* {{annotated link|Evolutionary Biology (textbook)|''Evolutionary Biology''}} | ||
===Journals=== | ===Journals=== | ||
* {{annotated link|Evolution (journal)|''Evolution''}} | |||
* ] – monthly scientific journal published by the Society for Study of Evolution (also called ''International Journal of Organic Evolution'') | |||
* |
* {{annotated link|Evolutionary Anthropology (journal)|''Evolutionary Anthropology''}} | ||
* {{annotated link|Evolutionary Bioinformatics|''Evolutionary Bioinformatics''}} | |||
* ] – | |||
* |
* {{annotated link|Evolutionary Psychology (journal)|''Evolutionary Psychology''}} | ||
* |
* {{annotated link|Journal of Evolutionary Biology|''Journal of Evolutionary Biology''}} | ||
* {{annotated link|Journal of Zoological Systematics and Evolutionary Research|''Journal of Zoological Systematics and Evolutionary Research''}} | |||
* ] – Elsevier journal of review articles about ecology and evolution | |||
* {{annotated link|Trends (journals)|''Trends in Ecology & Evolution''|abbreviation=TREE}} | |||
===Organizations=== | ===Organizations=== | ||
<!--* |
<!--* {{annotated link|Center for Evolutionary Psychology}} --> | ||
<!--* |
<!--* {{annotated link|Department of Ecology and Evolutionary Biology, University of Colorado at Boulder}} --> | ||
* |
* {{annotated link|European Society for Evolutionary Biology}} | ||
* |
* {{annotated link|Society for the Study of Evolution}} | ||
* |
* {{annotated link|Evolutionary psychology research groups and centers}} | ||
* |
* {{annotated link|I. M. Sechenov Institute of Evolutionary Physiology and Biochemistry}} | ||
* |
* {{annotated link|Max Planck Institute for Evolutionary Anthropology}} | ||
* |
* {{annotated link|Max Planck Institute for Evolutionary Biology}} | ||
* |
* {{annotated link|National Evolutionary Synthesis Center}} | ||
* |
* {{annotated link|Systematic and Evolutionary Biogeography Association}} | ||
* |
* {{annotated link|Evolutionary Informatics Lab}} | ||
==Evolution scholars and researchers== | ==Evolution scholars and researchers== | ||
* |
* {{annotated link|List of evolutionary psychologists}} | ||
* |
* {{annotated link|List of members of the National Academy of Sciences (Evolutionary biology)}} | ||
===Prominent evolutionary biologists=== | ===Prominent evolutionary biologists=== | ||
* |
* {{annotated link|Charles Darwin}} | ||
* |
* {{annotated link|Theodosius Dobzhansky}} | ||
* |
* {{annotated link|Richard Dawkins}} | ||
* |
* {{annotated link|Stephen Jay Gould}} | ||
* |
* {{annotated link|J. B. S. Haldane}} | ||
* |
* {{annotated link|Julian Huxley}} | ||
* |
* {{annotated link|Thomas Henry Huxley}} | ||
* |
* {{annotated link|Ronald Fisher}} | ||
* |
* {{annotated link|Ernst Mayr}} | ||
* {{annotated link|Alfred Russel Wallace}} | |||
* ] | |||
* {{annotated link|Sewall Wright}} | |||
==See also== | ==See also== | ||
{{portal|Evolutionary biology}} | {{portal|Evolutionary biology}} | ||
* {{annotated link|Outline of biology}} | |||
* |
** {{annotated link|Outline of genetics}} | ||
** ] | |||
<!-- place the following, remove those that don't belong in this outline --> | <!-- place the following, remove those that don't belong in this outline --> | ||
* {{annotated link|Biogeography}} | |||
* {{annotated link|Conscious evolution}} | |||
* ] – | |||
* {{annotated link|Ecology and Evolutionary Biology}} | |||
* ] – claim that humanity has acquired the ability to choose what the species Homo sapiens becomes in the future, based on recent advancements in science, medicine, technology, psychology, sociology, and spirituality. Conscious evolution assumes that human beings may be positioned at the crest of the ongoing evolution of the universe. | |||
* {{annotated link|Effective evolutionary time}} | |||
* ] – degree program, in some North American universities, offering integrated studies in the disciplines of ecology and evolutionary biology. | |||
* {{annotated link|Evolutionary acquisition of neural topologies}} | |||
* ] – hypothesis that attempts to explain gradients, in particular latitudinal gradients, in species diversity. It was originally named "time hypothesis".<ref name="Latitudinal gradients(1978a)">K. Rohde: Latitudinal gradients in species diversity and their causes. I. A review of the hypotheses explaining the gradients. Biologisches Zentralblatt 97, 393-403, 1978a.</ref><ref name="Latitudinal gradients(1978b)">K. Rohde: Latitudinal gradients in species diversity and their causes. II. Marine parasitological evidence for a time hypothesis. Biologisches Zentralblatt 97, 405-418, 1978b.</ref> | |||
* |
* {{annotated link|Evolutionary anachronism}} | ||
* |
* {{annotated link|Evolutionary approaches to depression}} | ||
* {{annotated link|Evolutionary argument against naturalism}} | |||
* ] – | |||
* |
* {{annotated link|Evolutionary art}} | ||
** {{annotated link|Evolutionary music}} | |||
* ] – | |||
* {{annotated link|Evolutionary baggage}} | |||
* ] – part of the genome of a population that was advantageous in past individuals but is disadvantageous under the pressures exerted by natural selection today.<ref>Appenzeller, T. 1999. "Test tube evolution catches time in a bottle." ''Science.'' 284: 2108-2110</ref> | |||
* {{annotated link|Evolutionary Humanism}} | |||
* ] – peer-reviewed open access scientific journal focusing on computational biology in the study of evolution. | |||
* {{annotated link|Evolutionary informatics}} | |||
* ] – philosophy that mixes teachings about Enlightenment from Eastern traditions with a Western scientific understanding of evolution. | |||
* |
* {{annotated link|Evolutionary landscape}} | ||
* {{annotated link|Evolutionary Principle}} | |||
* ] – subfield of informatics addressing the practice of information processing in, and the engineering of information systems for, the study of biological evolution, as well as the study of information in evolutionary systems, natural and artificial. | |||
* {{annotated link|Extinction}} | |||
* ] – metaphor;<ref name=Wright1932>Wright, Sewall (1932) The Roles of Mutation, Inbreeding, Crossbreeding, and Selection in Evolution. ''Proceedings of the Sixth International Congress of Genetics'' 1: 356-366</ref> (construct) used to think about and visualize the processes of ] (e.g. ] and ]) acting on a biological entity <ref name=Wright1988>Wright, Sewall (1988) Surfaces of Selective Value Revisited. ''The American Naturalist'' 131(1):115-123</ref> ( e.g., a ], ], ], ]).<ref name=Lee2008>Lee, Carol E. & Gelebiuk, Gregory W. (2008) Evolutionary origins of invasive populations. "Evolutionary Applications" 1: 427-448.</ref> This entity can be viewed as searching or moving through a search space. For example, the search space of a gene would be all possible nucleotide sequences. The search space is only part of an evolutionary landscape. The final component is the "y-axis," which is usually ]. | |||
