PIE LTER Publications
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Filters: Author is Morris, J.T. [Clear All Filters]
Analysis of size and complexity of randomly constructed food webs by information theoretic metrics.. Aquatic Food Webs: an Ecosystem Approach. :73-85.
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2005. Assessment of Carbon Sequestration Potential in Coastal Wetlands.. Recarbonization of the Bioshpere: Ecosystem and Global Carbon Cycle. . :517-531.
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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.
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2006. Consequences of climate change on the ecogeomorphology of coastal wetlands. Estuaries and Coasts. 31:477-491.
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2008. Contributions of organic and inorganic matter to sediment volume and accretion in tidal wetlands at steady state. Earth's Future. 4:110-121.
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2016. Distribution of phosphatase activity in marsh sediments along an estuarine salinity gradient.. Marine Ecological Progress Series. 292:75-83.
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2005. Ecogeomorphology of Salt Marshes. Treatise on Geomorphology. 12:180-200.
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2013. Ecogeomorphology of Salt Marshes. Treatise on Geomorphology (Second Edition). :445–462.
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2022. Ecogeomorphology of Tidal Flats. Treatise on Geomorphology. 12:201-220.
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2013. Ecophysiological controls on the growth of Spartina alterniflora. Concepts and Controversies in Tidal Marsh Ecology. :59-80.
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2013. 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.
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2005. Estimating Aboveground Biomass and Its Spatial Distribution in Coastal Wetlands Utilizing Planet Multispectral Imagery. Remote Sensing. 11
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2019. Estimating net primary production of salt marsh macrophytes. Principles and Standards for Measuring Primary Production. :106-119.
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2007. 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.
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Impact of the dynamic feedback between sedimentation, sea level rise, and biomass production on near surface marsh stratigraphy and carbon accumulation. Estuarine, Coastal and Shelf Science. 82:377-389.
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2009. Ulva additions alter soil biogeochemistry and negatively impact Spartina alterniflora growth. Marine Ecological Progress Series. 532:59-72.
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2015. Lateral Marsh Edge Erosion as a Source of Sediments for Vertical Marsh Accretion. Journal of Geophysical Research.
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2009. Marsh nutrient export supplied by ground water discharge: Evidence from radium measurements. Global Biogeochemical Cycles. 14:167-176.
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Occurrence and Ecological Implications of Pyrophosphate in Estuaries. Limnology and Oceanography. 46:1570-1577.
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2001.