PIE LTER Publications

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Battin T.J., Kaplan L., Findlay S., Hopkinson C., Marti E., Packman A., Newbold J.D., Sabater F..  2008.  Biophysical controls on organic carbon fluxes in fluvial networks. Nature Geoscience. 1:95-100.
Bauer J.E., Cai W-J., Raymond P.A, Bianchi T.S., Hopkinson C.S., Regnier P.A.G..  2013.  The changing carbon cycle of the coastal ocean.. Nature. 504:61-70.
Bouillon S., Boschker H.T.S..  2006.  Bacterial carbon sources in coastal sediments: a cross-system analysis based on stable isotope data of biomarkers. Biogeosciences. 3:175-185.
Briggs M.A., Gooseff M.N., Peterson B.J., Morkeski K., Wollheim W.M., Hopkinson C.S..  2010.  Surface and hyporheic transient storage dynamics throughout a coastal stream network.. Water Resources Research. 46
Buchsbaum R.N., Deegan L.A., Horowitz J., Garritt R.H., Ludlam J.P., Shull D.H.  2009.  Effects of regular salt marsh haying on marsh plants, algae, invertebrates and birds at Plum Island Sound, Massachusetts. Wetlands Ecology and Management. 17:469-487.
Bulseco A.N., Giblin A.E., Tucker J., Murphy A.E., Hiller-Bittrolff K., Bowen J.L..  2019.  Nitrate addition stimulates microbial decomposition of organic matter in salt marsh sediments. Global Change Biology.
Bulseco-McKim A..  2018.  The role of nitrate as an electron acceptor in microbial decomposition of salt marsh sediment organic matter and implications for carbon storage. PhD
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Davey E., Wigand C., Johnson R., Sundberg K., Morris J., Roman C.T..  2011.  Use of computed tomography imaging for quantifying coarse roots, rhizomes, peat, and particle densities in marsh soils. Ecological Applications. 21:2156-2171.
Day J.W., Christian R.R., Boesch D.M., Yanez-Arancibia A., Morris J.T., Twilley R.R., Naylor L., Schaffner L., Stevenson C..  2008.  Consequences of climate change on the ecogeomorphology of coastal wetlands. Estuaries and Coasts. 31:477-491.
Deegan L.A., Bowen J.L., Drake D.C., Fleeger J.W., Friedrichs C.T., Galván K.A., Hobbie J.E., Hopkinson C., Johnson D.S., Johnson J.M. et al..  2007.  Susceptibility of salt marshes to nutrient enrichment and predator removal. Ecological Applications. 17:S-42-S63.
Deegan L.A., Johnson D.S., Warren R.S., Peterson B.J., Fleeger J.W., Fagherazzi S., Wollheim W.M..  2012.  Coastal eutrophication as a driver of salt marsh loss. Nature. 490:388-392.
Demberger S..  2020.  Quantifying and Valuing Carbon and Nitrogen Sequestration as Ecosystem Services in Salt Marshes.. MS
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.
Drake D.C., Peterson B.J., Deegan L.A., Harris L.A., Miller E.E., Warren R.S..  2008.  Plant nitrogen dynamics in fertilized and natural New England saltmarshes: a paired 15N tracer study. Marine Ecology Progress Series. 354:35-46.
Drake D.C., Peterson B.J., Galván K.A., Deegan L.A., Fleeger J.W., Hopkinson C., Johnson J.M., Koop-Jakobsen K., Lemay L.E., Miller E.E. et al..  2009.  Salt marsh ecosystem biogeochemical responses to nutrient enrichment: A paired 15N tracer study.. Ecology. 90:2535-2546.

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