Species concepts in biology morphological species phylogenetic species biological species
Morphological species the familiar “taxonomic” description based on sets of distinguishing characteristics often works but can be misleading
Morphological species of horned lizards from Futuyma (1998), p. 463
Morphological species these morphologically similar meadowlarks sing different songs and do not interbreed: they are true species Eastern meadowlark Sternella magna Western meadowlark S. neglecta photo from Shaw Creek Bird Supply photo from USFWS
Morphological species these allopatric warblers were previously classified as distinct species but they freely interbreed Audubon’s warbler Myrtle warbler
Maps from USGS Breeding range map of myrtle warbler Breeding range map of Audubon’s warbler
In the Rocky Mountains of British Columbia and Alberta, eastern boreal forest (white and black spruce) mixes with western montane forest (Douglas fir, Engelman’s spruce, and western white spruce) Breeding range map of myrtle warbler Breeding range map of Audubon’s warbler
Intergrades between myrtle and Audubon’s warblers result from interbreeding They are now known as the Audubon’s and myrtle races of the yellow-rumped warbler Breeding range map of myrtle warbler Breeding range map of Audubon’s warbler
The phylogenetic species concept: species are monophyletic groups [tips of the tree are individuals, letters are species, numbers are populations]
Application of the phylogenetic concept helped uncover cryptic species in the copepod Eurytemora affinis
And in African elephants
Biological species “...groups of interbreeding populations that are reproductively isolated from other such groups...” Ernst Mayr
Biological species the most widely accepted and useful species concept problems: useless for asexual organisms sometimes difficult to test (e.g. allopatric species)
Biological species the most widely accepted and useful species concept problems: useless for asexual organisms sometimes difficult to test (e.g. allopatric species)
Biological species reproductive isolation: an objective criterion that is biologically significant application of the concept has born a research program
Understanding speciation? study the evolution of reproductive isolation
Reproductive isolating mechanisms prezygotic mechanisms act prior to hybrid zygote formation behavioral (mate choice) gamete recognition postzygotic mechanisms act on hybrid zygotes hybrid inviability/sterility ecological inferiority of hybrids
Prezygotic: behavioral isolation courtship and mating behaviors diverge dramatically, even between closely related species Hawaiian Drosophila do not interbreed: females reject courtship of heterospecific males
Mating behaviors can evolve rapidly Drosophila heteroneura and D. silvestris are sister species, sympatric on Hawaii from Freeman and Herron 2002 D. heteroneura has dumbbell-headed males that butt heads with other males to gain display territories on leks D. silvestris has roundy-headed males that fight other males, Greco-Roman style, for territories
Behavioral isolation mating calls of frogs and insects are species-specific females recognize conspecific calls
Prezygotic isolation by gamete incompatibility marine invertebrates and other organisms that lack mating behavior: species recognition occurs between egg and sperm
Sea urchin bindin: a gamete recognition protein involved in speciation Bindin is an adhesive protein that binds sperm to the egg surface. Without this, fertilization does not occur. Rapid change of bindin proteins creates barriers to fertilization between species. Bindin egg surface
Postzygotic reproductive isolation hybrids are often inviable or sterile
Postzygotic reproductive isolation hybrids are sometimes ecologically inferior bird predation on hybrids creates abrupt boundaries between Heliconius color races