** {{annotated link|Extinction event}} | |||
* ] – | |||
** {{annotated link|Human extinction}} | |||
* ] – | |||
** {{annotated link|Local extinction}} | |||
* ] – death of an entire species. The moment of extinction is generally considered to be the death of the last individual of the species, although the capacity to breed and recover may have been lost before this point. Extinction is the end of the evolution of a species, but related branches of the taxonomy may live on. | |||
* {{annotated link|MEGA, Molecular Evolutionary Genetics Analysis}} | |||
** ] – widespread and rapid decrease in the amount of life on Earth. Such an event is identified by a sharp reduction in the diversity and abundance of macroscopic life. Also known as a mass extinction or biotic crisis. | |||
* {{annotated link|Sloshing bucket model of evolution}} | |||
** ] – hypothesized end of the human species. Various scenarios have been discussed in science, popular culture and religion ''(see ])'' | |||
* {{annotated link|Spandrel (biology)}} | |||
** ] (extirpation) – condition of a species (or other taxon) that ceases to exist in the chosen geographic area of study, though it still exists elsewhere. Local extinctions are contrasted with global extinctions. Local extinction can be reversed by reintroduction of the species to the area from other locations; wolf reintroduction is an example of this.* '']'' – | |||
* {{annotated link|Speculative evolution}} | |||
* ] – freely available software for conducting statistical analysis of molecular evolution and for constructing phylogenetic trees. | |||
* |
* {{annotated link|Transitional fossil}} | ||
==References== | |||
{{Reflist}} | |||
==External links== | ==External links== | ||
{{ |
{{sister project links|Evolution}} | ||
;General information | ;General information | ||
* {{In Our Time|Evolution|p00545gl|Evolution}} | * {{In Our Time|Evolution|p00545gl|Evolution}} | ||
* {{cite web |url = https://www.newscientist.com/topic/evolution |title = Evolution |publisher = New Scientist | |
* {{cite web |url = https://www.newscientist.com/topic/evolution |title = Evolution |publisher = New Scientist |access-date = May 30, 2011 }} | ||
* {{cite web |url = http://nationalacademies.org/evolution/ |title = Evolution Resources from the National Academies |publisher = ] | |
* {{cite web |url = http://nationalacademies.org/evolution/ |title = Evolution Resources from the National Academies |publisher = ] |access-date = May 30, 2011 }} | ||
* {{cite web |url = http://evolution.berkeley.edu/ |title = Understanding Evolution: your one-stop resource for information on Evolution |publisher = University of California, Berkeley | |
* {{cite web |url = http://evolution.berkeley.edu/ |title = Understanding Evolution: your one-stop resource for information on Evolution |publisher = University of California, Berkeley |access-date = May 30, 2011 }} | ||
* {{cite web |url = https://www.nsf.gov/news/special_reports/darwin/textonly/index.jsp |title = Evolution of Evolution – 150 Years of Darwin's "On the Origin of Species" |publisher = ] | |
* {{cite web |url = https://www.nsf.gov/news/special_reports/darwin/textonly/index.jsp |title = Evolution of Evolution – 150 Years of Darwin's "On the Origin of Species" |publisher = ] |access-date = May 30, 2011 }} | ||
* – ], ] (August 2016). | * – ], ] (August 2016). | ||
;Experiments concerning the process of biological evolution | ;Experiments concerning the process of biological evolution | ||
* {{cite web |url = http://myxo.css.msu.edu/index.html |title = Experimental Evolution – Michigan State University|author = Lenski RE| |
* {{cite web |url = http://myxo.css.msu.edu/index.html |title = Experimental Evolution – Michigan State University|author = Lenski RE|author-link=Richard Lenski|access-date = July 31, 2013}} | ||
* , ''Proceedings of the National Academy of Sciences of the USA'' | * , ''Proceedings of the National Academy of Sciences of the USA'' | ||
;Online lectures | ;Online lectures | ||
* {{cite web |url = http://www.molbio.wisc.edu/carroll/Fittest.html |title = The Making of the Fittest |author = Carroll SB | |
* {{cite web |url = http://www.molbio.wisc.edu/carroll/Fittest.html |title = The Making of the Fittest |author = Carroll SB |author-link = Sean B. Carroll |access-date = May 30, 2011 |url-status = dead |archive-url = https://web.archive.org/web/20110718090526/http://www.molbio.wisc.edu/carroll/Fittest.html |archive-date = July 18, 2011 }} | ||
* {{cite web |url = http://oyc.yale.edu/ecology-and-evolutionary-biology/principles-of-evolution-ecology-and-behavior/ |title = Principles of Evolution, Ecology and Behavior |author = Stearns SC | |
* {{cite web |url = http://oyc.yale.edu/ecology-and-evolutionary-biology/principles-of-evolution-ecology-and-behavior/ |title = Principles of Evolution, Ecology and Behavior |author = Stearns SC |author-link = Stephen C. Stearns |access-date = August 30, 2011 |url-status = dead |archive-url = https://web.archive.org/web/20110323050059/http://oyc.yale.edu/ecology-and-evolutionary-biology/principles-of-evolution-ecology-and-behavior |archive-date = March 23, 2011 }} | ||
{{Outline footer}} | {{Outline footer}} | ||
] | ] | ||
] | |||
] | ] |
Latest revision as of 21:37, 9 October 2024
Overview of and topical guide to change in the heritable characteristics of organisms See also: Index of evolutionary biology articles and Evolution (disambiguation)The following outline is provided as an overview of and topical guide to evolution:
Part of a series on |
Evolutionary biology |
---|
Darwin's finches by John Gould |
Processes and outcomes |
Natural history |
History of evolutionary theory |
Fields and applications
|
Social implications |
In biology, evolution is change in the heritable characteristics of biological organisms over generations due to natural selection, mutation, gene flow, and genetic drift. Also known as descent with modification. Over time these evolutionary processes lead to formation of new species (speciation), changes within lineages (anagenesis), and loss of species (extinction). "Evolution" is also another name for evolutionary biology, the subfield of biology concerned with studying evolutionary processes that produced the diversity of life on Earth.
