Speciate

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Information about Speciate

Part of the Biology series on

Evolution

Mechanisms and processes

Adaptation
Genetic drift
Gene flow
Mutation
Natural selection
Speciation

Research and history

Evidence
History
Modern synthesis
Social effect / Objections

Evolutionary biology fields

Ecological genetics
Evolutionary development
Human evolution
Molecular evolution
Evolutionary history of life
Phylogenetics
Population genetics

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Speciation is the evolutionary process by which new biological species arise. There are four modes of natural speciation, based on the extent to which speciating populations are geographically isolated from one another: allopatric, peripatric, parapatric, and sympatric. Speciation may also be induced artificially, through animal husbandry or laboratory experiments. Observed examples of each kind of speciation are provided throughout.^[1]

Charles Darwin's first sketch of an evolutionary tree from his First Notebook on Transmutation of Species (1837)

Natural speciation

All forms of natural speciation have taken place over the course of evolution, though it still remains a subject of debate as to the relative importance of each mechanism in driving biodiversity. ^[2]

There is debate as to the rate at which speciation events occur over geologic time. While some evolutionary biologists claim that speciation events have remained relatively constant over time, some palaeontologists such as Niles Eldredge and Stephen Jay Gould have argued that species usually remain unchanged over long stretches of time, and that speciation occurs only over relatively brief intervals, a view known as punctuated equilibrium.

Allopatric (geographic)

Comparison of allopatric, peripatric, parapatric and sympatric speciation.

Main article: allopatric speciation

During allopatric speciation, a population splits into two geographically isolated allopatric populations (for example, by habitat fragmentation due to geographical change such as mountain building or social change such as emigration). The isolated populations then undergo genotypic and/or phenotypic divergence as they (a) become subjected to dissimilar selective pressures or (b) they independently undergo genetic drift. When the populations come back into contact, they have evolved such that they are reproductively isolated and are no longer capable of exchanging genes.

Observed instances

Island genetics, the tendency of small, isolated genetic pools to produce unusual traits, has been observed in many circumstances, including insular dwarfism and the radical changes among certain famous island chains, like Komodo and Galapagos, the latter having given rise to the modern expression of evolutionary theory, after being observed by Charles Darwin. Perhaps the most famous example of allopatric speciation is Darwin's Galápagos Finches.

Peripatric (mostly geographic)

Main article: peripatric speciation

In peripatric speciation, new species are formed in isolated, small peripheral populations which are prevented from exchanging genes with the main population. It is related to the concept of a founder effect, since small populations often undergo bottlenecks. Genetic drift is often proposed to play a significant role in peripatric speciation.

Observed instances:

Mayr bird fauna
The Australian bird Petroica multicolor
Reproductive isolation occurs in populations of Drosophila subject to population bottlenecking

Parapatric (somewhat geographic)

Main article: parapatric speciation

In parapatric speciation, the zones of two diverging populations are separate but do overlap. There is only partial separation afforded by geography, so individuals of each species may come in contact or cross the barrier from time to time, but reduced fitness of the heterozygote leads to selection for behaviours or mechanisms which prevent breeding between the two species.

Ecologists refer to parapatric and peripatric speciation in terms of ecological niches. A niche must be available in order for a new species to be successful.

Observed instances

Ring species
The Larus gulls form a ring species around the North Pole.
The Ensatina salamanders, which form a ring round the Central Valley in California.
The Greenish Warbler (Phylloscopus trochiloides), around the Himalayas.
the grass Anthoxanthum has been known to undergo parapatric speciation in such cases as mine contamination of an area.

Sympatric (non-geographic)

Main article: sympatric speciation

In sympatric speciation, species diverge while inhabiting the same place. Examples of sympatric speciation are found in insects which become dependent on different host plants in the same area.

Polyploidy is a mechanism often attributed to causing some speciation events in sympatry. Not all polyploids are reproductively isolated from their parental plants, so an increase in chromosome number may not result in the complete cessation of gene flow between the incipient polyploids and their parental diploids (see also hybrid speciation).

