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Competition among marsh macrophytes by means of geomorphological displacement in the intertidal zone.. Estuarine and Coastal Shelf Science. 69:395-402.. 2006.
Contributions of organic and inorganic matter to sediment volume and accretion in tidal wetlands at steady state. Earth's Future. 4:110-121.. 2016.
Ecological engineering in intertidal saltmarshes.. Hydrobiologia. 577:161-168.. 2007.
Effects of changes in sea level and productivity on the stability of intertidal marshes.. UNESCO Proceeding Series on Lagoons and Coastal Wetlands in the Global Change Context: Impact and Management Issues. :121-127.. 2005.
Effects of sea level anomalies on estuarine processes.. Estuarine Science: A Synthetic Approach to Research and Practice. :107-127.. 2000.
Integrating LIDAR, multispectral imagery and neural network modeling techniques for marsh classification.. International Journal of Remote Sensing. 26:5221-5234.. 2005.
Latitudinal trends in Spartina alterniflora productivity and the response of coastal marshes to global change. Global Change Biology.. 2009.
Limits on the adaptability of coastal marshes to rising sea level. Geophysical Research Letters. 37. 2010.
Overestimation of marsh vulnerability to sea level rise. Nature Climate Change.. 2016.
Salt marsh primary production and its responses to relative sea level and nutrients. Oceanography. 26:78-84.. 2013.
Short-term effect of simulated salt marsh restoration by sand-amendment on sediment bacterial communities. PLoS ONE. 14. 2019.
Spatially integrative metrics reveal hidden vulnerability of microtidal salt marshes. Nature Communications. 8. 2017.