PIE LTER Publications
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The ephemeral life of a salt marsh. Geology. 41:943-944.. 2013.
The effect of evaporation on the erodibility of mudflats in a mesotidal estuary. Estuarine, Coastal and Shelf Science. 194:118-127.. 2017.
Determining the drivers of suspended sediment dynamics in tidal marsh-influenced estuaries using high-resolution ocean color remote sensing. Remote Sensing of Environment. 240. 2020.
Declining radial growth response of coastal forests to hurricanes and nor’easters. Journal of Geophysical Research. 123:832-849.. 2018.
Coastal eutrophication as a driver of salt marsh loss. Nature. 490:388-392.. 2012.
Classification mapping of salt marsh vegetation byflexible monthly NDVItime-series using Landsat imagery. Estuarine and Coastal Shelf Science. 213:61-80.. 2018.
Changes in hydrodynamics and wave energy as a result of seagrass decline along the shoreline of a microtidal back-barrier estuary.. Advances in Water Resources. 128:183-192.. 2019.
Are elevation and open‐water conversion of salt marshes connected? Geophysical Research Letters. 47. 2020.
The Salt Marsh Geomorphology: Physical and Ecological Effects on Landform. AGU Chapman Conference. 86:57-58.. 2004.
Modelling Tidal Environments. Treatise on Geomorphology (Second Edition). :62–82.. 2022.
Flow, sedimentation, and biomass production on a vegetated salt marsh in South Carolina: toward a predictive model of marsh morphologic and ecologic evolution.. The Ecogeomorphology of Tidal Marshes. :165-187.. 2004.
Ecogeomorphology of Tidal Flats. Treatise on Geomorphology. 12:201-220.. 2013.
Ecogeomorphology of Salt Marshes. Treatise on Geomorphology. 12:180-200.. 2013.
Ecogeomorphology of Salt Marshes. Treatise on Geomorphology (Second Edition). :445–462.. 2022.