Observed instances

Polyploidy is observed in many species of both plant and animal:

wheat
Salsify or goatsbeard
Cichlids of Lake Victoria, Lake Tanganyika and Lake Malawi
Xenopus laevis, an African frog

Reinforcement

Reinforcement is the process by which natural selection increases reproductive isolation.^[3] It may occur after two populations of the same species are separated and then come back into contact. If their reproductive isolation was complete, then they will have already developed into two separate incompatible species. If their reproductive isolation is incomplete, then further mating between the populations will produce hybrids, which may or may not be fertile. If the hybrids are infertile, or fertile but less fit than their ancestors, then there will be no further reproductive isolation and speciation has essentially occurred (e.g., as in horses and donkeys.) If the hybrid offspring are more fit than their ancestors, then the populations will merge back into the same species within the area they are in contact.

Reinforcement is required for both parapatric and sympatric speciation. Without reinforcement, the geographic area of contact between different forms of the same species, called their "hybrid zone," will not develop into a boundary between the different species. And also without reinforcement they will have uncontrollable interbreeding. Reinforcement may be induced in artificial selection experiments as described below.

Artificial speciation

New species have been created by domesticated animal husbandry, but the initial dates and methods of the initiation of such species are not clear. For example, domestic sheep were created by hybridisation, and no longer produce viable offspring with Ovis orientalis, one species from which they are descended.^[4] Domestic cattle, on the other hand, can be considered the same species as several varieties of wild ox, gaur, yak, etc., as they readily produce fertile offspring with them.^[5]

The best-documented creations of new species in the laboratory were performed in the late 1980s. William Rice and G.W. Salt bred fruit flies, Drosophila melanogaster, using a maze with three different choices such as light/dark and wet/dry. Each generation was placed into the maze, and the groups of flies which came out of two of the eight exits were set apart to breed with each other in their respective groups. After thirty-five generations, the two groups and their offspring would not breed with each other even when doing so was their only opportunity to reproduce.^[6]

Diane Dodd was also able to show allopatric speciation by reproductive isolation in Drosophila pseudoobscura fruit flies after only eight generations using different food types, starch and maltose.^[7] Dodd's experiment has been easy for many others to replicate, including with other kinds of fruit flies and foods.^[8]

The history of such attempts is described in Rice and Hostert (1993).^[9]

Genetics

Hybrid speciation

Main article: Hybrid speciation

Hybridization between two different species sometimes leads to a distinct phenotype. This phenotype can also be fitter than the parental lineage and as such natural selection may then favor these individuals. Eventually, if reproductive isolation is achieved, it may lead to a separate species. However, reproductive isolation between hybrids and their parents is particularly difficult to achieve and thus hybrid speciation is considered an extremely rare event. The Mariana Mallard arose from hybrid speciation.

Hybridization without change in chromosome number is called homoploid hybrid speciation. It is considered very rare but has been shown in Heliconius butterflies ^[10] and sunflowers. Polyploid speciation, which involves changes in chromosome number, is a more common phenomena, especially in plant species.

Gene transposition as a cause

Theodosius Dobzhansky, who studied fruit flies in the early days of genetic research in 1930s, speculated that parts of chromosomes that switch from one location to another might cause a species to split into two different species. He mapped out how it might be possible for sections of chromosomes to relocate themselves in a genome. Those mobile sections can cause sterility in inter-species hybrids, which can act as a speciation pressure. In theory, his idea was sound, but scientists long debated whether it actually happened in nature. Eventually a competing theory involving the gradual accumulation of mutations was shown to occur in nature so often that geneticists largely dismissed the moving gene hypothesis.^[11]

However, recent research shows that jumping of a gene from one chromosome to another can contribute to the birth of new species.^[12] This validates the reproductive isolation mechanism, a key component of speciation.^[13]

Interspersed repeats

Main article: Interspersed repeat

Interspersed repetitive DNA sequences function as isolating mechanisms. These repeats protect newly evolving gene sequences from being overwritten by gene conversion, due to the creation of non-homologies between otherwise homologous DNA sequences. The non-homologies create barriers to gene conversion. This barrier allows nascent novel genes to evolve without being overwritten by the progenitors of these genes. This uncoupling allows the evolution of new genes, both within gene families and also allelic forms of a gene. The importance is that this allows the splitting of a gene pool without requiring physical isolation of the organisms harboring those gene sequences.

