Professor of Chemistry and BiochemistryEmail: firstname.lastname@example.org
Office: Chemistry 318
Mike DeGrandpre received his Ph.D. in Analytical Chemistry from the University of Washington in 1990. He carried out postdoctoral research at Woods Hole Oceanographic Institution in Massachusetts from 1990 to 1993 and held a research associate position there from 1993 through 1995. He joined the chemistry faculty at UM in January of 1996. Mike is an analytical/environmental chemist specializing in developing and using autonomous sensors to study aquatic biogeochemistry and the ocean carbon cycle.
My research focuses on the development of autonomous chemical sensors for applications in aquatic (marine and freshwater) chemistry. One of our primary goals is to further our understanding of CO2’s sources and sinks within the world's oceans. Our research has resulted in the development of autonomous CO2 and pH sensors (the Submersible Autonomous Moored Instruments or SAMIs), a technology that won the 2015 Ocean Health XPRIZE. By deploying the SAMI sensors on ocean moorings and other unmanned platforms, we have determined to what extent processes such as photosynthesis and air-sea gas exchange control CO2 variability. These results will help develop models to predict the effects of global warming and ocean acidification (the decrease in ocean pH caused by anthropogenic CO2). Our recent field work has primarily focused on the processes that control CO2 in both freshwater (rivers and lakes) and marine environments. Our current field efforts are focused on the Arctic Ocean, where we have found that sea surface CO2 levels are increasing as ice cover diminishes, the first clear evidence that warming in the Arctic is altering the Arctic Ocean carbon cycle. Closer to home, we are also working closely with other aquatic scientists studying the biogeochemical cycling in local and regional rivers.
Check out our NSF sponsored ocean acidification exhibit developed for UM's science museum spectrUM!
Lai, C.-Z., DeGrandpre, M., and R. Darlington (2018). Autonomous optofluidic chemical analyzers for marine applications: Insights from the Submersible Autonomous Moored Instruments (SAMI) for pH and pCO2, Front. Mar. Sci., 4, doi: 10.3389/fmars.2017.00438. invited manuscript
Neuer, S., Benway, H., Bates, N., Carlson, C., Church, M., DeGrandpre, M., Dunne, J., Letelier, R., Lomas, M., Lorenzoni, L., Muller-Karger, F., Perry, M.-J., and P. Quay (2017). Monitoring ocean change in the 21st Century, Eos, 98, https://doi.org/10.1029/2017EO080045.
Islam, F., M. D. DeGrandpre, C. M. Beatty, M.-L. Timmermans, R. A. Krishfield, J. M. Toole, and S. R. Laney (2017), Sea surface pCO2 and O2 dynamics in the partially ice-covered Arctic Ocean, J. Geophys. Res. Oceans, 122, doi:10.1002/2016JC012162. Highlighted in the AGU newsletter EOS - https://eos.org/research-spotlights/how-arctic-ice-affects-gas-exchange-between-air-and-sea.
Lai, C-Z., DeGrandpre, M. D., Wasser, B., Brandon, T., Clucas, D., Jaqueth, E. J., Benson, Z., Beatty, C. M. and R. S. Spaulding (2016). Spectrophotometric measurement of freshwater pH with purified meta-cresol purple and phenol red, Limnol. Oceanogr. Methods, doi: 10.1002/lom3.10137.
Islam, F., DeGrandpre, M., Beatty, C., Krishfield, R., and J. Toole (2016). Gas exchange of CO2 and O2 in partially ice-covered regions of the Arctic Ocean investigated using in situ sensors, IOP Conf. Series: Earth and Environmental Science, 35, doi:10.1088/1755-1315/35/1/012018.
DeGrandpre, M.D., Spaulding, R.S., Newton, J., Jaqueth, E., Hamblock, S., Umansky, A., and K.E. Harris. (2014). Considerations for the measurement of spectrophotometric pH for ocean acidification and other studies, Limnol. Oceanog. Methods, 12, 830–839.
For a full list of publications, please view DeGrandpre Publications
Specialized Research Interests
Development of autonomous chemical sensors, particularly CO2 and pH, for applications in aquatic (marine and freshwater chemistry).
Department of Chemsitry and Biochemistry
Area of Expertise
Analytical/Environmental Chemistry; Aquatic Biogeochemistry; Autonomous Chemical Sensors for Aquatic Chemistry; Ocean Carbon Cycle