Fundamentals about evolution
Life timeline | ||||||||||||||||||||||||||||||||||||||||||||||
This box: | ||||||||||||||||||||||||||||||||||||||||||||||
−4500 —–—–−4000 —–—–−3500 —–—–−3000 —–—–−2500 —–—–−2000 —–—–−1500 —–—–−1000 —–—–−500 —–—–0 — | Water Single-celled life Photosynthesis Eukaryotes Multicellular life P l a n t s Arthropods MolluscsFlowersDinosaurs MammalsBirdsPrimatesH a d e a n A r c h e a n P r o t e r o z o i cP h a n e r o z o i c |
| ||||||||||||||||||||||||||||||||||||||||||||
(million years ago)*Ice Ages |
Introduction
- Introduction to evolution – Non-technical overview of the subject of biological evolution
- Evolution – Gradual change in the heritable traits of organisms
- Evolution as fact and theory – Discussion of the meaning and usage of the terms evolution, fact and theory
Basic principles
- Macroevolution – Evolution on a scale at or above the level of species
- Speciation – Evolutionary process by which populations evolve to become distinct species
- Natural speciation
- Allopatric speciation – Speciation that occurs between geographically isolated populations
- Peripatric speciation – speciation in which a new species is formed from an isolated smaller peripheral populationPages displaying wikidata descriptions as a fallback
- Parapatric speciation – Speciation within a population where subpopulations are reproductively isolated
- Sympatric speciation – Evolution of a new species from an ancestor in the same location
- Artificial speciation
- Animal husbandry – Management of farm animals
- Plant breeding – Humans changing traits, ornamental/crops
- Genetic engineering – Manipulation of an organism's genome
- Hybrid speciation – Form of speciation involving hybridization between two different species
- Natural speciation
- Despeciation – Loss of a species of animal due to its combining with another species
- Anagenesis – Gradual evolutionary change in a species without splitting
- Extinction – Termination of a taxon by the death of its last member
- Speciation – Evolutionary process by which populations evolve to become distinct species
- Microevolution – Change in allele frequencies that occurs over time within a population
- Artificial selection – Breeding used to develop desired characteristics
- Natural selection – Mechanism of evolution by differential survival and reproduction of individuals
- Sexual selection – Mode of natural selection involving the choosing of and competition for mates
- Mutation – Alteration in the nucleotide sequence of a genome
- Gene flow – Transfer of genetic variation from one population to another
- Genetic drift – Concept in genetics
Subfields
- Biology – Science that studies life
- Evolutionary biology – Study of the evolution of life
- Evolutionary developmental biology – Comparison of organism developmental processes
- Genetics – Science of genes, heredity, and variation in living organisms
- Evolutionary biology – Study of the evolution of life
- Biogeography – Study of distribution of species
- Ecological genetics – Study of genetics in natural populations
- Evolutionary biology – Study of the evolution of life
- Evolutionary developmental biology – Comparison of organism developmental processes
- Evolutionary ecology – Interaction of biology and evolution
- Evolutionary physiology – Study of evolutionary changes in physiological characteristics
- Evolutionary taxonomy – Form of biological classification
- Experimental evolution – Use of laboratory and field experiments to explore evolutionary dynamics
- Molecular evolution – Process of change in the sequence composition of cellular molecules across generations
- Phylogenetics – Study of evolutionary relationships between organisms
- Population genetics – Subfield of genetics
- Paleontology – Study of life before the Holocene epoch
- Paleovirology – The study of ancient viruses
- Timeline of paleontology
- Systematics – Branch of biology
History
- Charles Darwin – English naturalist and biologist (1809–1882)
- On the Origin of Species – 1859 book on evolution by Charles Darwin
- Caricatures of Charles Darwin and his evolutionary theory in 19th-century England
- Darwinism – Theory of biological evolution
- History of evolutionary thought
- By period or event
- Evolutionary ideas of the Renaissance and Enlightenment – Changes in evolutionary philosophies
- Transmutation of species – 18th and 19th-century evolutionary ideas
- 1860 Oxford evolution debate – Discussion about evolution in Oxford, England
- Neo-Darwinism – Used to describe the combination of natural selection and genetics
- The eclipse of Darwinism – Period when evolution was widely accepted, but natural selection was not
- Evolutionary progress – Hypothesis that organisms have an innate tendency to evolve towards some goal
- Scopes Trial – 1925 US legal case in TennesseePages displaying short descriptions of redirect targets
- Modern synthesis – Fusion of natural selection with Mendelian inheritance
- Extended evolutionary synthesis – Set of theoretical concepts concerning evolutionary biology
- Current research – Study of the evolution of life
- By field
- Evolutionary developmental biology – Comparison of organism developmental processes
- History of evolutionary psychology
- History of molecular evolution – History of the field of study
- History of paleontology
- By period or event
- Social effect of evolutionary theory – Effects on human societies of the scientific explanation of life's diversityPages displaying short descriptions of redirect targets
Evolutionary theory and modelling
See also Basic principles (above)
Population genetics
- Population genetics – Subfield of genetics
- Process
- Mutation – Alteration in the nucleotide sequence of a genome
- Selection – Mechanism of evolution by differential survival and reproduction of individualsPages displaying short descriptions of redirect targets
- Natural selection – Mechanism of evolution by differential survival and reproduction of individuals
- Sexual selection – Mode of natural selection involving the choosing of and competition for mates
- Artificial selection – Breeding used to develop desired characteristics
- Ecological selection – Mechanism of evolution by differential survival and reproduction of individualsPages displaying short descriptions of redirect targets