Human speciation

Humans have genetic similarities with chimpanzees and gorillas, suggesting common ancestors. Analysis of genetic drift and recombination suggests humans and chimpanzees speciated apart 4.1 million years ago.^[14]

References

1. ^ Observed Instances of Speciation by Joseph Boxhorn. Retrieved 28 October 2006.
2. ^ J.M. Baker (2005). "Adaptive speciation: The role of natural selection in mechanisms of geographic and non-geographic speciation". Studies in History and Philosophy of Biological and Biomedical Sciences 36: 303-326. available online
3. ^ Ridley, M. (2003) "Speciation - What is the role of reinforcement in speciation?" adapted from Evolution 3rd edition (Boston: Blackwell Science) tutorial online
4. ^ Hiendleder S., et al. (2002) "Molecular analysis of wild and domestic sheep questions current nomenclature and provides evidence for domestication from two different subspecies" Proceedings of the Royal Society B: Biological Sciences 269:893-904
5. ^ Nowak, R. (1999) Walker's Mammals of the World 6th ed. (Baltimore: Johns Hopkins University Press)
6. ^ Rice, W.R. and G.W. Salt (1988). "Speciation via disruptive selection on habitat preference: experimental evidence". The American Naturalist 131: 911-917.
7. ^ Dodd, D.M.B. (1989) "Reproductive isolation as a consequence of adaptive divergence in Drosophila pseudoobscura." Evolution 43:1308–1311.
8. ^ Kirkpatrick, M. and V. Ravigné (2002) "Speciation by Natural and Sexual Selection: Models and Experiments" The American Naturalist 159:S22–S35 DOI
9. ^ W.R. Rice and E.E. Hostert (1993). "Laboratory experiments on speciation: What have we learned in forty years?". Evolution 47: 1637-1653.
10. ^ Mavarez, J.; Salazar, C.A., Bermingham, E., Salcedo, C., Jiggins, C.D. , Linares, M. (2006). "Speciation by hybridization in Heliconius butterflies". Nature.
11. ^ [1]
12. ^ Masly, John P., Corbin D. Jones, Mohamed A. F. Noor, John Locke, and H. Allen Orr (September 2006). "Gene Transposition as a Cause of Hybrid Sterility in Drosophila". Science 313 (5792): pp. 1448-1450. Retrieved on 2007-03-18.
13. ^ Minkel, J.R. (September 8, 2006) "Wandering Fly Gene Supports New Model of Speciation" Science News
14. ^ Hobolth A, Christensen OF, Mailund T, Schierup MH (2007) "Genomic Relationships and Speciation Times of Human, Chimpanzee, and Gorilla Inferred from a Coalescent Hidden Markov Model." PLoS Genet 3(2): e7 (doi:10.1371/journal.pgen.0030007)

External links

Observed Instances of Speciation from the Talk.Origins Frequently Asked Questions
Speciation, and
Evidence for Speciation from Understanding Evolution by the University of California Museum of Paleontology
Speciation from John Hawks' Anthropology Weblog - paleoanthropology, genetics, and evolution

• • [ e] Speciation guide
Basic concepts:	Species • Chronospecies • Speciation • Cline
Modes of speciation:	Allopatric • Peripatric • Parapatric • Sympatric • Polyploidy • Paleopolyploidy
Auxiliary mechanisms:	Sexual selection • Assortative mating • Punctuated equilibrium
Intermediate stages:	Hybrid • Haldane's rule • Ring species

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Basic topics in

Evidence of evolution Processes of evolution: adaptation - macroevolution - microevolution - speciation Population genetic mechanisms: natural selection - genetic drift - gene flow - mutation Evolutionary developmental biology (Evo-devo) concepts: phenotypic plasticity - canalisation - modularity Modes of evolution: anagenesis - catagenesis - cladogenesis History: History of evolutionary thought - Charles Darwin - The Origin of Species - modern evolutionary synthesis - Evolutionary history of life Other subfields: ecological genetics - human evolution - molecular evolution - phylogenetics - systematics List of evolutionary biology topics - Timeline of evolution

