PIE LTER Publications

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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.
Beaulieu J.J, Tank J.L., Hamilton S.K, Wollheim W., Hall R., Mulholland P., Peterson B., Ashkenas L., Cooper L., Dahm C. et al..  2011.  Nitrous oxide emission from denitrification in stream and river networks. Proceedings of the National Academy of Science. 108:214-219.
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.
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.
Bernhard A., Landry Z.C., Blevins A., Torre J.R.de al, Giblin A.E., Stahl D.A..  2010.  Abundance of ammonia-oxidizing Archaea and Bacteria along an estuarine salinity gradient in relationship to potential nitrification rates.. Applied and Environmental Microbiology. 76:1285-1289.
Bernot M.J., Bernot R.J., Morris J.T..  2009.  Nutrient cycling relative to δ15N and δ13C natural abundance in a coastal wetland with long-term nutrient additions. Aquatic Ecology.
Blanchard S..  2010.  Implications of using fine versus coarse spatial resolution data in LUCC. MS Degree
Blanchard S., Pontius, Jr. R.G., Urban K.M..  2015.  Implications of using 2m versus 30 m spatial resolution data for suburban residential land change modeling. Journal of Environmental Informatics. 25:1-13.
Bogdan P, Caetano-Anollés G, Jolles A, Kim H, Morris J, Murphy CA, Royer C, Snell EH, Steinbrenner A, Strausfeld N.  2022.  Biological Networks across Scales—The Theoretical and Empirical Foundations for Time-Varying Complex Networks that Connect Structure and Function across Levels of Biological Organization. Integrative and Comparative Biology. 61:1991–2010.
Booth H.S..  2013.  Does Chronic Nutrient Enrichment Result in a Trophic Bottleneck in a Salt Marsh? Honors, BS
Bortolus A, Adam P, Adams JB, Ainouche ML, Ayres D, Bertness MD, Bouma TJ, Bruno JF, Caçador I, Carlton JT et al..  2019.  Supporting \textitSpartina} : Interdisciplinary perspective shows \textitSpartina} as a distinct solid genus. Ecology. 100
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.
Bowen J.L., Ward B.B., Morrison H.G., Hobbie J.E., Valiela I., Deegan L.A., Sogin M.L..  2011.  Microbial community composition in salt marsh sediments resists perturbation by nutrient enrichment. The ISME Journal. 5:1540-1548.
Bowen J.L., Crump B.C., Deegan L.A., Hobbie J.E..  2009.  Salt marsh sediment bacteria: their distribution and response to external nutrient inputs. The ISME Journal. 3:924-934.
Bowen JL, Spivak AC, Bernhard AE, Fulweiler RW, Giblin AE.  2023.  Salt marsh nitrogen cycling: where land meets sea. Trends in Microbiology.
Bowen J.L., Crump B.C., Deegan L.A., Hobbie J.E..  2009.  Increased supply of ambient nitrogen has minimal effect on salt marsh bacterial production. Limnology and Oceanography . 54:713-722.
Bowen JL, Giblin AE, Murphy AE, Bulseco AN, Deegan LA, Johnson DS, Nelson JA, Mozdzer TJ, Sullivan HL.  2020.  Not All Nitrogen Is Created Equal: Differential Effects of Nitrate and Ammonium Enrichment in Coastal Wetlands. BioScience. 70:1108–1119.
Bradley A.V., Rosa I.M.D., Pontius, Jr. R.G., Ahmed S.E., Araujo M.B., Brown D.G., A. Jr B, Carnerio T.G.S., Hartley A.J., Smith M.J. et al..  2016.  SimiVal, a multi-criteria map comparison tool for land-change model projections. Environmental Modelling & Software.
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
Briggs M.A., Gooseff M.N., Arp C.D., Baker M.A..  2009.  A method for estimating surface transient storage parameters for streams with concurrent hyporheic storage. Water Resources Research. 45
Broo S..  2009.  Sensitivity Analysis for Scenarios of Water Withdrawal in Massachusetts. M.S.
Buchsbaum R.N., Wigand C.A..  2012.  Adaptive management and monitoring as fundamental tools to effective salt marsh restoration.. Restoring Tidal Flow to Salt Marshes: A Synthesis of Science and Management in New England (USA).
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.
Buchsbaum R., Catena E.H., James-Pirri M.J..  2006.  Changes in salt marsh vegetation, Phragmites australis, and nekton in response to increased tidal flushing in a New England salt marsh.. Wetlands. 26:544-557.
Buchsbaum R., Cooper A., LeBlanc J..  1999.  Conserving the Plum Island Sound/Rivers Ecosystem - A research report and management plan..

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