Nicholas S. Fisher
Ph.D., 1974, State University of New York at Stony Brook
Marine biogeochemistry of metals, marine pollution, phytoplankton-herbivore interactions
My laboratory’s research focuses on the interactions of metals and metalloids with marine organisms. This work is aimed at evaluating the bioavailability and fate of metals, including important long-lived radionuclides associated with nuclear wastes, in marine organisms. Our research examines various processes regulating the uptake and trophic transfer of these contaminants in marine food webs.
Some of this work has explored the nature of binding of metals to diverse types of particles and the influence these have on the extent to which the metals are in a biologically available form. The effects of chemical and phase (particulate, dissolved, colloidal) partitioning of metals on their bioaccumulation in marine food webs are assessed. Particle types considered include abiotic particles such as suspended sediments (e.g., iron oxides with and without organic coatings, clay particles, calcite crystals) and living particles (e.g., phytoplankton cells, bacterioplankton). As well, research has focused on the adsorption/desorption of metals to biogenic detrital matter and the influence this material can have on the vertical flux and geochemical cycling of metals in diverse oceanic regimes, including open ocean and continental shelf waters. Many of these activities are conducted in coordination with Stony Brook University’s Center for Environmental Molecular Science (CEMS).
We have also been active in quantifying the transfer of metals from one trophic level to another in marine food chains and have developed a bioenergetic-based kinetic model to assess the bioaccumulation, including specific uptake pathways, of metals in marine organisms. These studies have considered diverse marine herbivores and carnivores, including species that are used as bioindicators of coastal contamination. Experimental studies have assessed rate constants for metal accumulation and release from organisms under different environmental conditions, and the results are applied to understanding processes in specific environmental regions. We have recently been working with food webs in the Arctic, the Mediterranean, San Francisco Bay, and the Equatorial Pacific. Additionally, our research has related bioaccumulation and toxicity of select metals to phytoplankton and zooplankton in marine and freshwater environments. These studies emphasized physiological and biochemical responses to sublethal concentrations of metals.
My group has also been active in developing the capability of analyzing the trace element composition of individual plankton plankton cells using synchrotron-based x-ray fluorescence microscopy. This method is now being applied toward understanding elemental stoichiometries in different types of plankton cells and in evaluating biological responses to varying iron concentrations.
We are currently analyzing Pacific bluefin tuna and other Pacific animals for the presence of radionuclides that have been released from the Fukushima nuclear reactor in Japan, in part to evaluate public health risks and in part to use cesium radioisotopes to trace migratory patterns. We are also analyzing these fish for mercury and comparing tissue concentrations with those in Atlantic bluefin tuna.
Since October 2006 I have served as the Director of Stony Brook University’s Consortium for Inter-Disciplinary Environmental Research. I have also been active in helping to coordinate biogeochemical research in the Mediterranean and Black Seas, in conjunction with CIESM, through specialized workshops and conferences.
Fisher, N.S. 1975. Chlorinated hydrocarbon pollutants and photosynthesis of marine phytoplankton: a reassessment. Science 189: 463-464.
Fisher, N.S. 1977. On the differential sensitivity of estuarine and open-ocean diatoms to exotic chemical stress. Amer. Nat. 111: 871-895.
Fisher, N.S., G.J. Jones, and D.M. Nelson. 1981. Effects of copper and zinc on growth, morphology, and metabolism of Asterionella japonica (Cleve). J. Exp. Mar. Biol. Ecol. 51: 37-56.
Fisher, N.S., P. Bjerregaard, and S.W. Fowler. 1983. Interactions of marine plankton with transuranic elements. Limnol. Oceanogr. 28: 432-447.
Fisher, N.S. 1986. On the reactivity of metals for marine phytoplankton. Limnol. Oceanogr. 31: 443-449.
Fisher, N.S., J.K. Cochran, S. Krishnaswami, and H.D. Livingston. 1988. Predicting the oceanic flux of radionuclides on sinking biogenic debris. Nature 335: 622-625.
Reinfelder, J.R. and N.S. Fisher. 1991. The assimilation of elements ingested by marine copepods. Science 251: 794-796.