Biology (from Greek: βίος, bio, "life"; and λόγος, logos, "knowledge"), also referred to as the biological sciences, is the scientific study of life.
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An adaptation is a positive characteristic of an organism that has been favored by natural selection.^[1] The concept is central to biology, particularly in evolutionary biology.
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In population genetics, genetic drift (or more precisely allelic drift) is the statistical effect that results from the influence that chance has on the survival of alleles (variants of a gene).
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In population genetics, gene flow (also known as gene migration) is the transfer of alleles of genes from one population to another.
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mutations are changes to the base pair sequence of the genetic material of an organism. Mutations can be caused by copying errors in the genetic material during cell division, by exposure to ultraviolet or ionizing radiation, chemical mutagens, or viruses, or can occur deliberately
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Natural selection is the process by which favorable traits that are heritable become more common in successive generations of a population of reproducing organisms, and unfavorable traits that are heritable become less
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evidence of the theory of evolution provides a wealth of information on the natural processes by which the variety of life on Earth developed.

Fossils are important for estimating when various lineages developed.
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Evolutionary thought has roots in antiquity as philosophical ideas known to the Greeks, Romans, Indians, Chinese and Muslims. Until the 18th century, however, Western biological thought was dominated by essentialism, the idea that living forms are static and unchanging in time.
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The social effects of evolutionary thought have been considerable. As the scientific explanation of life's diversity has developed, it has often displaced alternative, sometimes very widely held, explanations.
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Evolutionary biology is a sub-field of biology concerned with the origin and descent of species, as well as their change, multiplication, and diversity over time.
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Ecological genetics is the study of genetics in the context of the interactions among organisms and between the organisms and their environment.
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Evolutionary developmental biology (evolution of development or informally, evo-devo) is a field of biology that compares the developmental processes of different animals and plants in an attempt to determine the ancestral relationship between organisms and how
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Human evolution is the part of biological evolution concerning the emergence of humans as a distinct species from other apes. It is the subject of a broad scientific inquiry that seeks to understand and describe how this change and development occurred.
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Molecular evolution is the process of evolution at the scale of DNA, RNA, and proteins. Molecular evolution emerged as a scientific field in the 1960s as researchers from molecular biology, evolutionary biology and population genetics sought to understand recent discoveries on the
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The evolutionary history of life and the origin of life are fields of ongoing geological and biological research. Although it is not necessary to understand the origin of life on earth to accept evolution by natural
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phylogenetics (Greek: phyle = tribe, race and genetikos = relative to birth, from genesis = birth) is the study of evolutionary relatedness among various groups of organisms (e.g., species, populations).
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Population genetics is the study of the allele frequency distribution and change under the influence of the four evolutionary forces: natural selection, genetic drift, mutation and gene flow. It also takes account of population subdivision and population structure in space.
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species is one of the basic units of biological classification. A species is often defined as a group of organisms capable of interbreeding and producing fertile offspring.
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Allopatric speciation, also known as geographic speciation, is the phenomenon where huge biological populations are physically isolated by an extrinsic barrier and evolve intrinsic (genetic) reproductive isolation, such that if the barrier breaks down, individuals of the
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Peripatric speciation is a form of speciation, the formation of new species through evolution. In this form, new species are formed in isolated peripheral populations; this is similar to allopatric speciation in that populations are isolated and prevented from exchanging genes.
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Parapatric speciation is a form of speciation that occurs due to variations in mating frequency of a population within a continuous geographical area.

In this model, the parent species lives in a continuous habitat, in contrast with allopatric speciation where subpopulations
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Sympatric Speciation is the genetic divergence of multiple populations (from a single parent species) inhabiting the same geographic region; such that those populations become different species.
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Animal husbandry, also called animal science, stockbreeding or simple husbandry, is the agricultural practice of breeding and raising livestock.

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Paleontology, palaeontology or palæontology (from Greek: paleo, "ancient"; ontos
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Dr. Niles Eldredge (born August 25, 1943) is an American paleontologist, who, along with Stephen Jay Gould, proposed the theory of punctuated equilibrium in 1972.

Education

Eldredge began his undergraduate studies in Latin at Columbia University.
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Stephen Jay Gould

Natural History magazine
Born September 10, 1941
Queens borough of New York City, New York
Died May 20 2002 (aged 62)

Nationality American
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