Publications
The Institute communicates its scientific and educational information in a number of ways. One major outlet is peer-reviewed publications and reports. Cary Institute staff regularly publish in the best-rated journals in their respective fields.
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, “Exposure of cottonwood plants to ozone alters subsequent leaf decomposition”, Oecologia, vol. 82, p. 248-250, 1990.
, “Multi-scale controls on water quality effects of submerged aquatic vegetation in the tidal freshwater Hudson River”, Ecosystems, vol. 9, p. 84-96, 2006.
, “Spatial and temporal variability in the lower food web of the tidal freshwater Hudson River”, Estuaries, vol. 19, p. 866-873, 1996.
, “Variability and transport of suspended sediment, particulate and dissolved organic carbon in the tidal freshwater Hudson River”, Biogeochemistry, vol. 12, p. 149-169, 1991.
, “Unravelling the sources and bioavailability of dissolved organic matter in lotic aquatic ecosystems”, Mar. Freshwat. Res., vol. 50, p. 781-790, 1999.
, “Emerging indirect and long-term road salt effects on ecosystems”, in Annals of the New York Academy of Sciences – The Year in Ecology and Conservation Biology, vol. 1223, 2011, p. 58-68.
, “Abundance, composition and dynamics of the invertebrate fauna of a tidal freshwater wetland”, J. N. Am. Benthol. Soc., vol. 8, p. 140-148, 1989.
, “Effect of the invasive zebra mussel (Dreissena polymorpha) on the microbial food web in the tidal freshwater Hudson River”, Microb. Ecol., vol. 36, p. 131-140, 1998.
, “Land-use effects on supply and metabolism of stream dissolved organic carbon”, Limnol. Oceanogr., vol. 46, p. 345-355, 2001.
, “Carbon flows, nutrient cycling and food webs”, in A. Barendregt, D.F. Whigham, and A.H. Baldwin (eds.). Tidal Freshwater Wetlands, 2008, p. 137-144.
, “Contribution of fungal biomass to the diet of a freshwater isopod (Lirceus sp.)”, Freshwater Biol., vol. 16, p. 377-385, 1986.
, “Microbial enzymatic response to catchment-scale variations in supply of dissolved organic carbon”, NZ J. Mar. Freshwater Res., vol. 31, p. 701-706, 1997.
, “Metabolic and structural response of hyporheic microbial communities to variations in supply of dissolved organic matter”, Limnol. Oceanogr., vol. 48, p. 1608-1617, 2003.
, “Metabolism of streamwater dissolved organic carbon in the shallow hyporheic zone”, Limnol. Oceanogr., vol. 38, p. 1493-1499, 1993.
, “Comparison of detritus dynamics in two tidal freshwater wetlands”, Ecology, vol. 71, p. 288-295, 1990.
, “Bacterial abundance, growth and metabolism in the tidal freshwater Hudson River.”, in J. S. Levinton and J. R. Waldman (eds.). The Hudson River Estuary, 2006, p. 99-106.
, “Effects of damage to living plants on leaf litter quality”, Ecol. Appl., vol. 6, p. 269-275, 1996.
, “Cross-stream comparison of substrate-specific denitrification potential”, Biogeochemistry, vol. 104, p. 381-392, 2011.
, “Organic Matter Decomposition”, in K. C. Weathers, D. L. Strayer and G. E. Likens (eds.). Fundamentals of Ecosystem Science, 2012, p. 75-94.
, “Microbial growth and nitrogen retention in litter of Phragmites australis compared to Typha angustifolia”, Wetlands, vol. 22, p. 616-625, 2002.
, “Weak coupling of bacterial and algal production in a heterotrophic ecosystem, the Hudson Estuary”, Limnol. Oceanogr., vol. 36, p. 268-278, 1991.
, “Linkages between people and ecosystems: How did we get from separate to equal?”, in An Environmental History of the Hudson River, R. Henshaw, ed., 2011.
, “Increased carbon transport in the Hudson River: Unexpected consequence of nitrogen deposition?”, Front. Ecol. Environ., vol. 3, p. 133-137, 2005.
, “Response of heterotrophic planktonic bacteria to the zebra mussel invasion of the tidal freshwater Hudson River”, Microb. Ecol., vol. 36, p. 131-140, 1998.