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Journal Article

Gardner L.R., Gaines E.F.. 2008. A method for estimating pore water drainage from marsh soils using rainfall and well records. Estuarine, Coastal and Shelf Science. 79:51-58.

Preheim S.P., Boucher Y., Woldschutte H., David L.A., Veneziano D., Alm E.J., Polz M.F.. 2011. Metapopulation structure of Vibrionaceae among coastal marine invertebrates. Environmental Microbiology. 13:265-275.

Bulseco A.N., Vineis J.H., Murphy A.E., Spivak A.C., Giblin A.E., Tucker J., Bowen J.L.. 2019. Metagenomics coupled with biogeochemical rates measurements provide evidence that nitrate addition stimulates respiration in salt marsh sediments.. Limnology and Oceanography. 65

Bulseco AN, Vineis JH, Murphy AE, Spivak AC, Giblin AE, Tucker J, Bowen JL. 2020. Metagenomics coupled with biogeochemical rates measurements provide evidence that nitrate addition stimulates respiration in salt marsh sediments. Limnology and Oceanography. 65

Runfola D.S.M., Pontius, Jr. R.G.. 2013. Measuring the temporal instability of land change using the Flow matrix. International Journal of Geographical Information Science.

Holmes R.M., McClelland J., Sigman D.M., Fry B., Peterson B.J.. 1998. Measuring 15N-NH4 in marine, estuarine, and freshwaters: an adaptation of the ammonium diffusion method for samples with low ammonium concentrations.. Marine Chemistry. 60:235-243.

Forbrich I., Giblin A.E.. 2015. Marsh-atmosphere exchange of CO2 in a New England salt marsh. Journal of Geophysical Research- Biogeosciences. 120

Krest J.M, Moore W.S., Gardner L.R., Morris J.T.. 2000. Marsh nutrient export supplied by ground water discharge: Evidence from radium measurements. Global Biogeochemical Cycles. 14:167-176.

Aldwaik S., Pontius, Jr. R.G.. 2013. Map errors that could account for deviations from a uniform intensity of land change. International Journal of Geographical Information Science .

Dodds W.K., Webster J.R, Crenshaw C., Helton A.M., O'Brien J.M., Marti E., Hershey A.E., Tank J.L., Burgin A.J., Grimm N.B. et al.. 2014. The Lotic Intersite Nitrogen Experiments: an example of successful ecological research collaboration.. Freshwater Science. 33:700-710.

Bernhard A., Donn T.M., Giblin A.E., Stahl D.A.. 2005. Loss of Diversity of Ammonia-Oxidizing Bacteria Correlates with Increasing Salinity in an Estuary System.. Environmental Microbiology. 7:1289-1297.

Liu Z, Fagherazzi S, Liu X, Shao D, Miao C, Cai Y, Hou C, Liu Y, Li X, Cui B. 2022. Long-term variations in water discharge and sediment load of the Pearl River Estuary: Implications for sustainable development of the Greater Bay Area. Frontiers in Marine Science. 9

Mitwally H.M., Fleeger J.W.. 2013. Long-term nutrient enrichment elicits a weak density response by saltmarsh meiofauna. Hydrobiologia. 713:97-114.

Mitwally H.M., Fleeger J.W.. 2014. Long-term nutrient enrichment alters nematode trophic structure and body size in a Spartina alterniflora salt marsh. Marine Ecology. :1-16.

Canfield S., Claessens L., Hopkinson C.S., Rastetter E., Vallino J.. 1999. Long-term effect of municipal water use on the water budget of the Ipswich River basin. Biological Bulletin. 197:295-297.

San Gil I., Baker K., Campbell J., Denny E.G., Vanderbilt K., Riordan B., Koskela R., Downing J., Grabner S., Melendez E. et al.. 2009. The Long-Term Ecological Research community metadata standardisation project: a progress report.. International Journal of Metadata, Semantics and Ontologies. 4:141-153.

Gaiser EE, Kominoski JS, McKnight DM, Bahlai CA, Cheng C, Record S, Wollheim WM, Christianson KR, Downs MR, Hawman PA et al.. 2022. Long-term ecological research and the COVID-19 anthropause: A window to understanding social–ecological disturbance. Ecosphere. 13:e4019.

Jankowski KJo, Johnson K, Sethna L, Julian P, Wymore AS, Shogren AJ, Thomas PK, Sullivan PL, McKnight DM, McDowell WH et al.. 2023. Long-Term Changes in Concentration and Yield of Riverine Dissolved Silicon From the Poles to the Tropics. Global Biogeochemical Cycles. 37:e2022GB007678.

Leonardi N., Fagherazzi S.. 2015. Local variability in erosional resistance affects large scale morphodynamic response of salt marshes to wind waves. Geophysical Research Letters. 42

Raciti S., Fahey T., Hall B., Driscoll C., Carranti F.J., Foster D., Gwyther P.S., Jenkins J., Hamburg S., Neill C. et al.. 2012. Local scale carbon budgets and mitigation opportunities for the Northeastern United States.. BioScience. 62:23-38.

Sangermano F, Pontius RGilmore, Chaitman J, Meneghini A. 2021. Linking land change model evaluation to model objective for the assessment of land cover change impacts on biodiversity. Landscape Ecology. 36:2707–2723.

Farber S, Costanza D., Childers D., Erikson J., Gross K., Grove M., Hopkinson C., Kahn J., Pincetl S., Troy A. et al.. 2006. Linking ecology and economics for ecosystem management. BioScience. 56:121-134.

Leonardi N., Ganju N.K., Fagherazzi S.. 2016. A linear relationship between wave power and erosion determines salt-marsh resilience to violent storms and hurricanes. PNAS. 113:64-68.

Kirwan M.L., Guntenspergen G.R., D'Alpaos A., Morris J.T, Mudd S.M., Temmerman S.. 2010. Limits on the adaptability of coastal marshes to rising sea level. Geophysical Research Letters. 37

Spivak A.C., Ossolinski J.. 2016. Limited effects of nutrient enrichment on bacterial carbon sources in salt marsh tidal creek sediments. Marine Ecological Progress Series. 544:107-130.

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