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B. Rosemary Grant | I am interested
in the diversity of individuals produced by the interaction between genetics,
ecology and behavior. How natural selection acts on this variation; the
evolutionary response to natural selection and the bearing this has on
the process of speciation.
A fundamental problem in the study of evolution is
to understand the steps involved in the process of speciation, because
the question of how one species splits into two addresses the foundation
of the biodiversity we see around us today. Yet there is much controversy
about the process of speciation. Debates center around, the extent of
the role of genetic variation, past history and geography in lineage divergence
and the role of genetic variation, behavior and learning as factors in
the formation of reproductive barriers to gene flow between closely related
sympatric species, and whether or not speciation can occur in sympatry.
I work closely with Peter Grant. We chose the
young adaptive radiation of Darwin's finches on the remote Galapagos Archipelago
as a suitable system for investigating the problem of speciation. This
radiation offers unique advantages. It is the only bird radiation to have
retained the full complement of species, none having gone extinct as the
result of human intervention. Furthermore many islands in the archipelago
are uninhabited and several of these have few or no introduced plants
or animals, enabling us to examine naturally occurring changes under pristine
or nearly pristine conditions. Most importantly, the islands are situated
astride the equator and are subject to extreme interannual fluctuations
in climate caused by the El Nino-Southern Oscillation. Years of abundant
rainfall, which occur unpredictably approximately twice a decade, are
interspersed with years of drought, and these changes alter the ecological
and food conditions for the finches. Such a situation allows the investigation
of the three steps leading to species formation: colonization, divergence,
and the formation of a reproductive barrier between species. We have and
are examining each in turn.
Recent publications:
Abzhanov et. al. (2006) The calmodulin pathway and the evolution of elongated beak morphology in Darwin’s finches. Nature 442:563-567 (Full text)
Grant and Grant (2006) Science 313: 224-26 (Abstract) (Full text)
Grant et al. (2005) The American Naturalist 166: 56-67
(Full text)
Abzhanov et al. (2004) Science 305: 1462-65
(Abstract) (Full text)
Grant et al. (2004) Evolution 58: 1588-99 (pdf)
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