PIE LTER Publications

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Journal Article
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.
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.
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.
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.
Sorrensen C., Polsky C., Neff R..  2005.  The HERO REU Experience: Undergraduate Research on Vulnerability to Climate Change in Local Places.. Geographical Bulletin. 47:65-72.
Harris E.M., Polsky C., Larson K., Garvoille R., Martin D.G., Brumand J., Ogden L..  2012.  Heterogeneity in Residential Yard Care: Evidence from Boston, Miami, and Phoenix.. Human Ecology. 40:735-749.
Klepac-Ceraj V., Bahr M., Crump B.C., Teske A.P., Hobbie J.E., Poltz M.F..  2004.  High overall diversity and dominance of microdiverse relationships in salt marsh sulfate-reducing bacteria.. Environmental Microbiology. 6:686-698.
Johnson D.S..  2011.  High-marsh invertebrates are susceptible to eutrophication. Marine Ecological Progress Series. 438:142-152.
Hale R.L., Hoover J.H., Wollheim W.M., Vorosmarty C.J..  2013.  History of nutrient inputs to the Northeastern United States, 1930-2000.. Global Biogeochemical Cycles. 27:578-591.
Mudd S.M., D'Alpaos A., Morris J.T..  2010.  How does vegetation affect sedimentation on tidal marshes? Investigating particle capture and hydrodynamic controls on biologically mediated sedimentation Journal of Geophysical Research. 115
Leonardi N., Fagherazzi S..  2014.  How waves shape salt marshes. Geology.
Mudd S.M., Howell S., Morris J.T..  2009.  Impact of the dynamic feedback between sedimentation, sea level rise, and biomass production on near surface marsh stratigraphy and carbon accumulation. Estuarine, Coastal and Shelf Science. 82:377-389.
Vieillard A.M., Fulweiler R.W..  2012.  Impacts of long-term fertilization on salt marsh tidal creek benthic nutrient and N2 gas fluxes. Marine Ecological Progress Series. 471:11-22.
Morse N.B., Wollheim W.M., Benstead J.P., McDowell W.H..  2012.  Impacts of suburbanization on food web stoichiometry in detritus-based streams of New England.. Freshwater Science. 31:1202-1213.
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.
Giblin A.E., Tobias C.R., Song B., Weston N., Banta G.T., Rivera-Monroy V.H..  2013.  The importance of dissimilatory nitrate reduction to ammonium (DNRA) in the nitrogen cycle of coastal ecosystems.. Oceanography. 26:124-131.
Johnston M.E, Cavatorta J.R., Hopkinson C.S., Valentine V..  2003.  Importance of metabolism in the development of salt marsh ponds.. Biological Bulletin. 205:248-249.
Vallino J..  2000.  Improving marine ecosystem models: Use of data assimilation and mesocosm experiments.. Journal of Marine Research. 58:117-164.
Wiberg P.L., Fagherazzi S., Kirwan M.L..  2020.  Improving predictions of salt marsh evolution through better integration of data and models.. Annual Review of Marine Science. 12:389-413.
Yang Q., Tian H., Friedrichs M.A.M., Hopkinson C.S., Lu C., Najjar R.G..  2015.  Increased nitrogen export from eastern North America to the Atlantic Ocean due to climatic and anthropogenic changes during 1901–2008. Journal of Geophysical Research: Biogeosciences. 120:1046-1068.
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.
Mineau M.M., Wollheim W.M., Stewart R.J..  2015.  An index to characterize the spatial distribution of land use within watersheds and implications for river network nutrient removal and export. Geophysical Research Letters. 42
Komarow S., Young T., Deegan L., Garritt R..  1999.  Influence of marsh flooding on the abundance and growth of Fundulus heteroclitus in salt marsh creeks. Biological Bulletin. 197:299-300.
Hopkinson C.S, Giblin A.E., Garritt R.H., Tucker J., Hullar M.A.J..  1998.  Influence of the benthos on growth of planktonic estuarine bacteria . Aquatic Microbial Ecology. 16:109-118.
Morris J.T, Porter D., Neet M., Noble P.A., Schmidt L., Lapine L.A., Jensen J..  2005.  Integrating LIDAR, multispectral imagery and neural network modeling techniques for marsh classification.. International Journal of Remote Sensing. 26:5221-5234.

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