Stuart Findlay
Findlay, Stuart E. G., Michael L. Pace, D. Lints, Jonathan J. Cole, Nina F. Caraco, and B. L. Peierls. 1991. “Weak Coupling of Bacterial and Algal Production in a Heterotrophic Ecosystem, the Hudson Estuary”. Limnol. Oceanogr. 36: 268-78. http://www.caryinstitute.org/reprints/Weak_coupling_of_bacterial_and_algal_production.pdf.
Findlay, Stuart E. G., Michael L. Pace, and D. Lints. 1991. “Variability and Transport of Suspended Sediment, Particulate and Dissolved Organic Carbon in the Tidal Freshwater Hudson River”. Biogeochemistry 12: 149-69.
Bianchi, T. S., and Stuart E. G. Findlay. 1991. “Decomposition of Hudson Estuary Macrophytes: Photosynthetic Pigment Transformations and Decay Constants”. Estuaries 14: 65-73.
Bianchi, T. S., Stuart E. G. Findlay, and D. Fontvieille. 1991. “Experimental Degradation of Plant Materials in Hudson River Sediments. I. Heterotrophic Transformations of Plant Pigments”. Biogeochemistry 12: 171-87.
Toolan, T., J. D. Wehr, and Stuart E. G. Findlay. 1991. “Inorganic Phosphorus Stimulation of Bacterioplankton Production in a Meso-Eutrophic Lake”. Appl. Environ. Microbiol. 57: 2074-78.
Gould, K., and Stuart E. G. Findlay. 1991. “Changes in Interstitial Water Chemistry Along a Salinity Gradient in the Hudson River”. J. Waldman and E. A. Blair (eds.). Polgar Fellowship Reports of the Hudson River National Estuarine Research Reserve Program, 1990. Hudson River Foundation, New York, New York.
Edwards, R. T., J.L. Meyer, and Stuart E. G. Findlay. 1990. “The Relative Contribution of Benthic and Suspended Bacteria to System Biomass, Production, and Metabolism in a Low-Gradient Blackwater River”. J. N. Am. Benthol. Soc. 9: 216-28.
Findlay, Stuart E. G., K. Howe, and H.K. Austin. 1990. “Comparison of Detritus Dynamics in Two Tidal Freshwater Wetlands”. Ecology 71: 288-95.
Findlay, Stuart E. G., and Clive G. Jones. 1990. “Exposure of Cottonwood Plants to Ozone Alters Subsequent Leaf Decomposition”. Oecologia 82: 248-50.
Pace, Michael L., G. B. McManus, and Stuart E. G. Findlay. 1990. “Planktonic Community Structure Determines the Fate of Bacterial Production in a Temperate Lake”. Limnol. Oceanogr. 35: 795-808.