- Natural selection – Mechanism of evolution by differential survival and reproduction of individuals
- Gene flow – Transfer of genetic variation from one population to another
- Genetic drift – Concept in genetics
- Small population size – Statistical effects of small numbers on a population
- Population bottleneck – Effects of a sharp reduction in numbers on the diversity and robustness of a population
- Founder effect – Effect in population genetics
- Coalescent theory – Model for tracing the history of genetic variation
- Variation
- Genetic variation – Difference in DNA among individuals or populations
- Genetic diversity – Total number of genetic characteristics in a species
- Gene frequency – The relative frequency of a variant of a gene at a particular locus in a population
- Polymorphism (biology) – Occurrence of two or more clearly different morphs or forms in the population of a species
- Genetic variation – Difference in DNA among individuals or populations
- Key concepts
- Hardy-Weinberg law – Principle in genetics
- Genetic linkage – Tendency of DNA sequences that are close together on a chromosome to be inherited together
- Identity by descent – Identical nucleotide sequence due to inheritance without recombination from a common ancestor
- Linkage disequilibrium – Allele association in population genetics
- Fisher's fundamental theorem – Principle relating genetic variance to fitness
- Neutral theory – Theory of evolution by changes at the molecular level
- Shifting balance theory – One version of the theory of evolution
- Price equation – Description of how a trait or gene changes in frequency over time
- Coefficient of relationship – Mathematical guess about inbreeding
- Fitness – Expected reproductive success
- Heritability – Estimation of effect of genetic variation on phenotypic variation of a trait
- Effects of selection
- Genetic hitchhiking – Phenomenon in biology
- Negative selection (natural selection) – Selective removal of alleles that are deleterious
- Related topics
- Microevolution – Change in allele frequencies that occurs over time within a population
- Evolutionary game theory – Application of game theory to evolving populations in biology
- Fitness landscape – Model used to visualise relationship between genotypes and reproductive success
- Genetic genealogy – DNA testing to infer relationships
- Quantitative genetics – Study of the inheritance of continuously variable traits
Evolutionary phenomena
- Adaptation – Process that fits organisms to their environment
- Adaptive radiation – A process in which organisms diversify rapidly from an ancestral species
- Coevolution – Two or more species influencing each other's evolution
- Concerted evolution
- Convergent evolution – Independent evolution of similar features
- List of examples of convergent evolution – Examples of separate lineages of organisms developing similar characteristics
- Divergent evolution – Accumulation of differences between closely related species populations, leading to speciation
- Divergent evolution in animals – Accumulation of differences between closely related species populations, leading to speciationPages displaying short descriptions of redirect targets
- Evolution of ageing – Study of the evolutionary development of ageing processes
- Evolution of biological complexity – Tendency for maximum complexity to increase over time, though without any overall direction
- Evolution of multicellularity – Organism that consists of more than one cellPages displaying short descriptions of redirect targets
- Evolution of photosynthesis – Origin and subsequent evolution of the process by which light energy is used to synthesize sugars
- Evolution of sexual reproduction
- Evolutionary arms race – Competition of sets of genes, traits, or species, that develop adaptations against each other
- Evolutionary capacitance – Evolutionary biology hypothesis
- Evolutionary fauna
- Evolutionary pressure – Any cause that reduces reproductive success in a proportion of a population
- Evolutionary radiation – Increase in taxonomic diversity or morphological disparity
- Evolutionary trap – Cases in which an evolved, and presumably adaptive, trait has suddenly become maladaptive
- Evolvability – Capacity of a system for adaptive evolution
- Exaptation – Function of trait, shifted by evolution
- Extinction – Termination of a taxon by the death of its last member
- Fitness (biology) – Expected reproductive success
- Inclusive fitness – Measure of evolutionary success based on the number of offspring the individual supports
- Kin selection – Evolutionary strategy favoring relatives
- Reproductive success – Passing of genes on to the next generation in a way that they too can pass on those genes
- Inclusive fitness – Measure of evolutionary success based on the number of offspring the individual supports
- Genetic recombination – Production of offspring with combinations of traits that differ from those found in either parent
- Horizontal gene transfer in evolution – Evolutionary consequences of transfer of genetic material between organisms of different taxa
- Human evolution (origins of society and culture) – Transition of human species to anthropologically modern behaviorPages displaying short descriptions of redirect targets
- Inversion (evolutionary biology) – Hypothesis in developmental biology
- Mosaic evolution – Evolution of characters at various rates both within and between species
- Parallel evolution – Similar evolution in distinct species
- Quantum evolution – Evolution where transitional forms are particularly unstable and do not last long
- Recurrent evolution – The repeated evolution of a particular character
- Robustness (evolution) – Persistence of a biological trait under uncertain conditions
- Speciation – Evolutionary process by which populations evolve to become distinct species
Modelling
- Emergent evolution – Evolutionary biology
- Epic of evolution – Evolutionary narrative that blends views
- Evolution window – Narrow band of mutation step size that is conducive to significant evolutionary progress
- Evolutionary dynamics – Study of mathematical principles in evolutionary biology
- Evolutionary game theory – Application of game theory to evolving populations in biology
- Evolutionary graph theory – Approach to studying how topology affects evolution of a population
- Evolutionary invasion analysis – Mathematical modeling of phenotypic evolution
- Largest-scale trends in evolution – Limits of increased complexity over time
