PIE LTER Publications
Mummichog, Fundulus heteroclitus, responses to long-term, whole-ecosystem nutrient enrichment.. Marine Ecological Progress Series. 492:211-222.
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2013. A Multi-Scalar Approach to Theorizing Socio-Ecological Dynamics of Urban Residential Landscapes. Cities and the Environment . 4
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2011. The Mounting Risk of Drought in a Humid Landscape: Structure and Agency in Suburbanizing Massachusetts. . Sustainable Communities on a Sustainable Planet: The Human-Environment Regional Observatory Project.
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2009. On the morphology of radial sand ridges. Earth Surface Processes and Landforms. 45:2613–2630.
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2020. A monitoring protocol to assess tidal restoration of salt marshes on local and regional scales. Restoration Ecology. 10:556-563.
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2002. Molecular characterization of sulfate-reducing bacteria in a New England salt marsh.. Environmental Microbiology. 7:1175-1185.
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2005. Modelling Tidal Environments. Treatise on Geomorphology (Second Edition). :62–82.
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2022. .
2010. Modeling the effects of land-use change on nitrogen biogeochemistry in the Ipswich watershed, Massachusetts. Biological Bulletin. 199:218-219.
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2000. Modeling the effect of tides and waves on benthic biofilms.. Journal of Geophysical Research. 117
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2012. .
2015. Modeling the Dynamics of Salt Marsh Development in Coastal Land Reclamation. Geophysical Research Letters. 49:e2021GL095559.
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2022. Modeling Nitrogen Transport in the Ipswich River Basin, Massachusetts, Using HSPF.. Journal of the American Water Resources Association. 40:1365-1384.
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2004. Modeling microbial consortiums as distributed metabolic networks. Biological Bulletin. 204:174-179.
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2003. Modeling land-use change in the Ipswich watershed, Massachusetts, USA. Agriculture, Ecosystems & Environment. 85:83-94.
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2001. Modeling denitrification in aquatic sediments. Biogeochemistry. 93:159-178.
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2009. Mitigation policies buffer multiple climate stressors in a socio-ecological salt marsh habitat. Sustainability Science. 19(1):245-258.
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2024. Mismatch between watershed effects and local efforts constrains the success of coastal salt marsh vegetation restoration. Journal of Cleaner Production. 292:126103.
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2021. Microbial community composition in salt marsh sediments resists perturbation by nutrient enrichment. The ISME Journal. 5:1540-1548.
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2011. Microbial chemolithoautotrophs are abundant in salt marsh sediment following long-term experimental nitrate enrichment. FEMS Microbiology Letters. 370(12881)
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2023. Microbial biogeography along an estuarine salinity gradient: the combined influences of bacterial growth and residence time.. Applied and Environmental Microbiology. 70:1494-1505.
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2004. Microbial associations with macrobiota in coastal ecosystems: patterns and implications for nitrogen cycling. Frontiers in Ecology and the Environment. 14:200-208.
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2016. Microbes in nature are limited by carbon and energy: the starving-survival lifestyle in soil and consequences for estimating microbial rates. Frontiers in Terrestrial Microbiology.
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2013. Methods to summarize change among land categories across time intervals. Journal of Land Use Science. 12:218-230.
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