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Publications
Bowen, J. L., B. B. Ward, H. G.Morrison, J. H. Hobbie, I. Valiela, L. A. Deegan, and M. L. Sogin. Submitted. Long-term nitrogen inputs have little effect on salt marsh microbial community composition. Science.
Brin, L. D. 2008. Nitrogen Retention and Export in Experimental Salt Marsh Plots Exposed to Chronic Nutrient Addition. MA Thesis. Boston University.
Brin, L. D., I. Valiela, D. Goehringer, and B. Howes. 2010. Nitrogen interception and export in Great Sippewissett salt marsh plots exposed to chronic experimental nutrient addition. Mar. Ecol. Progr. Ser. In press.
Carpenter, E. J., C. D. vanRaalte, and I. Valiela. 1978. Nitrogen fixation by algae in a Massachusetts salt marsh. Limnol. Oceanogr. 23: 318-327.
Fox, L. I. Valiela, and E. L. Kinney. Submitted. Vegetation cover and elevation in long-term experimental nutrient enrichment plots in Great Sippewissett salt marsh, Cape Cod, Massachusetts: Implications for eutrophication and sea level rise. Estuaries and Coasts.
Fox, L. 2007. The Effect of Nutrient Enrichment and Sea level Rise on Salt Marsh Vegetation. MA Thesis, Boston University.
Howes, B. L., R. W. Howarth, J. M. Teal, and I. Valiela. 1981. Oxidation-reduction potentials in a salt marsh: Spatial patterns and interactions with primary production. Limnol. Oceanogr. 26: 350-360.
Kaplan, W., I. Valiela, and J. M. Teal. 1979. Denitrification in a salt marsh ecosystem. Limnol. Oceanogr. 24: 726-734.
Kinney, E. L. 2010. Experimental and regional studies of sources of nitrogen using models and stable isotopes in salt marshes. Ph. D. Diss., Boston University.
Rogers, J., J. Harris, and I. Valiela. 1998. Interaction of nitrogen supply, sea level rise and elevation on species form and composition of salt marsh plants. Bio. Bull. 195: 235-237.
Rietsma, C. S., R. O. Monteiro, and I. Valiela. Submitted. Plant cover, herbivory, and resiliency in a Cape Cod salt marsh: Responses to multi-year manipulation of nutrient supply and competition. Estuaries and Coasts.
Valiela, I. and J. M. Teal. 1974. Nutrient limitation in salt marsh vegetation. Ecology of Halophytes. Pp. 547-563 in R. J. Reimold and W. H. Queen (Eds.). Academic Press, NY.
Valiela, I., J. M. Teal, and N. Y. Persson. 1976. Production and dynamics of experimentally enriched salt marsh vegetation: Belowground biomass. Limnology and Oceanography 21: 245-252.
Valiela, I., J.M. Teal, S. Volkmann, D. Shafer, and E.J. Carpenter. 1978. Nutrient and particulate fluxes in a salt marsh ecosystem: Tidal exchanges and inputs by precipitation and groundwater. Limnol. Oceanogr 23:798-812.
Valiela, I., and J.M. Teal. 1979. The nitrogen budget of a salt marsh ecosystem. Nature 280:652-656.
Valiela, I., J. M. Teal, S. Volkmann, R. Van Etten, and S. Allen. 1985. Decomposition in salt marsh ecosystems: The phases and major factors affecting disappearance of above-ground organic matter. J. Exp. Mar. Biol. Ecol. 89:1-26.
Valiela, I., and R. Buchsbaum. 1991. The role of phenolics in marine organisms and ecosystems. Pp. 23-28 in M.-F. Thompson, R. Sarojini, and R. Nagabhushanam (Eds.). Bioactive Compounds from Marine Organisms. Oxford & IBH Publ. Co. PVT. Ltd.
Valiela, I., and C.S. Rietsma. Disturbance of salt marsh vegetation by wrack mats in Great Sippewissett Marsh. Oecologia 102:106-112.
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