新澳门六合彩内幕信息

A new appreciation of the ecology-evolution dynamic

Ecology drives evolution. In today鈥檚 issue of the journal Science, 新澳门六合彩内幕信息 Davis expert Thomas Schoener describes growing evidence that the reverse is also true, and explores what this might mean to our understanding of how environmental change affects species and vice-versa.

A classic example of ecology influencing evolution is seen in a Gal谩pagos ground finch, Geospiza fortis. In this species, larger beaks dominated the population after dry years when large seeds were more abundant. After wet years, the direction of natural selection reversed, favoring smaller beaks that better handled the small seeds produced in the wet environment.

Environmental factors had given birds with certain genes a survival advantage.

But does evolution affect ecology over similar time scales? Scientists are increasingly thinking that the answer is yes, says Schoener, who points to numerous examples of organisms evolving rapidly. This sets the stage for the possibility that evolutionary dynamics routinely interact with ecological dynamics.

Schoener writes: 鈥淚f ecology affects evolution (long supported) and evolution affects ecology (becoming increasingly supported), then what? The transformed ecology might affect evolution, and so on, back and forth in a feedback loop.鈥

Still to be discovered in this emerging field of 鈥渆co-evolutionary dynamics,鈥 he concludes, is just how much evolutionary changes affect ecological traits such as species populations and community structure. Schoener calls for a major research effort to find out.

Ecology is the study of relationships between organisms and their environment. Evolution is a change in the genetic makeup of a population of organisms.

The study, titled 鈥淭he Newest Synthesis: Understanding the Interplay of Evolutionary and Ecological Dynamics,鈥 was supported by grants from the National Science Foundation.

Media Resources

Thomas Schoener, Evolution and Ecology, (530) 752-8319, twschoener@ucdavis.edu

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