Fisher, N.S. and M. Wente. 1993. The release of trace elements by dying marine phytoplankton. Deep-Sea Res. 40: 671-694.
Wang, W.-X., N.S. Fisher and S.N. Luoma. 1996. Kinetic determinations of trace element bioaccumulation in the mussel Mytilus edulis. Mar. Ecol. Prog. Ser. 140: 91-113.
Fisher, N.S., J.-L. Teyssié, S.W. Fowler, and W.-X. Wang. 1996. Accumulation and retention of metals in mussels from food and water: a comparison under field and laboratory conditions. Environ. Sci. Technol. 30: 3232-3242.
Fisher, N.S., S.W. Fowler, F. Boisson, J.L. Carroll, K. Rissanen, B. Salbu, T.G. Sazykina, and K.L. Sjoeblom. 1999. Radionuclide bioconcentration factors and sediment partition coefficients in Arctic Seas subject to contamination from dumped nuclear wastes. Environ. Sci. Technol. 33: 1979-1982.
Roditi, H.A., N.S. Fisher, and S.A. Sañudo-Wilhelmy. 2000. Uptake of dissolved organic carbon and trace elements by zebra mussels. Nature 407: 78-80.
Fisher, N.S., I. Stupakoff, S.A. Sañudo-Wilhelmy, W.-X. Wang, J.-L. Teyssié, S.W. Fowler, and J. Crusius. 2000. Trace metals in marine copepods: a field test of a bioaccumulation model coupled to laboratory uptake kinetics data. Mar. Ecol. Prog. Ser. 194: 211-218.
Fisher, N.S. 2002. Editor. Bioaccumulation of Metals and Radionuclides in Marine Organisms. CIESM Workshop Monograph No. 19, Monaco, 120 pp.
Twining, B.S., S.B. Baines, N.S. Fisher, J. Maser, S. Vogt, C. Jacobsen, A. Tovar-Sanchez, and S.A. Sañudo-Wilhelmy. 2003. Quantifying trace elements in individual aquatic protist cells with a synchrotron x-ray fluorescence microprobe. Anal. Chem. 75: 3806-3816.
Twining, B.S., S.B. Baines, and N.S. Fisher. 2004. Element stoichiometries of individual plankton cells collected during the Southern Ocean Iron Experiment (SOFeX). Limnol. Oceanogr.49: 2115-2128.
Pickhardt, P.C., and N.S. Fisher. 2007. Accumulation of inorganic and methylmercury by freshwater phytoplankton in two contrasting water bodies. Environmental Science and Technology 41: 125-131.
Karimi, R., C.Y. Chen, P.C. Pickhardt, N.S. Fisher, and C.L. Folt. 2007. Stoichiometric controls of mercury dilution by growth. Proceedings of the National Academy of Sciences of the United States of America 104: 7477-7482.
Baines, S.B., N.S. Fisher, and J.J. Cole. 2007. Dissolved organic matter and persistence of the invasive zebra mussel (Dreissena polymorpha) under low food conditions. Limnology and Oceanography 52: 70-78.
Fisher, N.S. 2007. Editor. Marine Sciences and Public Health–Some Major Issues. CIESM Workshop Monograph No. 31, Monaco, 128 pp.
Mathews, T., and N.S. Fisher. 2008. Trophic transfer of seven trace metals in a four-step marine food chain. Marine Ecology Progress Series 367: 23-33.
Vogel, C., and N.S. Fisher. 2010. Metal accumulation by heterotrophic marine bacterioplankton. Limnology and Oceanography 55: 519-528.
Karimi, R., N.S. Fisher, and C.L. Folt. 2010. Multielement stoichiometry in aquatic invertebrates: when growth dilution matters. American Naturalist 176: 699-709.
Baumann, Z., and N.S. Fisher. 2011. Relating the sediment phase speciation of As, Cd, and Cr with their bioavailability for the deposit-feeding polychaete Nereis succinea. Environmental Toxicology and Chemistry 30: 747-756.
Chen, X., S.G. Wakeham, and N.S. Fisher. 2011. Influence of iron on fatty acid and sterol composition of marine phytoplankton and copepod consumers. Limnology and Oceanography 56: 716-724.
