George S. Bullerjahn Explained

George S. Bullerjahn
Fields:Microbiology, ecology
Workplaces:Bowling Green State University
Alma Mater:Dartmouth College
University of Virginia

George S. Bullerjahn is an American microbiologist, a former Distinguished Research Professor at Bowling Green State University in Ohio.[1] He is the founding director of the Great Lakes Center for Fresh Waters and Human Health. His specialty is microbial ecology; his research has focused on the health of the Laurentian Great Lakes, particularly the harmful algal bloom-forming populations in Lake Erie since the early 2000s.

Education and training

Bullerjahn grew up in Boston and attended Browne and Nichols School. He received an A.B. in Biology from Dartmouth College in 1977[2] and a PhD in biology from the University of Virginia in 1984. He was a postdoctoral associate at the University of Missouri (1984–1988) with Professor Louis Sherman.[3] [4] Subsequently, he accepted a faculty position at Bowling Green State University in Ohio and spent his entire career there. He is a professor emeritus in BGSU's Biology Department.

Research

Bullerjahn's early work focused on the genetics of Rhizobium spp.[5] [6] He published his first studies on thylakoid structure of the model cyanobacteria Aphanocapsa in 1985,[3] and then many papers on the physiology and molecular biology of numerous cyanobacteria including Synechococcus and Prochlorothrix.[7] In 2004, he co-authored what was to be the first of many papers on limnology and the ecology of cyanobacteria in fresh waters.[8] His other research efforts include a focus on the development of cyanobacteria-based biosensors (bioreporters) used in the estimation of the bioavailability of nutrients in environmental samples.[9] [10]

Bullerjahn's research interests are currently focused on detection, enumeration and characterization of cyanobacteria in aquatic systems. With a specific focus on potentially toxic cyanobacteria including Microcystis and Planktothrix, his research and that of the center he directs (which includes scientists spread across 6 states as well as in Canada) is focused on the mitigation and prevention of harmful algal blooms in fresh waters[11] with a particular focus on Lake Erie. These efforts include published studies of physical limnology,[12] nutrient dynamics[13] [14] and the effects of viruses[15] on these communities. From publishing with Professor Reinhard Laubenbacher, Bullerjahn's Erdős number is 4.

Bullerjahn has been a member of Great Lakes limnological expeditions including surveys aboard CCGS LIMNOS, the US EPA RV LAKE GUARDIAN and completed a 1,600 km transect from western Lake Superior to Lake Erie aboard RV BLUE HERON.[16] His field work has extended to winter studies of ice-covered lakes including multiple surveys of Lake Erie aboard the light icebreaker CCGS GRIFFON, where a team of Canadian and US scientists, including Robert M. L. McKay, identified prolific growth of diatom algae associated with ice cover.[17] He has joined expeditions studying Hungary's Lake Balaton,[18] Russia's Lake Onega[19] and reservoirs in the UNESCO Třeboň Basin Biosphere of the Czech Republic[20]

Personal life

Bullerjahn's wife Anne is a faculty member in Biology at Owens Community College.[21] During high school and while at Dartmouth, Bullerjahn was a varsity rower and a member of the Dartmouth College Lightweight crew. During his career, he has also become involved in social and political actions associated with the health of the Laurentian Great Lakes, serving as an expert for multiple regional news outlets,[22] [23] organizing symposia and working with colleagues to assist Rep. Bob Latta (R-OH) in drafting the Drinking Water Protection Act that was signed into law by President Barack Obama in 2016.[24] Bullerjahn is a supporter of the Everton F.C.

