J. Val Klump
PhD, Marine Sciences, University of North Carolina-Chapel Hill, 1980
JD, Georgetown University Law Center, 1975
BS, Zoology, Duke University, 1971
- Biogeochemical cycling in aquatic environments
- Boundary layer processes
- Research Impacts Radiochemistry
- Observing systems and underwater robotics
Lake Michigan's Green Bay has long suffered from environmental deterioration from our activities - industry, urbanization, agriculture, you name it. Today, despite representing only ~1.4% of the volume of Lake Michigan, Green Bay receives approximately one-third of the total nutrient loading within the entire Lake Michigan basin. Excessive algal blooms and so called “dead zones” (zones where oxygen is too low to support most aquatic life) are now a recurring feature of the bay during summer months.
Our goal is to foster the restoration of the Green Bay ecosystem through looking at what can be done to reduce dead zones, improve water quality and bequeath a healthy ecosystem to future generations. This will require the cooperation and buy-in of the large population within the watershed, and resource agencies armed with science-based predictive tools that will allow effective, adaptive management essential for restoration in the face of an uncertain future.
Klump currently serves as a board member of several regional and national organizations including: the International Joint Commission’s Science Advisory Board Research Coordination Council, the NOAA Integrated Ocean Observing System Federal Advisory Committee, the National Association of Marine Laboratories Executive Board, the Wisconsin Sea Grant Advisory Council, and the Discovery World Board of Directors. He holds a degree in Law from Georgetown University and a PhD in Marine Science from the University of North Carolina at Chapel Hill.
- New Advisory Council Member Spends Time in the Dead Zone – Wisconsin SeaGrant, March 3, 2016
- Mystery of Green Bay’s Hypoxic “Dead Zone”. Trailer for an “Into the Outdoors” segment – Into the Outdoors, November 2015
- Green Bay dead zone shorter this year but still a threat – JSOnline, November 5, 2015
- Farmers vow to reduce phosphorus, bane of Green Bay – WisconsinWatch.org, April 1, 2015
- A Watershed Moment: Great Lakes at a Crossroad. A three-part series – Milwaukee Journal Sentinel, Sept 13, 2014
Sterner, R.W., P. Ostrom, N.E. Ostrom, J,V. Klump, A.D. Steinman, E.A. Dreelin, M.J. Vander Zanden and A.T. Fisk. 2017. Grand challenges for research in the Laurentian Great Lakes. Limnol. Oceanogr. (in press).
Bravo, H.R., S.A. Hamidi, J.T. Waples, and J.V. Klump. 2017. Modeling multiple physical drivers of the circulation and thermal regimes impacting seasonal hypoxia in Green Bay, Lake Michigan. In Modeling Coastal Hypoxia – Numerical Simulations of Patterns, Controls and Effects of Dissolved Oxygen Dynamics. Springer.
Waples, J.T., H.A. Bootsma, J.V. Klump. 2017. How are coastal benthos fed? Limnol. Oceanogr. Lett. doi: 10.1002/lol2.10033
Klump, J.V. and Fermanich, K. 2017. CHRP: Green Bay Hypoxia: Biogeochemical Dynamics, Watershed inputs, and Climate change. Final Technical Rpt. NOAA CSCOR NA10NOS4780139, 111 pp. [Full Text PDF]
LaBuhn, S.L and J. V. Klump. 2016. Estimating summertime primary production via in situ monitoring in an eutrophic freshwater embayment, Green Bay, Lake Michigan. J. Great Lakes Res. http://dx.doi.org/10.1016/j.jglr.2016.07.028 DeVilbiss,S.E., Zhengzhen Zhou, J. Val Klump, Laodong Guo. 2016. Spatiotemporal variations in the abundance and composition of bulk and chromophoric dissolved organic matter in seasonally hypoxia-influenced Green Bay, Lake Michigan, USA Science of The Total Environment 565: 742–757
Baskaran, M.M., B. Biddanda, N. Hawley, T. Johengen, J.V.Klump, K.R. Nash, T. Novell, S. Ruberg. 2016. Tracing the seepage of subsurface sinkhole vent waters into Lake Huron using radium and stable isotopes of oxygen and hydrogen. Aquatic Geochemistry 22;349-374. DOI 10.1007/s10498-015-9286-7
MacKenzie R.A., Patra B. Foulk, J. Val Klump. Kimberly Weckerly . Joko Purbospito . Daniel Murdiyarso . Daniel C. Donato . Vien Ngoc Nam. 2016. Sedimentation and belowground carbon accumulation rates in mangrove forests that differ in diversity and land use: a tale of two mangroves. Wetlands Ecol Management DOI 10.1007/s11273-016-9481-3
Lin P., Klump J. V., Guo L., 2015. Dynamics of dissolved and particulate phosphorus influenced by seasonal hypoxia in Green Bay, Lake Michigan. Science of the Total Environment, doi:10.1016/j.scitotenv.2015.09.118.
Bravo, H.R., S.A. Hamidi, J.V. Klump and J.T. Waples. 2015. Currents and heat fluxes induce stratification leading to hypoxia in Green Bay, Lake Michigan. E-proceedings of the 36th IAHR World Congress, 28 June – 3 July, 2015, The Hague, the Netherlands. 1-10.