Karimi, R., T. Fitzgerald, and N.S. Fisher. 2012. A quantitative synthesis of mercury in commercial seafood and implications for exposure in the US. Environmental Health Perspectives 120: 1512â€“1519.
Luengen, A.C., N.S. Fisher, and B.A. Bergamaschi. 2012. Dissolved organic matter reduces algal accumulation of methylmercury. Environmental Toxicology and Chemistry 31: 1712-1719.
Buesseler, K.O., S.R. Jayne, N.S. Fisher, I.I. Rypina, H. Baumann, Z. Baumann, C.F. Breier, E.M. Douglass, J. George, A.M. Macdonald, H. Miyamoto, J. Nishikawa, S.M. Pike, and S. Yoshida. 2012. Fukushima-derived radionuclides in the ocean and biota off Japan. Proceedings of the National Academy of Sciences of the United States of America 109: 5984-5988.
Madigan, D.J., Z. Baumann, and N.S. Fisher. 2012. Pacific bluefin tuna transport Fukushima-derived radionuclides from Japan to California. Proceedings of the National Academy of Sciences of the United States of America 109: 9483-9486.
Fisher, N.S., K. Beaugelin-Seiller, T.G. Hinton, Z. Baumann, D.J. Madigan, and J. Garnier-LaPlace. 2013. An evaluation of radiation doses and associated risk from the Fukushima nuclear accident to marine biota and human consumers of seafood. Proceedings of the National Academy of Sciences of the United States of America 110:10670-10675.
From the Office of Government Relations Newsletter, June 27, 2019. On Tuesday, June 18, Professor Nicholas Fisher of Stony Brook University's School of Marine and Atmospheric Sciences (SoMAS) attended meetings in Washington, DC with staffers of Sen. Schumer, Sen....
Photo above: Dean Shepson welcomes the Class of 2019 at the SoMAS Convocation. Congratulations to our graduates! The annual SoMAS Convocation occurred on Friday, May 24, 2019 at the Center for Leadership and Service. Students gathered with their friends and family...
Photo above: Annual Service Award recipients Paulette Gerber, Nicholas Fisher and Tom Wilson with SoMAS Dean Paul Shepson.On Tuesday March 5, 2019, Stony Brook University President Stanley recognized several SoMAS colleagues at the Annual Service Awards Ceremony in...
From Researchers of the Month November 2018 at URECA This month, URECA features two students who have been active in research in the School for Marine & Atmospheric Sciences (SoMAS). Both currently participate in the Stony Brook Southampton: Semester by the Sea...
SoMAS had great, enthusiastic participation at Earthstock this year. Thank you to everyone at SoMAS who helped with the event in some way: Interim Dean Larry Swanson kicked the week off with his lecture, “Dredging Stony Brook Harbor,” at the Three Village Historical...
This is the 2018 April Fool's gag for the School of Marine and Atmospheric Sciences. While we are not currently planning any concerts, we aren't ruling anything out! April 1st, 2018. STONY BROOK, NY. - In an effort to raise money and close budgetary...
(Above) Interviewed outside the Stony Brook Southampton-based Marine Science Research Center, SoMAS Professor Chris Gobler provides insight on the algae bloom problem. From Stony Brook University's Top Stories in 2016 on the Stony Brook Newsroom Stony Brook, NY,...
From "North Atlantic Tuna Less Toxic, Study Finds" on SBU Happenings, 2016-12-07 In a piece of welcome news for seafood lovers, a Stony Brook-led research team has found declining levels of mercury in bluefin tuna caught in the North Atlantic over the past...
SoMAS faculty and alumni attending the 2016 Ocean Sciences Meeting in New Orleans gathered for an alumni reunion. Professors Gordon Taylor and Mary Scranton organized the event and invited SoMAS alumni present at the conference to reunite. Other SoMAS faculty in...
In 2012, SoMAS Professor Nicholas Fisher and postdoctoral scholar Zosia Baumann, working with a colleague at Stanford University’s Hopkins Marine Station, reported that they had detected radioactivity in Pacific bluefin tuna swimming off the California coast. The...