Notes and References

  1. Web site: George Bullerjahn.
  2. Web site: Dartmouth College. Class of 1977. March 23, 2021. Dartmouth College class of 1977.
  3. Bullerjahn. George S.. Riethman. Harold C.. Sherman. Louis A.. November 1985. Organization of the thylakoid membrane from the heterotrophic cyanobacterium, Aphanocapsa 6714. Biochimica et Biophysica Acta (BBA) - Bioenergetics. en. 810. 2. 148–157. 10.1016/0005-2728(85)90130-6. 3933560.
  4. Bullerjahn. G S. Sherman. L A. 1986. Identification of a carotenoid-binding protein in the cytoplasmic membrane from the heterotrophic cyanobacterium Synechocystis sp. strain PCC6714.. Journal of Bacteriology. en. 167. 1. 396–399. 10.1128/JB.167.1.396-399.1986. 0021-9193. 212892. 3087963.
  5. Bullerjahn. G. S.. Benzinger. R. H.. April 1982. Genetic transformation of Rhizobium leguminosarum by plasmid DNA. Journal of Bacteriology. 150. 1. 421–424. 10.1128/JB.150.1.421-424.1982. 0021-9193. 220134. 7061403.
  6. Bullerjahn. G.S.. Benzinger. Rolf H.. May 1984. Introduction of the mercury transposon Tn501 intoRhizobium japonicumstrains 31 and 110. FEMS Microbiology Letters. 22. 3. 183–187. 10.1111/j.1574-6968.1984.tb00722.x. 0378-1097. free.
  7. Navarro. J. A.. Myshkin. E.. De la Rosa. M.A.. Bullerjahn. G.S.. Hervas. M.. October 5, 2001. The unique proline of the Prochlorothrix hollandica plastocyanin hydrophobic patch impairs electron transfer to photosystem I. J Biol Chem. en. 276. 40. 37501–5 . 10.1074/jbc.M105367200. 11457853. free.
  8. McKay. R. Michael L.. Bullerjahn. George S.. Porta. David. Brown. Erik T.. Sherrell. Robert M.. Smutka. Tanya M.. Sterner. Robert W.. Twiss. Michael R.. Wilhelm. Steven W.. October 2004. Consideration of the bioavailability of iron in the North American Great Lakes: Development of novel approaches toward understanding iron biogeochemistry. Aquatic Ecosystem Health & Management. en. 7. 4. 475–490. 10.1080/14634980490513364. 16764870. 1463-4988.
  9. Porta. David. Bullerjahn. George S.. Durham. Kathryn A.. Wilhelm. Steven W.. Twiss. Michael R.. McKay. R. Michael L.. Physiological Characterization of Asynechococcussp. (Cyanophyceae) Strain PCC 7942 Iron-Dependent Bioreporter for Freshwater Environments1. February 2003. Journal of Phycology. en. 39. 1. 64–73. 10.1046/j.1529-8817.2003.02068.x. 13899981.
  10. Mckay. R. M. L.. Porta. David. Bullerjahn. George S.. Al-Rshaidat. Mamoon M. D.. Klimowicz. Jeffrey A.. Sterner. Robert W.. Smutka. Tanya M.. Brown. Erik T.. Sherrell. Robert M.. October 1, 2005. Bioavailable iron in oligotrophic Lake Superior assessed using biological reporters. Journal of Plankton Research. en. 27. 10. 1033–1044. 10.1093/plankt/fbi070. 1464-3774. free.
  11. Wilhelm. Steven W.. Bullerjahn. George S.. McKay. R. Michael L.. June 30, 2020. Moran. Mary Ann. The Complicated and Confusing Ecology of Microcystis Blooms. mBio. en. 11. 3. e00529–20, /mbio/11/3/mBio.00529–20.atom. 10.1128/mBio.00529-20. 2150-7511. 7327167. 32605981.
  12. Matson. Paul G.. Boyer. Gregory L.. Bridgeman. Thomas B.. Bullerjahn. George S.. Kane. Douglas D.. McKay. Robert M. L.. McKindles. Katelyn M.. Raymond. Heather A.. Snyder. Brenda K.. Stumpf. Richard P.. Davis. Timothy W.. July 24, 2020. Physical drivers facilitating a toxigenic cyanobacterial bloom in a major Great Lakes tributary. Limnology and Oceanography. 65. 12. en. 2866–2882. 10.1002/lno.11558. 33707786. 7942401. 2020LimOc..65.2866M. 0024-3590.