Ranjan, R. K., J. Routh, J. V. Klump, and A.L. Ramanathan. 2015. Sediment biomarker profiles trace organic matter input in the Pichavaram mangrove complex, southeastern India. Marine Chemistry 02/2015; DOI: 10.1016/j.marchem.2015.02.001
Hamidi, S.A., H. Bravo, J. V. Klump, and J.T. Waples. 2015. The role of circulation and heat fluxes in the formation of stratification leading to hypoxia in Green Bay, Lake Michigan, J. Great Lakes Res., dx.doi.org/10.1016/j.jglr.2015.08.007
Silva, M.R., H.R. Bravo, D.Cherkauer, J.V. Klump, W. Kean, S.L. McLellan. 2014. Effect of hydrological and geophysical factors on formation of standing water and FIB reservoirs at a Lake Michigan beach. J. Great Lakes Res. (http://dx.doi.org/10.1016/j.jglr.2014.06.003)
Nold, S.C., M. J. Bellecourt, S.T. Kendall, S.A. Ruberg, T.G. Sanders, J.V. Klump and B.A. Biddanda. 2013. Underwater Sinkhole Sediments Sequester Lake Huron’s Carbon. Biogeochemistry. DOI 10.1007/s10533-013-9830-8.
Waples J.T. and J.V. Klump. 2013. Vertical and horizontal particle transport in the coastal waters of a large lake: An assessment by sediment trap and thorium-234 measurements. J. Geophys. Res: Oceans, VOL. 118, 1–22, doi:10.1002/jgrc.20394, 2013
Ranjan, R.K., J. Routh, A.L. Ramanathan, J.V. Klump. 2011. Elemental and stable isotope records of organic matter input and its fate in the Pichavaram mangrove-estuarine sediments (Tamil Nadu, India). Mar. Chem. 126: 163-172. doi:10.1016/j.marchem.2011.05.005
Read, J., V. Klump, T.H. Johengen, D.J. Schwab, K. Paige, S. Eddy, E.J. Anderson, and C. Manninen. 2010. Working in freshwater: The Great Lakes Observing System contributions to regional and national observations data infrastructure, and decision support. Marine Technology Society Journal 44(6):84-98.
Mueller-Spitz, S.R., L.B. Stewart, J.V. Klump, and S.L. McLellan. 2010. Freshwater suspended sediments and sewage are reservoirs for enterotoxin-positive Clostridium perfringens. Appl. Env. Microb. 76(16) 5556-5562. Doi:10.1128/AEM.01702-09.
Klump, J.V, S.A. Fitzgerald, and J.T. Waples. 2009. Benthic biogeochemical cycling, nutrient stoichiometry, and carbon and nitrogen mass balances in a eutrophic freshwater bay. Limnol. Oceanogr. 54: 792-812.
Liao. Q., H. A. Bootsma, J. Xiao, J.V. Klump, A. Hume, M.H. Long, and P. Berg. 2009. Development of an in situ Underwater Particle Image Velocimetry (UWPIV) System. Limnol. Oceanogr.: Methods : 7: 169-184.
Eadie, B.J., J.A. Robbins, J.V. Klump, D.J. Schwab, and D.N. Edgington. 2008. Winter-spring storms and their influence on sediment resuspension, transport, and accumulation patterns in southern Lake Michigan. Oceanography 21: 62-79.
Fitzgerald S.A., J.V. Klump, P.W. Swarzenski, R.A. Mackenzie and K.D. Richards. 2001. Beryllium-7 as a tracer of short-term sediment deposition and resuspension in the Fox River, Wisconsin. Environ. Sci. Tech. 35: 300-305.
Klump J.V., P. Sager, D.N. Edgington and D. Robertson. 1997. Sedimentary phosphorus cycling and a phosphorus mass balance for the Green Bay ecosystem. Can. J. Fish. Aq. Sci. 54: 10-26.
Edgington D.E., J.V. Klump, J.A. Robbins, Y.S. Kusner, V.D.Pampura and I.V. Sandimirov. 1991. Sedimentation rates, residence times and inventories of Cs- 137 and Pb-210 in Lake Baikal. Nature 350: 601-604.
Klump, J.V., J.R. Krezoski, M.E. Smith and J.L. Kaster. 1987. Dual tracer studies of the assimilation of an organic contaminant from sediments by deposit feeding oligochaetes. Can. J. Fish. Aquat. Sci. 44:1574-1583
Klump, J.V. and C.S. Martens. 1987. Biogeochemical cycling in an organic-rich coastal marine basin. 5. Sedimentary nitrogen and phosphorus budgets based upon kinetic models, mass balances, and the stoichiometry of nutrient regeneration. Geochim. Cosmochim. Acta 51:1161-1173.
Klump, J.V. and C.S. Martens. 1981. Biogeochemical cycling in an organic-rich coastal marine basin. 2. Nutrient sediment-water exchange processes. Geochim. Cosmochim. Acta, 45: 101-121.
Biogeochemistry, limnology, radiochemistry, nutrient and carbon cycling, observing systems