New Bird Species Discovered In Idaho Sheds Light on Co-evolutionary Arms Race (3/19/2007)

A male South Hills crossbill using its crossed mandibles to bite between lodgepole pine cone scales to access seeds. The decurved mandibles enable crossbills to exert strong biting forces at the tip of their bill. (photograph by C. Benkman)

One does not expect to discover a bird species new to science while wandering around the continental United States. Nor does one expect that such a species would provide much insight into how coevolutionary arms races promote speciation. On both fronts a paper to appear in The American Naturalist proves otherwise.

Julie Smith, now at Pacific Lutheran University, and her former graduate advisor, Craig Benkman at the University of Wyoming, have uncovered strong evidence that coevolution has led to the formation of a species of bird new to science in the continental United States. Benkman discovered in 1996 what appears to be a new species restricted to two small mountain ranges in southern Idaho (the South Hills and Albion Mountains). This species is a morphologically and vocally distinct "call type" of red crossbill (Loxia curvirostra complex), which is a group of seed-eating finches specialized for extracting seeds from conifer cones.

Fieldwork by Smith has revealed some of the mechanisms that have contributed to the nearly complete cessation of interbreeding between this crossbill and other call types that move into the South Hills every year. Perhaps most remarkable is that this new crossbill evolved because of a coevolutionary arms race between crossbills and lodgepole pine (Pinus contorta) in the last five to seven thousands years.

As South Hills crossbills exerted selection on lodgepole pine for increased seed defenses, lodgepole pine in turn exerted selection on crossbills for larger bills to deal with these increased seed defenses. This coevolution has caused these crossbills to diverge substantially in bill morphology from other crossbills. Because the South Hills crossbill is adapted to remove seeds from the well-defended cones there, it is a superior competitor and thereby limits the less well adapted and nomadic call types to breeding at very low frequencies in the South Hills.

Such ecological differences lead to premating (i.e., before mating) reproductive isolation, which is nearly completed by strong assortative pairing among the different call types (>99% of South Hills crossbills pair with another South Hills crossbill). "This indicates that levels of reproductive isolation characteristic of recognized species can evolve rapidly even in the continued face of potential gene flow" says Benkman. It also shows that coevolution can be a potent force for rapidly generating biodiversity.

Reference: Julie W. Smith and Craig W. Benkman, "A coevolutionary arms race causes ecological speciation in crossbills" American Naturalist. 2007. 169:455-465.

Founded in 1867, The American Naturalist is one of the world's most renowned, peer-reviewed publications in ecology, evolution, and population and integrative biology research. AN emphasizes sophisticated methodologies and innovative theoretical syntheses--all in an effort to advance the knowledge of organic evolution and other broad biological principles.

Note: This story has been adapted from a news release issued by the University of Chicago

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