Dr. Jonathan J. Cole

Limnologist | PhD, Cornell University

Expertise
freshwater ecosystems, biogeochemistry

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Cole has been an emeritus scientist since 2014. Cole is a member of both the National Academy of Sciences and the American Academy of Arts and Sciences. A former President of the Association for the Sciences of Limnology and Oceanography (ASLO), Cole is also a Fellow of the American Association for the Advancement of Science and the American Geophysical Union. He is the author or co-author of about 230 peer reviewed scientific papers and several books.

During his active research career, Cole studied the sources of carbon and its movements in rivers, lakes, and estuaries. Cole focused on the connections between these ecosystems and their surrounding watersheds. He and colleagues have shown that at a global scale, up to 50 percent of the carbon that is stored in soils is eventually exported to streams, rivers, and lakes, in the form of particles and dissolved organic matter or turned to carbon dioxide in these inland aquatic environments. The realization that inland waters play a role in the regional and global C cycle has changed the way that modelers have approached C sequestration on land.

Because of this large transfer of land-based carbon to surface waters, the food webs of aquatic ecosystems are often partially supported by their watersheds. Working in both the Hudson River and in Wisconsin lakes, Cole and colleagues determined the size of this subsidy to fish populations and to invertebrate consumers. To put the question in simple terms, are fish and other aquatic consumers made of carbon that originates from aquatic plants or maple leaves?

To date, Cole’s research has shown that a surprisingly large fraction of the biomass of fish (and of the aquatic invertebrates they consume) is derived from land-based carbon. Using ambient radiocarbon (14 C), Caraco and Cole have determined that organic carbon in the Hudson River is 1,500 to 5,000 years old. Some invertebrates in the Hudson, notably zooplankton, consume this ancient carbon. Thus, the food web in the Hudson is connected to carbon that was sequestered on land thousands of years ago.

Studies of food webs appear solely academic, but these answers strike a chord with fishermen. As fishing is the second largest recreational activity in the United States being able to talk with fishermen about where their fish come from offers an exciting opportunity to educate and interest a significant public group about ecology.

Modeled effects of dissolved organic carbon and solar spectra on photobleaching in lake ecosystems
Reche, I., Michael L. Pace, and Jonathan J. Cole. 2000. “Modeled Effects of Dissolved Organic Carbon and Solar Spectra on Photobleaching in Lake Ecosystems”. Ecosystems 3: 419-32.
Persistence of net heterotrophy in lakes during nutrient addition and food web manipulations
Carpenter, Stephen R., Jonathan J. Cole, J.F. Kitchell, and Michael L. Pace. 2000. “Persistence of Net Heterotrophy in Lakes During Nutrient Addition and Food Web Manipulations”. Limnol. Oceanogr. 45: 1718-30. http://www.caryinstitute.org/reprints/Persistence_of_net_heterotrophy_in_lake_during_nutrient_addition_and_food_web_manipulations.pdf.
Bacterial growth efficiency and energetics
del Giorgio, P. A., and Jonathan J. Cole. 2000. “Bacterial Growth Efficiency and Energetics”. In D. L. Kirchman (ed.). Microbial Ecology of the Oceans, 289-325. Plenum Press.
Atmospheric CO2 evasion, dissolved inorganic carbon production, and net heterotrophy in the York River Estuary
Raymond, Peter A., J.E. Bauer, and Jonathan J. Cole. 2000. “Atmospheric CO2 Evasion, Dissolved Inorganic Carbon Production, and Net Heterotrophy in the York River Estuary”. Limnol. Oceanogr. 45: 1707-17.
Microbial carbon cycling in pelagic ecosystems: microbial methods for ecosystem scientists
Cole, Jonathan J. 2000. “Microbial Carbon Cycling in Pelagic Ecosystems: Microbial Methods for Ecosystem Scientists”. In O. E. Sala, R. B. Jackson, H. A. Mooney, and R. W. Howarth (eds.). Methods in Ecosystem Science, 138-50. Springer-Verlag New York, Inc.
Dissolved oxygen declines in the Hudson River associated with the invasion of the zebra mussel (Dreissena polymorpha)
Caraco, Nina F., Jonathan J. Cole, Stuart E. G. Findlay, David T. Fischer, G. G. Lampman, Michael L. Pace, and David L. Strayer. 2000. “Dissolved Oxygen Declines in the Hudson River Associated With the Invasion of the Zebra Mussel (Dreissena Polymorpha)”. Environ. Sci. Technol. 34: 1204-10. http://www.sgnis.org/publicat/est1204.htm.
Effects of whole lake manipulations of nutrient loading and food web structure on planktonic respiration
Pace, Michael L., and Jonathan J. Cole. 2000. “Effects of Whole Lake Manipulations of Nutrient Loading and Food Web Structure on Planktonic Respiration”. Can. J. Fish. Aquat. Sci. 57: 487-96.
Food web structure and nutrient enrichment: effects on phosphorus retention in whole-lake experiments
Houser, J.N., Stephen R. Carpenter, and Jonathan J. Cole. 2000. “Food Web Structure and Nutrient Enrichment: Effects on Phosphorus Retention in Whole-Lake Experiments”. Can. J. Fish. Aquat. Sci. 57: 1524-33.
Rapid and precise determination of dissolved oxygen by spectrophotometry: evaluation of interference from color and turbidity
Roland, Fábio, Nina F. Caraco, Jonathan J. Cole, and P. A. del Giorgio. 1999. “Rapid and Precise Determination of Dissolved Oxygen by Spectrophotometry: Evaluation of Interference from Color and Turbidity”. Limnol. Oceanogr. 44: 1148-54.
Regional carbon imbalances in the oceans: is the open ocean heterotrophic? [Response : Technical comments]
Duarte, C. M., S. Agusti, P. A. del Giorgio, and Jonathan J. Cole. 1999. “Regional Carbon Imbalances in the Oceans: Is the Open Ocean Heterotrophic? [Response : Technical Comments]”. Science 284: 1735. http://www.sciencemag.org/cgi/reprint/284/5421/1735b.pdf.