Genetics of adaptation: Experimental test of a biotic mechanism driving divergence in traits and genes

Autor:	Seth M. Rudman, Diana J. Rennison, Dolph Schluter
Rok vydání:	2019
Předmět:	0106 biological sciences Letter diversification ecological genetics lcsh:Evolution Biology 010603 evolutionary biology 01 natural sciences 03 medical and health sciences lcsh:QH359-425 Genetics Character displacement Letters experimental evolution Adaptation Ecology Evolution Behavior and Systematics Coevolution 030304 developmental biology 0303 health sciences Experimental evolution Phenotypic plasticity Natural selection natural selection Ecological genetics Divergent evolution threespine stickleback 570 Life sciences biology
Zdroj:	Rennison, Diana J; Rudman, Seth M.; Schluter, Dolph (2019). Genetics of adaptation: experimental test of a biotic mechanism driving divergence in traits and genes. Evolution letters, 3(5), pp. 513-520. Wiley 10.1002/evl3.135 Evolution Letters, Vol 3, Iss 5, Pp 513-520 (2019) Evolution letters, vol 3, iss 5 Evolution Letters
ISSN:	2056-3744
DOI:	10.1002/evl3.135
Popis:	The genes underlying adaptations are becoming known, yet the causes of selection on genes—a key step in the study of the genetics of adaptation—remains uncertain. We address this issue experimentally in a threespine stickleback species pair showing exaggerated divergence in bony defensive armor in association with competition-driven character displacement. We used semi-natural ponds to test the role of a native predator in causing divergent evolution of armor and two known underlying genes. Predator presence/absence altered selection on dorsal spines and allele frequencies at the Msx2a gene across a generation. Evolutionary trajectories of alleles at a second gene, Pitx1, and the pelvic spine trait it controls, were more variable. Our experiment demonstrates how manipulation of putative selective agents helps to identify causes of evolutionary divergence at key genes, rule out phenotypic plasticity as a sole determinant of phenotypic differences, and eliminate reliance on fitness surrogates. Divergence of predation regimes in sympatric stickleback is associated with coevolution in response to resource competition, implying a cascade of biotic interactions driving species divergence. We suggest that as divergence proceeds, an increasing number of biotic interactions generate divergent selection, causing more evolution in turn. In this way, biotic adaptation perpetuates species divergence through time during adaptive radiation in an expanding number of traits and genes.
Databáze:	OpenAIRE
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