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An actively curated bibliography of high impact LTER research products dating from 1980.

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Thompson VD. The Rhythms of Space-Time and the Making of Monuments and Places during the Archaic. In: Sanger M Trend, Tradition, and Turmoil: What Happened to the Southeastern Archaic? Trend, Tradition, and Turmoil: What Happened to the Southeastern Archaic? ; 2010. p. 217-227.

Biers EJ, Zepp RG, Moran MA. The role of nitrogen in chromophoric and fluorescent dissolved organic matter formation. Marine Chemistry. 2007;103:46-60.

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Alber M, Swenson EM, Adamowicz SC, Mendelssohn IA. Salt marsh dieback: An overview of recent events in the US. Estuarine, Coastal and Shelf Science. 2008;80:1-11.

Ogburn MB. Salt marsh dieback in Georgia: Field survey and transplant experiments. M.S. Thesis [Internet]. 2004:108. Available from: http://gce-lter.marsci.uga.edu/public/files/pubs/Ogburn_Matthew_MS_2004.pdf

Zimmer M, Pennings SC, Buck TL, Carefoot TH. Salt Marsh Litter and Detritivores: A Closer Look at Redundancy. Estuaries. 2004;27(5):753.

Silliman BR, Grosholtz T, Bertness MD. Salt marshes under global siege. In: Bertness MD Human Impacts on Salt Marshes: A Global Perspective. Human Impacts on Salt Marshes: A Global Perspective. ; 2009. p. 391-398.

Newell SY, Lyons JI, Moran MA. A saltmarsh decomposition system and its ascomycetous laccase genes. In: Watkinson S Fungi in the Environment. Fungi in the Environment. Cambridge, UK; 2007. p. 357-370.

Wrona AB, Batzer D, Alber M, Sharitz RR. Savannah River, Georgia: Science to support adaptive implementation of environmental flows to a large coastal river, floodplain, and estuary. Water Resources Impact. 2007;9(4):21-24.

Lyons JI, Newell SY, Brown RP, Moran MA. Screening for bacterial-fungal associations in a southeastern U.S. salt marsh using pre-established fungal monocultures. FEMS Microbiology Ecology. 2005;54:179-187.

Elston SA. Secondary Circulation in a Sinuous Coastal Plain Estuary. Ph.D. Dissertation, Georgia Institute of Technology [Internet]. 2005. Available from: http://etd.gatech.edu/theses/available/etd-05042005-143327/

Bertness MD, Silliman BR, Holdredge C. Shoreline development and the future of New England salt marsh landscapes. In: Bertness MD Human Impacts on Salt Marshes: A Global Perspective. Human Impacts on Salt Marshes: A Global Perspective. ; 2009. p. 137-148.

Craft CB, Clough J, Ehman J, Joye SB, Park R, Pennings SC, Guo H, Machmuller M. SLR and ecosystem services: a response to Kirwan and Guntenspergen. Frontiers in Ecology and the Environment [Internet]. 2009;7:127-128. Available from: http://gce-lter.marsci.uga.edu/public/uploads/Craft_et_al_2009_Writeback_20120221T135811.pdf

Reader HE. Smouldering oceans: on the photochemically mediated oxidation of dissolved organic matter in coastal waters. [Internet]. 2011:194. Available from: http://gce-lter.marsci.uga.edu/public/files/pubs/HReader_PhD_2011.pdf

Wang Z, Cai W-J, Wang Y, Ji H. The southeastern continental shelf of the United States as an atmospheric CO2 source and an exporter of inorganic carbon to the ocean. Continental Shelf Research. 2005;25:1917-1941.

Sheldon JE, Griffith PC, Peters F, Sheldon WM, Blanton JO, Amft J, Pomeroy LR. Southeastern U.S.A. continental shelf respiratory rates revisited. Biogeochemistry [Internet]. 2012;107:501-506. Available from: http://www.springerlink.com/openurl.asp?genre=article&id=doi:10.1007/s10533-010-9552-0

White SN. Spartina species zonation along an estuarine gradient in Georgia: Exploring mechanisms controlling distribution. Ph.D. Dissertation [Internet]. 2004:206. Available from: http://gce-lter.marsci.uga.edu/public/files/pubs/White_Susan_PhD_2004.pdf

Cleland EE, Burke IC, Lauenroth GP, Robertson JC, Simpson JC, Tilman D, Suding KN, Clark CM, Collins SL, Fargione JE. Species responses to nitrogen fertilization in herbaceous plant communities, and associated species traits. Ecology. 2008;89:1175.

Kang KR, Di Iorio D. A study of estuarine flow using the roving adcp data. Ocean Science Journal [Internet]. 2008;43(2):81-90. Available from: http://www.springerlink.com/content/mn37822204u01566/

Seminara DN. Synoptic comparison of salt marsh spatial structure using hyperspectral imagery at NOAA National Estuarine Research Reserves. [Internet]. 2010:177. Available from: http://hdl.handle.net/10504/16048

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Schaefer SC, Alber M. Temperature controls a llatitudinal gradient in the proportion of waterhsed nitrogren exported to coastal ecosystems. Biogeochemistry [Internet]. 2007;85(3):333-346. Available from: http://www.springerlink.com/content/u0146q6420406j04/

Weston NB, Joye SB. Temperature-driven decoupling of key phases of organic matter degradation in marine sediments. Proceedings of the National Academy of Sciences (USA) [Internet]. 2005;102(47):17036-17040. Available from: http://www.pnas.org/cgi/content/full/102/47/17036?maxtoshow=&HITS=10&hits=10&RESULTFORMAT=&fulltext=weston+%2B+joye&searchid=1136415104224_10182&FIRSTINDEX=0&journalcode=pnas

Schaefer SC, Alber M. Temporal and spatial trends in nitrogen and phosphorus inputs to the watershed of the Altamaha River, Georgia, USA. Biogeochemistry [Internet]. 2007;86(3):231-249. Available from: http://www.springerlink.com/content/233v31u287300447/

McKay P. Temporal and Spatial Variability of Transport and Mixing Mechanisms: Using Heat and Salt in the Duplin River, Georgia. Estuarine Coastal Shelf Science [Internet]. 2008:217. Available from: http://gce-lter.marsci.uga.edu/public/files/pubs/GCEPub453_Mckay_PhD_2008.pdf

Thoresen M. Temporal and spatial variation in seston available to oysters and the contribution of benthic diatoms to their diet in the Duplin River, Georgia. Ph.D. Dissertation [Internet]. 2004:220. Available from: http://gce-lter.marsci.uga.edu/public/files/pubs/Thoresen_Merrilee_PhD_2004.pdf

Seim HE, Blanton JO, Elston SA. Tidal circulation and energy dissipation in a shallow, sinuous estuary. Ocean Dynamics [Internet]. 2006;56(3-4):360-375. Available from: http://www.springerlink.com/content/q5173t34035t5trj/?p=cc0ba380916a414a9619d6b49edbe176&pi=1

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© Copyright 2013 LTER. MSC03 2020, 1 University of New Mexico, Albuquerque, NM, USA 87131.

This material is based upon work supported by the National Science Foundation under Cooperative Agreements #DEB#9634135 (3/15/97 - 2/29/04), DEB#0236154 (3/1/03 - 2/28/10), DEB#0832652 (5/1/09 - 4/30/15 (Core funding)), DEB#0936498 (9/1/09 - 8/31/14 (ARRA funding)). Any opinions, findings, conclusions, or recommendations expressed in the material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.

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