  13. Hampel. Justyna J.. McCarthy. Mark J.. Neudeck. Michelle. Bullerjahn. George S.. McKay. Robert Michael L.. Newell. Silvia E.. January 2019. Ammonium recycling supports toxic Planktothrix blooms in Sandusky Bay, Lake Erie: Evidence from stable isotope and metatranscriptome data. Harmful Algae. en. 81. 42–52. 10.1016/j.hal.2018.11.011. 30638497. 58579692. free.
  14. Salk. Kateri R.. Bullerjahn. George S.. McKay. Robert Michael L.. Chaffin. Justin D.. Ostrom. Nathaniel E.. May 16, 2018. Nitrogen cycling in Sandusky Bay, Lake Erie: oscillations between strong and weak export and implications for harmful algal blooms. Biogeosciences. en. 15. 9. 2891–2907. 10.5194/bg-15-2891-2018. 2018BGeo...15.2891S. 1726-4189. free.
  15. McKindles. Katelyn M.. Manes. Makayla A.. DeMarco. Jonathan R.. McClure. Andrew. McKay. R. Michael. Davis. Timothy W.. Bullerjahn. George S.. August 28, 2020. Schaffner. Donald W.. Dissolved Microcystin Release Coincident with Lysis of a Bloom Dominated by Microcystis spp. in Western Lake Erie Attributed to a Novel Cyanophage. Applied and Environmental Microbiology. en. 86. 22. e01397–20, /aem/86/22/AEM.01397–20.atom. 10.1128/AEM.01397-20. 32859600. 7642080. 2020ApEnM..86E1397M . 221365623. 0099-2240.
  16. Rozmarynowycz. Mark J.. Beall. Benjamin F. N.. Bullerjahn. George S.. Small. Gaston E.. Sterner. Robert W.. Brovold. Sandra S.. D'souza. Nigel A.. Watson. Susan B.. McKay. Robert Michael L.. April 1, 2019. Transitions in microbial communities along a 1600 km freshwater trophic gradient. Journal of Great Lakes Research. en. 45. 2. 263–276. 10.1016/j.jglr.2019.01.004. 92159518. 0380-1330. free.
  17. Twiss. M. R.. McKay. R. M. L.. Bourbonniere. R. A.. Bullerjahn. G. S.. Carrick. H. J.. Smith. R. E. H.. Winter. J. G.. D'souza. N. A.. Furey. P. C.. Lashaway. A. R.. Saxton. M. A.. March 1, 2012. Diatoms abound in ice-covered Lake Erie: An investigation of offshore winter limnology in Lake Erie over the period 2007 to 2010. Journal of Great Lakes Research. en. 38. 1. 18–30. 10.1016/j.jglr.2011.12.008. 0380-1330.
  18. Bullerjahn. George S.. McKay. Robert Michael L.. Bernát. Gábor. Prášil. Ondřej. Vörös. Lajos. Pálffy. Károly. Tugyi. Nóra. Somogyi. Boglárka. August 2020. Community dynamics and function of algae and bacteria during winter in central European great lakes. Journal of Great Lakes Research. en. 46. 4. 732–740. 10.1016/j.jglr.2019.07.002. free.
  19. Rozmarynowycz. Mark. January 1, 2014. Spatio-Temporal Distribution Of Microbial Communities In The Laurentian Great Lakes. Biology Ph.D. Dissertations.
  20. Bullerjahn. George S.. McKay. Robert Michael L.. Bernát. Gábor. Prášil. Ondřej. Vörös. Lajos. Pálffy. Károly. Tugyi. Nóra. Somogyi. Boglárka. August 1, 2020. Community dynamics and function of algae and bacteria during winter in central European great lakes. Journal of Great Lakes Research. en. 46. 4. 732–740. 10.1016/j.jglr.2019.07.002. 0380-1330. free.
  21. Web site: College. Owens Community. The Honors Mentors. March 23, 2021. Honors Program.
  22. Web site: BGSU faculty track harmful algae across continents. March 23, 2021. The Blade. en.
  23. Web site: Cathey. Ben. Sandusky Bay algae produces toxins. March 23, 2021. www.13abc.com. en.
  24. Web site: Thomas-Baird . Marie . Diving into Lake Erie issues: BGSU professor gives talk on Cyanobacteria . March 23, 2021 . Sentinel-Tribune . en.