The density of the Atlantic marsh fiddler crab (Minuca pugnax, Smith, 1870) (Decapoda: Brachyura: Ocypodidae) in its expanded range in the Gulf of Maine, USA . Journal of Crustacean Biology. 40:544-548.. 2020.
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.
Divergence of Sediment Fluxes Triggered by Sea‐Level Rise Will Reshape Coastal Bays. Geophysical Research Letters. 47. 2020.
Dynamics of Marsh‐Derived Sediments in Lagoon‐Type Estuaries. Journal of Geophysical Research: Earth Surface. 125. 2020.
Efficient tidal channel networks alleviate the drought-induced die-off of salt marshes: Implications for coastal restoration and management. Science of The Total Environment. 749:141493.. 2020.
Enhanced Intensity Analysis to Quantify Categorical Change and to Identify Suspicious Land Transitions: A Case Study of Nanchang, China. Remote Sensing. 12:3323.. 2020.
The fiddler crab Minuca pugnax () (Decapoda: Brachyura: Ocypodidae) reduces saltmarsh algae in its expanded range . Journal of Crustacean Biology.. 2020.
Fisheries rely on threatened salt marshes. Science. 370:670–671.. 2020.
General destabilizing effects of eutrophication on grassland productivity at multiple spatial scales. Nature Communications. 11:5375.. 2020.
Habitat decoupling via saltmarsh creek geomorphology alters connection between spatially-coupled food webs. Estuarine, Coastal and Shelf Science. 241:106825.. 2020.
Improving predictions of salt marsh evolution through better integration of data and models.. Annual Review of Marine Science. 12:389-413.. 2020.
Intensity Analysis to communicate land change during three time intervals in two regions of Quanzhou City, China. GIScience & Remote Sensing. 57:21–36.. 2020.
Metagenomics coupled with biogeochemical rates measurements provide evidence that nitrate addition stimulates respiration in salt marsh sediments. Limnology and Oceanography. 65. 2020.
On the morphology of radial sand ridges. Earth Surface Processes and Landforms. 45:2613–2630.. 2020.
A nonlinear relationship between marsh size and sediment trapping capacity compromises salt marshes’ stability.. Geology.. 2020.
Not All Nitrogen Is Created Equal: Differential Effects of Nitrate and Ammonium Enrichment in Coastal Wetlands. BioScience. 70:1108–1119.. 2020.
Oxygen and Triple Oxygen Isotope Measurements Provide Different Insights into Gross Oxygen Production in a Shallow Salt Marsh Pond.. Estuaries and Coasts.. 2020.
Phytoplankton Temporal Strategies Increase Entropy Production in a Marine Food Web Model. Entropy. 22:1249.. 2020.
Quantifying and Valuing Carbon and Nitrogen Sequestration as Ecosystem Services in Salt Marshes.. MS. 2020.
Salt Marsh Dynamics in a Period of Accelerated Sea Level Rise. Journal of Geophysical Research: Earth Surface. 125. 2020.
Salt Marsh Pond Biogeochemistry Changes Hourly to Yearly but Does Not Scale With Dimensions or Geospatial Position. Journal of Geophysical Research: Biogeosciences. 125. 2020.