Martha Burford Reiskind
Research Assistant Professor, Applied Ecology
Coordinator of Academic Programs, Applied Ecology
2001 – M.A., San Francisco State University
2007 – Ph.D., University of California Santa Cruz
2007-2010, Postdoctoral Fellow, Cornell University
Research InterestsResearch in the Burford Reiskind Laboratory focuses on using molecular methods to determine the evolutionary history and future evolutionary trajectory of species. She uses a variety of molecular methods to elucidate how random and selective processes contribute to population differentiation and speciation in “open” systems, such as most aquatic habitats. Most of her target species have either a conservation concern or current management issues. Therefore, the results of the research have direct applications to conservation and management. An over arching theme for Dr. Burford Reiskind’s research is to understand how future environmental change or perturbations will affect the evolutionary trajectory of species or communities. One of the on-going research projects on rockfish, in the genus Sebastes, addresses local adaptation and conservation genetics of this commercially important group of fishes for which we have increasing concerns due to previous management issues and the effects of global climate change. She also have several other projects that utilizes different genetic tools for addressing conservation questions or questions of how species are locally adapted to their environment.
Burford, M.O., Cook, B.J., Scarpa, J., and Hare, M.P. 2014. Local adaptation of a marine invertebrate with a high dispersal potential: evidence from a reciprocal transplant experiment. Marine Ecological Progress Series. Vol. 505: 161-175
Burford, M.O., Carr, M.H., and Bernardi, G. 2011. Age-structured analysis of the genetic structure of blue rockfish (Sebastes mystinus) reveals geographic variation within and between distinct lineages. Marine Ecological Progress Series 442: 201-215
Burford, M.O., Bernardi, G., and Carr M.H. 2011. Analysis of individual year-classes of a marine fish reveals little evidence of first-generation hybrids between cryptic species in sympatric regions. Marine Biology. 158: 1815-1827
Hare, M.P., Nunney, L., Schwartz, M., Ruzzante, D., Burford, M., Waples, R.S., Ruegg, K., Palstra, F. 2011. Effective population size: opportunities and challenges for practical application in marine conservation and management. Conservation Biology 25: 438-439
Burford, M.O. 2009. Demographic history, geographic distribution, and reproductive isolation of distinct lineages of the blue rockfish (Sebastes mystinus), a marine fish with a high dispersal potential. Journal of Evolutionary Biology 22: 1471-1486.
Vagelli, A., Burford, M., and Bernardi, G. 2009. Fine-scale dispersal in Banggai Cardinalfish, Pterapogon kauderni, a coral reef species lacking a pelagic phase. Marine Genomics 1: 129-134.
Burford, M.O. and Bernardi, G. 2008. Incipient speciation within a subgenus of rockfish (Sebastosomus) provides evidence of recent radiations within an ancient species flock. Marine Biology 154: 701-717.
Burford, M.O. and Larson, R.J. 2007. Genetic heterogeneity in a single year-class from a panmictic population of adult blue rockfish (Sebastes mystinus). Marine Biology 151: 451-465.