Taxonomy, systematics, and phylogeny
Fundamentals
- Taxonomy – Science of naming, defining and classifying organisms
- Alpha taxonomy – The discipline of finding, describing, and naming taxa, particularly species
- Biological classification – The science of identifying, describing, defining and naming groups of biological organisms
- Binomial nomenclature – Species naming system
- Evolutionary taxonomy – Form of biological classification
- Catalogue of life – Online database and index of taxa
- Homonym (biology) – Scientific name that is identical in spelling to a name with a different type
- Integrated Taxonomic Information System – Authoritative taxonomic information on plants, animals, fungi, and microbes
- International Code of Zoological Nomenclature – Code of scientific nomenclature for animals
- International Code of Nomenclature for algae, fungi, and plants – Code of scientific nomenclature
- Linnaean taxonomy – Rank based classification system for organisms
- Phenetics – Attempt to classify organisms based on overall similarity
- Species 2000 – Federated taxonomic database system for species checklists
- Taxon – Grouping of biological populations
- Taxonomic rank – Level in a taxonomic hierarchy
- Type (biology) – Specimen(s) to which a scientific name is formally attached
- Species description – Formal description of a discovered species
- Systematics – Branch of biology
- Cladogram – Diagram used to show relations among groups of organisms with common origins
- Phylogenetic tree – Branching diagram of evolutionary relationships between organisms
- Phylogenetics – Study of evolutionary relationships between organisms
- Cladistics – Method of biological systematics in evolutionary biology
- Computational phylogenetics – Application of computational algorithms, methods and programs to phylogenetic analyses
- Common descent – Characteristic of a group of organisms with a common ancestor
- Evidence of common descent – Common ancestor evolutionary evidence
- Evolutionary grade – Non-monophyletic grouping of organisms united by morphological or physiological characteristics
- Lineage (evolution) – Sequence of populations, organisms, cells, or genes that form a line of descent
- Molecular phylogenetics – Branch of phylogeny that analyzes genetic, hereditary molecular differences
- Most recent common ancestor – Most recent individual from which all organisms in a group are directly descended
Basic concepts of phylogenetics
- Phylogenetic tree – Branching diagram of evolutionary relationships between organisms
- Phylogenetic network – Graph used to visualize evolutionary relationships, including reticulation events
- Long branch attraction – Systematic error in phylogenetics
- Clade – Group of a common ancestor and all descendants
- Grade – Non-monophyletic grouping of organisms united by morphological or physiological characteristics
- Ghost lineage – Phylogenetic lineage that is inferred to exist but has no fossil record
Inference methods
- Maximum parsimony (phylogenetics) – Optimality criterion in which the shortest possible tree that explains the data is considered best
- Minimum evolution
- Probabilistic methods
- Maximum likelihood estimation – Method of estimating the parameters of a statistical model, given observations
- Bayesian inference – Statistical method for molecular phylogenetics
- Distance matrices in phylogeny – Matrices used in construction of phylogenetic trees
- Neighbor joining – Bottom-up clustering method for creating phylogenetic trees
- Unweighted Pair Group Method with Arithmetic Mean (UPGMA) – Agglomerative hierarchical clustering method
- Least squares inference in phylogeny – Generation of phylogenetic trees based on an observed matrix of pairwise genetic distances
- Three-taxon analysis – Cladistic based method of phylogenetic reconstruction
Current topics
- PhyloCode, also known as International Code of Phylogenetic Nomenclature – Proposed code of nomenclature for clades
- DNA barcoding – Method of species identification using a short section of DNA
- Molecular phylogenetics – Branch of phylogeny that analyzes genetic, hereditary molecular differences
- Phylogenetic comparative methods – Use of information on the historical relationships of lineages to test evolutionary hypotheses
- Phylogenetic network – Graph used to visualize evolutionary relationships, including reticulation events
- Phylogenetic niche conservatism – Tendency of lineage to retain ancestral traits
- List of phylogenetics software – Compilation of software used to produce phylogenetic trees
- Phylogenomics – Intersection of the fields of evolution and genomics
- Phylogeography – Subfield of genealogy
- DNA phylogeny
Group Traits
- Symplesiomorphy – An ancestral character or trait state shared by two or more taxa
- Apomorphy – Two concepts on heritable traitsPages displaying short descriptions of redirect targets
- Synapomorphy – Two concepts on heritable traitsPages displaying short descriptions of redirect targets
- Autapomorphy – Distinctive feature, known as a derived trait, that is unique to a given taxon
Group Types
- Monophyly – Property of a group of including all taxa descendant from a common ancestral species
- Paraphyly – Type of taxonomic group
- Polyphyly – Property of a group not united by common ancestry
Evolution of biodiversity
- Biodiversity – Variety and variability of life forms
Origin and evolutionary history of life
- Abiogenesis – Life arising from non-living matter
- History of life
- Timeline of the evolutionary history of life
Evolution of organisms
Evolution of tetrapods
- Evolution of tetrapods – Evolution of four legged vertebrates and their derivatives
- Evolution of dinosaurs – Archosaurian reptiles that dominated the Mesozoic EraPages displaying short descriptions of redirect targets
- Evolution of birds – Derivation of birds from a dinosaur precursor
- Evolution of mammals – Derivation of mammals from a synapsid precursor, and the adaptive radiation of mammal species
- Evolution of cetaceans
- Evolution of horses
- Evolution of primates – Origin and diversification of primates through geologic time
- Evolution of humans – Evolutionary process leading up to the appearance of anatomically modern humans
- Evolution of human intelligence
- Human evolutionary genetics – Study of differences between human genomes
- Sexual selection in human evolution – Evolutionary effects of sexual selection on humansPages displaying short descriptions of redirect targets
