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Sturdy L. 2018. Herbivory and Predation Patterns in Salt Marsh Habitats of Varying Size and Varying Distribution of Spartina alterniflora and S. patens . BS

Simenstad C., Brandt S., Chalmers A., Dame R., Deegan L., Hodson R., Houde E.. 2000. Habitat-biotic interactions. Estuarine Science: A Synthetic Approach to Research and Practice. :427-460.

Kennedy C.G.. 2013. Habitat heterogeneity concentrates predators in the seascape: linking intermediate-scale estuarine habitat to striped bass distribution. MS

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Agnew A.M., Shull D.H., Buchsbaum R.N.. 2003. Growth of a salt marsh invertebrate on several species of marsh grass detritus.. Biological Bulletin. 205:238-239.

Runfola D.M., Polsky C., Nicolson C., Giner N.M., Pontius, Jr. R.G., Krahe J., Decatur A. 2013. A growing concern? Examining the influence of lawn size on residential water use in suburban Boston, MA, USA Landscape and Urban Planning. 119:113-123.

Emeis K.C, Benoit J.R., Deegan L., Gilbert A.J., Lee V., Glade J.M., Meybeck M., Olsen S.B., Von Bodungen B.. 2001. Group 4: Unifying concepts for integrated coastal management.. Science and Integrated Coastal Management.

Shafizadeh-Moghadam H., Minaei M., Feng Y., Pontius, Jr. R.G.. 2019. GlobeLand30 maps show four times larger gross than net land change from 2000 to 2010 in Asia. International Journal of Applied Earth Observation and Geoinformation.

Komatsu K.J., Avolio M.L, Lemoine N.P., Isbell F., Grman E., Houseman G.R., Koerner S.E., Johnson D.S., Wilcox K.R., Alatalo J.M. et al.. 2019. Global-change effects on plant communities are magnified by time and the number of global-change factors imposed.. Proceedings of the National Academy of Sciences of the United States of America. 116:17867-17873.

Spivak A.C., Sanderman J., Bowen J.L., Canuel E.A., Hopkinson C.S.. 2019. Global-change controls on soil-carbon accumulation and loss in coastal vegetated ecosystems. Nature Geoscience. 12:685-692.

Wollheim W.M., Vorosmarty C.J., Bouwman A.F., Green P.A., Harrison J., Linder E., Peterson B.J., Green P.A., Seitzinger S., Syvitski J.P.M.. 2008. Global N removal by freshwater aquatic systems A spatially distributed, within-basin approach. Global Biogeochemical Cycles. 22

Smith M.D., La Pierre K.J., Collins S.L., Knapp A.K., Gross K.L., Barrett J.E., Frey S.D., Gough L., Miller R.J., Morris J.T. et al.. 2015. Global environmental change and the nature of aboveground net primary productivity responses: insights from long‑term experiments. Oecologia.

Thompson J.R., Pacocha S., Pharino C., Klepac-Ceraj V., Hunt D.E., Benoit J., Sarma-Rupavtarm R., Distel D.L., Polz M.F.. 2005. Genotypic diversity within a natural coastal bacterioplankton population.. Science. 307:1311-1313.

Raymond P.A, Cole J.J.. 2001. Gas exchange in rivers and estuaries: Choosing a gas transfer velocity. Estuaries. 24:312-217.

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Runfola D.M., Polsky C., Giner N., Pontius, Jr. R.G., Nicolson C.. 2013. Future Suburban Development and the Environmental Implications of Lawns: A Case Study in New England, USA. Modeling of Land-use and Ecological Dynamics. :119-141.

Aldwaik S.. 2012. Fundamental concepts of intensity analysis to understand changes among categories. Ph.D.:131.

Bernhard A.E., Tucker J., Giblin A.E., Stahl D.A.. 2007. Functionally distinct communities of ammonia-oxidizing bacteria along an estuarine salinity gradient. Environmental Microbiology. 9:1439-1447.

Graves C.J., Makrides E., Schmidt V., Giblin A.E., Cardon Z.G., Rand D.M.. 2016. Functional responses of salt marsh microbial communities to long-term nutrient enrichment. Applied and Environmental Microbiology. 82:2862-2871.

Wollheim W.M.. 2016. From Headwaters to rivers to river networks: scaling in stream ecology. Streams In a Changing Environment. :349-388.

Avolio M.L, La Pierre K.J., Houseman G.R., Koerner S.E., Grman E., Isbell F., Johnson D.S., Wilcox K.R.. 2015. A framework for quantifying the magnitude and variability of community responses to global change drivers. Ecosphere. 6

Fagherazzi S., Wiberg P.L., Temmerman S., Struyf E., Zhao Y., Raymond P.A. 2013. Fluxes of water, sediments, and biogeochemical compounds in salt marshes. Ecological Processes.

Meybeck M., Vorosmarty C.J.. 2005. Fluvial filtering of land to ocean fluxes: from Holocene variations to Anthrocene.. Compte Rendus. 337:107-123.

Stewart L.C., Algar C.K., Fortunato C.S., Larson B.I., Vallino J.J., Huber J.A., Butterfield D.A., Holden J.F.. 2019. Fluid geochemistry, local hydrology, and metabolic activity define methanogen community size and composition in deep-sea hydrothermal vents. ISME.

Crosby S.C., Ivens-Duran M., Bertness M.D., Davey E., Deegan L.A., Leslie H.M.. 2015. Flowering and biomass allocation in U.S. Atlantic coast Spartina alterniflora. American Journal of Botany. 102

Mudd S.M., Fagherazzi S., Morris J.T., Furbish D.J.. 2004. Flow, sedimentation, and biomass production on a vegetated salt marsh in South Carolina: toward a predictive model of marsh morphologic and ecologic evolution.. The Ecogeomorphology of Tidal Marshes. :165-187.

Nielsen J.L., Schramm A., Bernhard A.E., EnghG.J. vanden, Stahl D.A.. 2004. Flow Cytometry-Assisted Cloning of Specific Sequence Motifs from Complex 16S rRNA Gene Libraries. Applied and Environmental Microbiology. 70:7550-7554.

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