PIE LTER Publications
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Fine-scale phylogenetic architecture of a complex bacterial community.. Nature. 430:551-554.
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2010. Growth of a salt marsh invertebrate on several species of marsh grass detritus.. Biological Bulletin. 205:238-239.
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2002. Behavior-based aggregation of land categories for temporal change analysis. International Journal of Applied Earth Observation and Geoinformation. 35:229-238.
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2015. Intensity Analysis to Unify Measurements of Size and Stationarity of Land Changes by Interval, Category, and Transition.. Landscape and Urban Planning. 106:103-114.
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2012. Map errors that could account for deviations from a uniform intensity of land change. International Journal of Geographical Information Science .
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2012. Dynamic modeling of nitrogen losses in river networks unravels the coupled effects of hydrological and biogeochemical processes. Biogeochemistry. 93:91-116.
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2009. Predicting microbial nitrate reduction pathways in coastal sediments. Aquatic Microbial Ecology. 71:223-238.
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2015. Molecular characterization of sulfate-reducing bacteria in a New England salt marsh.. Environmental Microbiology. 7:1175-1185.
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2005. Legacy effects material flux: structural catchment changes predate long-term studies.. Bioscience. 62:575-584.
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2012. Urban Geochemistry: Hotbeds of Biogeochemical Diversity: Insights from Urban Long-Term Ecological Research Sites. Elements. 8:435-438.
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2012. Quantifying striped bass (Morone saxatilis) dependence on saltmarsh-derived productivity using stable isotope analysis. Estuaries and Coasts.
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2016. The contribution of agricultural and urban activities to inorganic carbon fluxes within temperate watersheds.. Chemical Geology. 266:318-327.
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2009. Biophysical controls on organic carbon fluxes in fluvial networks. Nature Geoscience. 1:95-100.
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2008. The changing carbon cycle of the coastal ocean.. Nature. 504:61-70.
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2018. Nitrous oxide emission from denitrification in stream and river networks. Proceedings of the National Academy of Science. 108:214-219.
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2011. Loss of Diversity of Ammonia-Oxidizing Bacteria Correlates with Increasing Salinity in an Estuary System.. Environmental Microbiology. 7:1289-1297.
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2005. Functionally distinct communities of ammonia-oxidizing bacteria along an estuarine salinity gradient. Environmental Microbiology. 9:1439-1447.
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