Exploring signals of historical demography in boreal mammals through integration of statistical conservation phylogenetics, taxonomy, and comparative phylogeography
Dates
Year
2013
Citation
Malaney, Jason L., 2013, Exploring signals of historical demography in boreal mammals through integration of statistical conservation phylogenetics, taxonomy, and comparative phylogeography: The University of New Mexico.
Summary
Understanding how diversity is partitioned across the landscape can provide perspectives related to the environmental processes that have influenced the evolutionary history of organisms. This main idea, often termed phylogeography, serves as the backdrop to my research where I explore three broad concepts including historical biogeography, cryptic diversity and ecology, and conservation phylogenetics. I address various questions in each of these concepts by using a set of mammals that are associated with montane and mesic environments of North America. More specifically, I focus on the jumping mice (Zapodidae) to test hypotheses that scale to the broader community. This approach allows for a more refined understanding and interpretation [...]
Summary
Understanding how diversity is partitioned across the landscape can provide perspectives related to the environmental processes that have influenced the evolutionary history of organisms. This main idea, often termed phylogeography, serves as the backdrop to my research where I explore three broad concepts including historical biogeography, cryptic diversity and ecology, and conservation phylogenetics. I address various questions in each of these concepts by using a set of mammals that are associated with montane and mesic environments of North America. More specifically, I focus on the jumping mice (Zapodidae) to test hypotheses that scale to the broader community. This approach allows for a more refined understanding and interpretation of how species have responded to geophysical changes of the past that may be useful for predicting how future environmental pressures may influence geographically oriented lineages. By integrating across multiple disciplines of population genetics, phylogenetics, phylogeography, distribution modeling, and paleoclimatology, I assess how environmental change has left an imprint on the genetics and ecology of various organisms. Signatures of the past are useful to forecast conservation issues of the future.