PIE LTER Publications
The role of snowmelt and spring rainfall in inorganic nutrient fluxes from a large temperate watershed, the Androscoggin River basin (Maine and New Hampshire).. Biogeochemistry. 80:217-234.
.
2006. Salt marsh geomorphology: Physical and ecological effects on landform. Estuarine, Coastal and Shelf Science. 69:309-310.
.
2006. .
2006. Adaptation to Drought in the Context of Suburban Sprawl and Abundant Rainfall.. Geographical Bulletin. 47:85-100.
.
2005. Distribution of phosphatase activity in marsh sediments along an estuarine salinity gradient.. Marine Ecological Progress Series. 292:75-83.
.
2005. Efficient export of carbon to the deep ocean through dissolved organic matter.. Nature. 433:142-145.
.
2005. Estimating estuarine gross production, community respiration and net ecosystem production: A nonlinear inverse technique.. Ecological Modeling. 187:281-296.
.
2005. Genotypic diversity within a natural coastal bacterioplankton population.. Science. 307:1311-1313.
.
2005. Molecular characterization of sulfate-reducing bacteria in a New England salt marsh.. Environmental Microbiology. 7:1175-1185.
.
2005. N retention in urbanizing headwater catchments. Ecosystems. 8:871-884.
.
2005. Relationships of land use and streamwater solute concentrations in the Ipswich River basin, northeastern Massachusetts.. Water, Air, and Soil Pollution. 161
.
2005. Spatial distribution of land type in regression models of pollutant loading. Journal of Spatial Hydrology. 5:60-80.
.
2005. Synchrony and seasonality in bacterioplankton communities of two temperate rivers. Limnology and Oceanography. 50:1718-1729.
.
2005. Estuarine respiration: an overview of benthic, pelagic, and whole system respiration . Respiration in Aquatic Ecosystems. :122-146.
.
2004. Fine-scale phylogenetic architecture of a complex bacterial community.. Nature. 430:551-554.
.
2004. High overall diversity and dominance of microdiverse relationships in salt marsh sulfate-reducing bacteria.. Environmental Microbiology. 6:686-698.
.
2004. Isotopic investigation of nitrogen retention in a riparian ecosystem.. Journal of Applied Ecology. 40:1035-1048.
.
2004. Microbial biogeography along an estuarine salinity gradient: the combined influences of bacterial growth and residence time.. Applied and Environmental Microbiology. 70:1494-1505.
.
2004. Microbial biogeography along an estuarine salinity gradient: the combined influences of bacterial growth and residence time.. Applied and Environmental Microbiology. 70:1494-1505.
.
2004. Modeling Nitrogen Transport in the Ipswich River Basin, Massachusetts, Using HSPF.. Journal of the American Water Resources Association. 40:1365-1384.
.
2004. N budgets and aquatic uptake in the Ipswich River basin, northeastern Massachusetts.. Water Resources Research. 40:1-12.
.
2004. Role of wetlands and developed land use on dissolved organic nitrogen concentrations and DON / TDN in northeastern U.S. rivers and streams. Limnology and Oceanography. 49:910-918.
.
2004. The Salt Marsh Geomorphology: Physical and Ecological Effects on Landform. AGU Chapman Conference. 86:57-58.
.
2004. Useful techniques of validation for spatially explicit land-change models.. Ecological Modeling. 179:445-461.
.
2004. What makes mummichogs grow? The relationship between growth rates and gut contents of Fundulus heteroclitus held in enclosures along a salinity gradient in a New England salt marsh. New England Estuarine Research Society (NEERS).
.
2004.