- Timeline of human evolution
- Evolution of lemurs – History of primate evolution on Madagascar
- Evolution of humans – Evolutionary process leading up to the appearance of anatomically modern humans
- Evolution of sirenians – Development from a Tethytherian ancestor and radiation of species
- Evolution of reptiles – Origin and diversification of reptiles through geologic time
- Evolution of dinosaurs – Archosaurian reptiles that dominated the Mesozoic EraPages displaying short descriptions of redirect targets
Evolution of other animals
- Evolution of brachiopods – The origin and diversification of brachiopods through geologic time
- Evolution of cephalopods – Origin and diversification of cephalopods through geologic time
- Evolution of fish – Origin and diversification of fish through geologic time
- Evolution of insects – Development of insects from an ancestral crustacean and their subsequent radiation
- Evolution of butterflies – Origin and diversification of butterflies through geologic time
- Peppered moth evolution – Significance of the peppered moth in evolutionary biology
- Evolution of molluscs – The origin and diversification of molluscs through geologic time
- Evolution of spiders – Origin from a chelicerate ancestor and diversification of spiders through geologic time
Evolution of plants
- Evolution of plants – The origin and diversification of plants through geologic time
- Evolutionary anachronism – Attributes of living species that arose due to coevolution with other now-extinct species
- Plant evolution – Subset of evolutionary phenomena that concern plants
- Plant evolutionary developmental biology – Study of developmental programs and patterns in plants from an evolutionary perspective
- Timeline of plant evolution – Chronological outline of major events in the development of plants
Evolution of other taxa
- Evolution of fungi – Origin and diversification of fungi through geologic time
- Evolution of viruses – Subfield of evolutionary biology and virology concerned with the evolution of viruses
- Evolution of influenza – Infectious diseasePages displaying short descriptions of redirect targets
- E. coli long-term evolution experiment – Scientific study
Evolution of cells, organs, and systems
- Evolution of cells – Evolutionary origin and subsequent development of cells
- Evolution of flagella – Origin of three known varieties of flagella
- Evolution of mammalian auditory ossicles – Middle ear bones evolved from jaw bones
- Evolution of nervous systems – Origin and subsequent variation and development of neurons and neural tissues and organs
- Evolution of snake venom – Origin and diversification of snake venom through geologic time
- Evolution of the brain – Overview of the evolution of the brain
- Evolution of the eye – Origins and diversification of the organs of sight through geologic time
- Evolution of color vision – Origin and variation of colour vision across various lineages through geologic time
- Evolution of color vision in primates – Loss and regain of colour vision during the evolution of primates
- Immune system – Biological system protecting an organism against disease
- Evolution of metabolism – Set of chemical reactions in organisms
Evolution of molecules and genes
- Directed evolution – Protein engineering method
- Error threshold (evolution) – Theoretical limit on rate of mutation
- Gene-centered view of evolution – Theory of the "selfish gene"
- Genome evolution – Process by which a genome changes in structure or size over time
- Hologenome theory of evolution – Organism as host plus microbe community
- Models of DNA evolution – Mathematical models of changing DNA
- Molecular evolution – Process of change in the sequence composition of cellular molecules across generations
- History of molecular evolution – History of the field of study
- Neutral theory of molecular evolution – Theory of evolution by changes at the molecular level
- Nearly neutral theory of molecular evolution – Variant of one theory of evolution
- Neutral network (evolution) – Set of genes all related by point mutations that have equivalent function or fitness
- RNA-based evolution – Theory that RNA plays an independent role in determining phenotype
Evolution of behaviour
- Co-operation (evolution) – Evolutionary process where groups of organisms work or act together for common or mutual benefitsPages displaying short descriptions of redirect targets
- Evolution of biparental care in tropical frogs – Change in behaviour in frogs for care of offspring
- Evolution of emotion – Study of the evolution of emotions
- Evolution of empathy – Capacity to understand or feel what another person is experiencing
- Evolution of eusociality – Origins of cooperative brood care
- Monogamy in animals – Natural history of mating systems in which species pair bond to raise offspring
- Reciprocal altruism – Form of behaviour between organisms
- Reciprocity (evolution) – Mechanism favouring cooperative traits
Evolution of other processes
- Evolution of ageing – Study of the evolutionary development of ageing processes
- Evolution of aging and mortality – Permanent end of an organism's life
- Origin of programmed cell death – Death of a cell mediated by intracellular program, often as part of development
- Origin of avian flight – Evolution of birds from non-flying ancestors
- Evolution of biological complexity – Tendency for maximum complexity to increase over time, though without any overall direction
- Mosaic evolution – Evolution of characters at various rates both within and between species
- Evolution of multicellularity – Organism that consists of more than one cellPages displaying short descriptions of redirect targets
- Evolution of sexual reproduction
- Mating type – Term in biologys
- Gamete differentiation/sexes – Sexual reproduction involving a large, female gamete and a small, male gamete
- Sex-determination – Biological system that determines the development of an organism's sex
- Life cycles/nuclear phases – Series of stages of an organism
Applications in other disciplines
- Applications of evolution – Practical application of biological evolution
- Biological anthropology – Branch of anthropology that studies the physical development of the human species
- Evolutionary aesthetics – Evolutionary psychology theories
- Evolutionary anthropology – Interdisciplinary study
- Evolutionary computation – Trial and error problem solvers with a metaheuristic or stochastic optimization character
