Bernie May (geneticist)

For the British politician, see Bernie May (politician).

Bernie May
Born	1947 (age 76–77)
Alma mater	University of Washington, Pennsylvania State University
Scientific career
Fields	Genetics, fisheries science
Institutions	University of California, Davis
Doctoral advisor	James E. Wright, Jr.

Bernie May (born 1947) is a geneticist, known for his work applying genetic tools to address questions in natural resource management and conservation, with a particular focus on aquatic species. He is director of the Genomic Variation Lab^[1] and was adjunct professor in the Department of Animal Science at the University of California, Davis from 1995 to 2014 and is now an Emeritus Research Professor. May has published over 200 papers^[2] in 65 journals on divergent taxa, including fish, crustaceans, insects, plants, fungi, and mammals, bringing simple Mendelian genetic data to answer a diverse array of biological and ecological questions.

Biography

May received a Bachelor of Science in molecular biology from the University of Washington in 1973, a master's degree in fisheries^[3] from the University of Washington in 1975 under Fred M. Utter, and a PhD in Genetics^[4] from The Pennsylvania State University in 1980 under the late Dr. James E. Wright, Jr. In 1981, he started the Cornell University Laboratory for Ecological and Evolutionary Genetics, serving as its Senior Research Associate and Director for 14 years. He then moved to the University of California, Davis in 1995, where he initiated the Genomic Variation Laboratory,^[5] serving as its director and an adjunct professor in the Department of Animal Science.^[6] He retired in June 2014 and became an Emeritus Research Professor at the University of California, Davis. He has been a soft money scientist^[clarify] for his entire career.

As a graduate student and early career investigator, Dr. May pioneered the application of allozyme electrophoresis to measure genetic variability in aquatic organisms. His Master's thesis^[7] included a manual for allozyme electrophoresis, has been widely referenced, and subsequently appeared as a book chapter. He contributed key papers that played an integral role in forming our current understanding of the structure and evolution of salmonid genomes. He was an important player in the early mapping of the salmonid genome and coined the term “residual tetrasomy".^[8] During his early career Dr. May also discovered the presence of and coined the name for the quagga mussel.^[9] He designed one of the earliest graphical user interface population genetic software programs, Genes in Populations.^[10]

However, one of the most significant contributions that Dr. May has made to the field of science has been through his mentoring activities and he won the University of California, Davis Graduate Group in Ecology award for Most Valuable Professor in 2007 for his mentoring service. Dr. May advised over 28 PhD and six Master's students, served on the committees of 38 others, and influenced hundreds of graduate and undergraduate students over the course of his career. The majority of his over 200 peer-reviewed publications have been co-authored with students or postdocs. Three of these papers have been recognized as outstanding by the American Fisheries Society through the Robert L. Kendall Award (1994, 2013)^[11][12] and the Phelps Award (2008).^[13]

References

1. The Genomic Variation Lab Archived August 8, 2014, at the Wayback Machine
2. Bernie May's Publications Archived June 5, 2015, at the Wayback Machine
3. May, B. 1975. Electrophoretic variation in the genus Oncorhynchus: the methodology, genetic basis, and practical applications to fisheries research and management. Master's degree in Fisheries. University of Washington
4. May, B. 1980. The salmonid genome: evolutionary restructuring following a tetraploid event. PhD in Genetics. The Pennsylvania State University
5. The Genomic Variation Lab Archived August 8, 2014, at the Wayback Machine
6. University of California, Davis Dept. of Animal Science
7. May, B. 1975. Electrophoretic variation in the genus Oncorhynchus: the methodology, genetic basis, and practical applications to fisheries research and management. Master's degree in Fisheries. University of Washington
8. May, B., J.E. Wright, and K.R. Johnson. 1982. Joint segregation of biochemical loci in Salmonidae: III. Linkage associations in Salmonidae including data from rainbow trout (Salmo gairdneri). Biochem. Genet. 20:29-40.
9. Spidle, A.P., J.E. Marsden, and B. May. Identification of the Great Lakes quagga mussel as Dreissena bugensis from the Dnieper River, Ukraine, on the basis of allozyme variation. Can. J. Fish. Aquat. Sci. 51:1485-1489
10. Genes in Populations Software Archived May 28, 2014, at the Wayback Machine
11. Grewe, P.M., C.C. Krueger, J.E. Marsden, C.F. Aquadro, and B. May. 1994. Hatchery origins of naturally produced lake trout fry captured in Lake Ontario: temporal and spatial variability based on allozyme and mitochondrial DNA data. Trans. Am. Fish. Soc. 123:309-320
12. Drauch Schreier, A., B. Mahardja*, and B. May. 2013. Variable patterns of population structure revealed across the range of the ancient octoploid white sturgeon, Acipenser transmontanus. Transactions of the American Fisheries Society 142(5):1273-1286
13. Schwartz, R.S. and B. May. 2008. Genetic Evaluation of Isolated Populations for Use in Reintroductions Reveals Significant Genetic Bottlenecks in Potential Stocks of Sacramento Perch. Transactions of the American Fisheries Society. 137(6): 1764-1777