PIE LTER Publications
.
2018. .
2018. .
2018. .
2018.
.
2017.
Effect of short-term, diel changes in environmental conditions on active microbial communities in a salt marsh pond. Aquatc Microbial Ecology. 80:29-41.
.
2017. .
2017. Shallow ponds are heterogeneous habitats within a temperate salt marsh ecosystem. Journal of Geophysical Research: Biogeosciences. 122
.
2017. Spatially integrative metrics reveal hidden vulnerability of microtidal salt marshes. Nature Communications. 8
.
2017. .
2016.
Functional responses of salt marsh microbial communities to long-term nutrient enrichment. Applied and Environmental Microbiology. 82:2862-2871.
.
2016. A linear relationship between wave power and erosion determines salt-marsh resilience to violent storms and hurricanes. PNAS. 113:64-68.
.
2016. Overestimation of marsh vulnerability to sea level rise. Nature Climate Change.
.
2016. Salt marsh erosion rates and boundary features in a shallow Bay. Journal of Geophysical Research: Earth Surface. 121:1861-1875.
.
2016. Salt marsh vegetation promotes efficient tidal channel networks. Nature Communications. 7
.
2016. Saltmarsh plant responses to eutrophication. Ecological Applications.
.
2016. Spartina alterniflora biomass allocation and temperature: implications for salt marsh persistence with sea-level rise. Estuaries and Coasts.
.
2016. A test of biological trait analysis with nematodes and an anthropogenic stressor. Environmental Monitoring and Assessment. 188
.
2016. Ulva additions alter soil biogeochemistry and negatively impact Spartina alterniflora growth. Marine Ecological Progress Series. 532:59-72.
.
2015. Local variability in erosional resistance affects large scale morphodynamic response of salt marshes to wind waves. Geophysical Research Letters. 42
.
2015. Marsh-atmosphere exchange of CO2 in a New England salt marsh. Journal of Geophysical Research- Biogeosciences. 120
.
2015. .
2014.
How waves shape salt marshes. Geology.
.
2014. .
2013. .
2013.