- Evolutionary algorithm – Subset of evolutionary computation
- Evolutionary economics – A field in economics that considers economic evolution
- Kenneth Boulding's evolutionary perspective – Approach to economic theory based on an evolutionary model
- Evolutionary epistemology – Ambiguous term applied to several concepts
- Evolutionary ethics – Study of evolution on morality or ethics
- Evolutionary linguistics – Sociobiological approaches to linguistics
- Evolutionary medicine – Application of modern evolutionary theory to understanding health and disease
- Evolutionary neuroscience – Study of the evolution of nervous systems
- Evolutionary psychology – Branch of psychology
- Biosocial criminology – Psychosocial examination of crime
- Criticism of evolutionary psychology – Controversy in psychology
- Evolution of morality – Emergence of human moral behavior over the course of human evolution
- Evolution of schizophrenia – theories on how natural selection effected the mental disorderPages displaying wikidata descriptions as a fallback
- Evolutionary aesthetics – Evolutionary psychology theories
- Evolutionary approaches to depression
- Evolutionary developmental psychology – Psychology field concerned with Darwinian evolution
- Evolutionary developmental psychopathology – Branch of psychologyPages displaying short descriptions of redirect targets
- Evolutionary educational psychology
- Evolutionary ethics – Study of evolution on morality or ethics
- Evolutionary leadership theory – Analysis of leadership from an evolutionary perspective
- Evolutionary musicology – Subfield of biomusicology
- Evolutionary origin of religions – Emergence of religious behavior discussed in terms of natural evolutionPages displaying short descriptions of redirect targets
- Evolutionary psychology of language – Study of the evolutionary history of language assuming it is a result of Darwinian adaptation
- Evolutionary psychology of parenting
- Evolutionary psychology of religion – Study of religious belief using evolutionary psychology principles
- Theoretical foundations of evolutionary psychology
- Evolutionary robotics
- Evolutionary systems
- Sociobiology – Subdiscipline of biology regarding social behavior
- Sociocultural evolution – Evolution of societies
- Cultural evolution – Evolutionary theory of social change
- Universal Darwinism – Application of Darwinian theory to other fields
Evolutionary issues
Controversy about evolution
- Creation–evolution controversy – Religious rejection of evolutionPages displaying short descriptions of redirect targets
- Outline of the creation–evolution controversy – Overview of and topical guide to the creation–evolution controversy
- Criticism of evolutionary psychology – Controversy in psychology
- Evolutionary argument against naturalism – Philosophical argument
- Level of support for evolution – Variation in support for the theory of evolution
- Objections to evolution – Arguments that have been made against evolution
- Social effects of evolutionary theory – Effects on human societies of the scientific explanation of life's diversity
- Theology of creationism and evolution – Topic in theology
Religious and philosophical views of evolution
- Acceptance of evolution by religious groups – General review of religious attitudes towards evolution
- Conscious evolution – Hypothetical ability of the human species to choose what they will become
- Buddhism and evolution – General review of religious attitudes towards evolutionPages displaying short descriptions of redirect targets
- Catholic Church and evolution – Attitude of the Catholic Church to evolution theoryPages displaying short descriptions of redirect targets
- Hindu views on evolution
- Islamic views on evolution
- Ahmadiyya views on evolution – Ahmadiyya Movement in Islam universally accepts a process of divinely guided evolution
- Jewish views on evolution – Jewish views on biological evolution
- Mormon views on evolution
- Theistic evolution – Views that religion is compatible with science
Influence of evolutionary theory
- Social effects of evolutionary theory – Effects on human societies of the scientific explanation of life's diversity
- See also Applications in other disciplines
Publications and organizations concerning evolution
Books
- Evolution: The Modern Synthesis – book by Julian Huxley (grandson of Thomas Henry Huxley); one of the most important books of modern evolutionary synthesis, published in 1942
- The Genetical Theory of Natural Selection – book by R.A. Fisher important in modern evolutionary synthesis, first published in 1930
- Genetics and the Origin of Species – 1937 book by Ukrainian-American evolutionary biologist Theodosius Dobzhansky
- On the Origin of Species – seminal book by Charles Darwin concerning evolution by natural selection, first published in 1859
- Systematics and the Origin of Species from the Viewpoint of a Zoologist – book by zoologist and evolutionary biologist Ernst Mayr, canonical publication of modern evolutionary synthesis, first published in 1942 by Columbia University Press
- The Structure of Evolutionary Theory – technical book on macroevolutionary theory by the Harvard paleontologist Stephen Jay Gould
- Evolutionary Biology – 1983 book by Eli C. MinkoffPages displaying short descriptions of redirect targets
Journals
- Evolution – Monthly journal in the science of evolutionary biology
- Evolutionary Anthropology – Bimonthly review journal
- Evolutionary Bioinformatics – Peer-reviewed scientific journal focusing on computational biology in the study of evolution
- Evolutionary Psychology – Peer-reviewed open access academic journal
- Journal of Evolutionary Biology – Bimonthly peer-reviewed scientific journal
- Journal of Zoological Systematics and Evolutionary Research – Quarterly, peer reviewed, scientific journal
- Trends in Ecology & Evolution (TREE) – Series of review journals
Organizations
- European Society for Evolutionary Biology – Organisation to support the study of organic evolution
- Society for the Study of Evolution – Professional organization of evolutionary biologists
- Evolutionary psychology research groups and centers
- I. M. Sechenov Institute of Evolutionary Physiology and Biochemistry – Research facility in Saint Petersburg, Russia
- Max Planck Institute for Evolutionary Anthropology – Research institute based in Leipzig, Germany
- Max Planck Institute for Evolutionary Biology – Research institute located in Plön, Schleswig-Holstein, Germany.
