
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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Arrival, spread, and early dynamics of a zebra mussel (Dreissena polymorpha) population in the Hudson River estuary”, Can. J. Fish. Aquat. Sci., vol. 53, p. 1143-1149, 1996.
, “ Biodiversity in Hudson River shore zones: influence of shoreline type and physical structure”, Aquat. Sci., vol. 74, p. 597-610, 2012.
, “ Changes in bacterial activity and community structure in response to dissolved organic matter in the Hudson River, New York”, Aquat. Microb. Ecol., vol. 35, p. 243-257, 2004.
, “ Consumption, selectivity, and use of zooplankton by larval striped bass and white perch in a seasonally pulsed estuary”, Trans. Am. Fish. Soc., vol. 126, p. 607-621, 1997.
, “ Decadal-Scale Change in a Large-River Ecosystem”, BioScience, vol. 64, no. 6, p. 496 - 510, 2014.
, “ Dissolved oxygen declines in the Hudson River associated with the invasion of the zebra mussel (Dreissena polymorpha)”, Environ. Sci. Technol., vol. 34, p. 1204-1210, 2000.
, “ Ecosystem attributes related to tidal wetland effects on water quality”, Ecology, vol. 94, no. 1, p. 117 - 125, 2013.
, “ 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.
, “ Effects of an invasive bivalve on the zooplankton community of the Hudson River”, Freshwater Biol., vol. 39, p. 103-116, 1998.
, “ Enzymatic analysis of riverine bacterioplankton production”, Limnol. Oceanogr., vol. 42, p. 29-38, 1997.
, “ Estimates of bacterial production using the leucine incorporation method are influenced by differences in protein retention of microcentrifuge tubes”, Limnol. Oceanogr. Methods, vol. 2, p. 55-61, 2004.
, “ Littoral-zone influences on particulate organic matter composition along the freshwater-tidal Hudson River, New York”, Limnology and Oceanography, vol. 57, no. 5, p. 1303-1316, 2012.
, “ Microbial assimilation of DIN in a nitrogen rich estuary: implications for food quality and isotope studies”, Mar. Ecol. Prog. Ser., vol. 167, p. 59-71, 1998.
, “ Multi-scale controls on water quality effects of submerged aquatic vegetation in the tidal freshwater Hudson River”, Ecosystems, vol. 9, p. 84-96, 2006.
, “ Predicting carbon and nutrient transformations in tidal freshwater wetlands of the Hudson River”, Ecosystems, vol. 11, p. 790-802, 2008.
, “ Recovery of native zooplankton associated with increased mortality of an invasive mussel”, Ecosphere, vol. 1, p. W07415, 2010.
, “ Relationship of bacterial growth efficiency to spatial variation in bacterial activity in the Hudson River”, Aquat. Microb. Ecol., vol. 45, p. 55-67, 2006.
, “ Response of heterotrophic planktonic bacteria to the zebra mussel invasion of the tidal freshwater Hudson River”, Microb. Ecol., vol. 36, p. 131-140, 1998.
, “ Sources of dissolved organic carbon supporting planktonic bacterial production in the tidal freshwater Hudson River”, Ecosystems, vol. 1, p. 227-239, 1998.
, “ Spatial and temporal variability in the lower food web of the tidal freshwater Hudson River”, Estuaries, vol. 19, p. 866-873, 1996.
, “ Submersed macrophyte effects on nutrient cycling in riverine sediments: contribution of "New" inputs”, Estuaries, vol. 24, p. 398-406, 2001.
, “ Total carbon analysis may overestimate organic carbon content of fresh waters in the presence of high dissolved inorganic carbon”, Limnol. Oceanogr. Methods, vol. 8, p. 196-201, 2010.
, “ Wetland-driven shifts in suspended particulate organic matter composition of the Hudson River estuary, New York”, Limnol. Oceanogr., vol. 55, p. 1653-1667, 2010.
, “ Zebra mussel invasion in a large, turbid river: phytoplankton response to increased grazing”, Ecology, vol. 78, p. 588-602, 1997.
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