- National Evolutionary Synthesis Center – Scientific research center in Durham, North Carolina
- Systematic and Evolutionary Biogeography Association – international biogeographical communityPages displaying wikidata descriptions as a fallback
- Evolutionary Informatics Lab – American engineer and intelligent design advocate (born 1950)Pages displaying short descriptions of redirect targets
Evolution scholars and researchers
- List of evolutionary psychologists
- List of members of the National Academy of Sciences (Evolutionary biology)
Prominent evolutionary biologists
- Charles Darwin – English naturalist and biologist (1809–1882)
- Theodosius Dobzhansky – Russian-American geneticist and evolutionary biologist (1900–1975)
- Richard Dawkins – English evolutionary biologist and author (born 1941)
- Stephen Jay Gould – American biologist and historian of science (1941–2002)
- J. B. S. Haldane – Geneticist and evolutionary biologist (1892–1964)
- Julian Huxley – English biologist and philosopher (1887–1975)
- Thomas Henry Huxley – English biologist and comparative anatomist (1825–1895)
- Ronald Fisher – British polymath (1890–1962)
- Ernst Mayr – German-American evolutionary biologist (1904–2005)
- Alfred Russel Wallace – English naturalist (1823–1913)
- Sewall Wright – American geneticist (1889–1988)
See also
- Outline of biology
- Outline of genetics – Hierarchical outline list of articles related to genetics
- Biogeography – Study of distribution of species
- Conscious evolution – Hypothetical ability of the human species to choose what they will become
- Ecology and Evolutionary Biology – Interdisciplinary field of studyPages displaying short descriptions of redirect targets
- Effective evolutionary time – Hypothesis offering a causal explanation of diversity gradients
- Evolutionary acquisition of neural topologies – Method that evolves both the topology and weights of artificial neural networks
- Evolutionary anachronism – Attributes of living species that arose due to coevolution with other now-extinct species
- Evolutionary approaches to depression
- Evolutionary argument against naturalism – Philosophical argument
- Evolutionary art – Art generated by an iterated process
- Evolutionary music – Audio counterpart to evolutionary art
- Evolutionary baggage – Currently disadvantageous part of the genome
- Evolutionary Humanism – Life stance that embraces human reason, secular ethics, and philosophical naturalismPages displaying short descriptions of redirect targets
- Evolutionary informatics – Pseudoscientific argument for the existence of GodPages displaying short descriptions of redirect targets
- Evolutionary landscape – Metaphor used to visualize the processes of evolution
- Evolutionary Principle
- Extinction – Termination of a taxon by the death of its last member
- Extinction event – Widespread and rapid decrease in the biodiversity on Earth
- Human extinction – Hypothetical end of the human species
- Local extinction – Termination of a taxon in a region which it previously inhabited
- MEGA, Molecular Evolutionary Genetics Analysis – Software for statistical analysis of molecular evolutionPages displaying short descriptions of redirect targets
- Sloshing bucket model of evolution – Theory in evolutionary biology
- Spandrel (biology) – Evolutionary byproduct of some other characteristic
- Speculative evolution – Science fiction genre exploring hypothetical scenarios in the evolution of life
- Transitional fossil – Type of fossilized remains
External links
- General information
- Evolution on In Our Time at the BBC
- "Evolution". New Scientist. Retrieved May 30, 2011.
- "Evolution Resources from the National Academies". U.S. National Academy of Sciences. Retrieved May 30, 2011.
- "Understanding Evolution: your one-stop resource for information on Evolution". University of California, Berkeley. Retrieved May 30, 2011.
- "Evolution of Evolution – 150 Years of Darwin's "On the Origin of Species"". National Science Foundation. Retrieved May 30, 2011.
- Human Timeline (Interactive) – Smithsonian, National Museum of Natural History (August 2016).
- Experiments concerning the process of biological evolution
- Lenski RE. "Experimental Evolution – Michigan State University". Retrieved July 31, 2013.
- Algorithms, games, and evolution, Proceedings of the National Academy of Sciences of the USA
- Online lectures
- Carroll SB. "The Making of the Fittest". Archived from the original on July 18, 2011. Retrieved May 30, 2011.
- Stearns SC. "Principles of Evolution, Ecology and Behavior". Archived from the original on March 23, 2011. Retrieved August 30, 2011.
Misplaced Pages outlines | |
---|---|