Camille LaFosse Stagg, Ph.D.
Camille Stagg is a Research Ecologist at the Wetland and Aquatic Research Center in Lafayette, Louisiana.
Camille's research focuses on how ecosystem functions, such as elevation change, carbon cycling, and resilience, are affected by global stressors. Her goal is to understand how these processes respond to changing conditions, including rising sea levels, elevated atmospheric CO2, and land use change, to provide guidance for management and restoration of these dynamic ecosystems.
Education and Certifications
Ph.D., Oceanography and Coastal Sciences, Louisiana State University, 2009
M.S., Environmental Toxicology, Clemson University, 2004
B.S., Biology, Christian Brothers University, 2002
Science and Products
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Flooding alters plant-mediated carbon cycling independently of elevated atmospheric CO2 concentrations Flooding alters plant-mediated carbon cycling independently of elevated atmospheric CO2 concentrations
Plant‐mediated processes determine carbon (C) cycling and storage in many ecosystems; how plant‐associated processes may be altered by climate‐induced changes in environmental drivers is therefore an essential question for understanding global C cycling. In this study, we hypothesize that environmental alterations associated with near‐term climate change can exert strong control on plant
Authors
Scott F. Jones, Camille L. Stagg, Ken W. Krauss, Mark W. Hester
Ecological resilience indicators for salt marsh ecosystems Ecological resilience indicators for salt marsh ecosystems
Salt marshes are coastal ecosystems within the intertidal zone, characterized by hypoxic, saline, soil conditions and low biodiversity. Low diversity arises from frequent disturbance and stressful conditions (i.e., high salinity and hypoxia), where vegetative reproduction and low competition result in mostly monotypic stands, with some differences in plant community influenced by...
Authors
Scott T. Allen, Camille L. Stagg, Jorge Brenner, Kathleen L. Goodin, Don Faber-Langendoen, Christopher A. Gabler, Katherine Wirt Ames
The role of the upper tidal estuary in wetland blue carbon storage and flux The role of the upper tidal estuary in wetland blue carbon storage and flux
Carbon (C) standing stocks, C mass balance, and soil C burial in tidal freshwater forested wetlands (TFFW) and TFFW transitioning to low‐salinity marshes along the upper estuary are not typically included in “blue carbon” accounting, but may represent a significant C sink. Results from two salinity transects along the tidal Waccamaw and Savannah rivers of the US Atlantic Coast show total...
Authors
Ken W. Krauss, Gregory B. Noe, Jamie A. Duberstein, William H. Conner, Camille L. Stagg, Nicole Cormier, Miriam C. Jones, Christopher E. Bernhardt, B. Graeme Lockaby, Andrew S. From, Thomas W. Doyle, Richard H. Day, Scott H. Ensign, Katherine N. Pierfelice, Cliff R. Hupp, Alex T. Chow, Julie L. Whitbeck
Early growth interactions between a mangrove and an herbaceous salt marsh species are not affected by elevated CO2 or drought Early growth interactions between a mangrove and an herbaceous salt marsh species are not affected by elevated CO2 or drought
Increasing atmospheric carbon dioxide (CO2) concentrations are likely to influence future distributions of plants and plant community structure in many regions of the world through effects on photosynthetic rates. In recent decades the encroachment of woody mangrove species into herbaceous marshes has been documented along the U.S. northern Gulf of Mexico coast. These species shifts have...
Authors
Rebecca J. Howard, Camille L. Stagg, Herry S. Utomo
Vegetation cover, tidal amplitude and land area predict short-term marsh vulnerability in Coastal Louisiana Vegetation cover, tidal amplitude and land area predict short-term marsh vulnerability in Coastal Louisiana
The loss of coastal marshes is a topic of great concern, because these habitats provide tangible ecosystem services and are at risk from sea-level rise and human activities. In recent years, significant effort has gone into understanding and modeling the relationships between the biological and physical factors that contribute to marsh stability. Simulation-based process models suggest...
Authors
Donald Schoolmaster, Camille L. Stagg, Leigh Anne Sharp, Tommy S. McGinnis, Bernard Wood, Sarai Piazza
Resource competition model predicts zonation and increasing nutrient use efficiency along a wetland salinity gradient Resource competition model predicts zonation and increasing nutrient use efficiency along a wetland salinity gradient
A trade-off between competitive ability and stress tolerance has been hypothesized and empirically supported to explain the zonation of species across stress gradients for a number of systems. Since stress often reduces plant productivity, one might expect a pattern of decreasing productivity across the zones of the stress gradient. However, this pattern is often not observed in coastal...
Authors
Donald Schoolmaster, Camille L. Stagg
Non-USGS Publications**
Stagg, Camille L. and Mendelssohn, Irving A. 2011. Controls on resilience and stability in a sediment subsidized salt marsh. Ecological Applications, 21(5): 1731-1744.
Stagg, Camille L. and Mendelssohn, Irving A. 2012. Littoraria irrorata growth and survival in a sediment-restored salt marsh. Wetlands, 32(4): 643-652.
Stagg, C. L., and Mendelssohn, I. A. 2010. Restoring ecological function to a submerged salt marsh. Restoration Ecology, 18: 10-17.
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
Science and Products
Filter Total Items: 22
Filter Total Items: 32
No Result Found
Filter Total Items: 66
Flooding alters plant-mediated carbon cycling independently of elevated atmospheric CO2 concentrations Flooding alters plant-mediated carbon cycling independently of elevated atmospheric CO2 concentrations
Plant‐mediated processes determine carbon (C) cycling and storage in many ecosystems; how plant‐associated processes may be altered by climate‐induced changes in environmental drivers is therefore an essential question for understanding global C cycling. In this study, we hypothesize that environmental alterations associated with near‐term climate change can exert strong control on plant
Authors
Scott F. Jones, Camille L. Stagg, Ken W. Krauss, Mark W. Hester
Ecological resilience indicators for salt marsh ecosystems Ecological resilience indicators for salt marsh ecosystems
Salt marshes are coastal ecosystems within the intertidal zone, characterized by hypoxic, saline, soil conditions and low biodiversity. Low diversity arises from frequent disturbance and stressful conditions (i.e., high salinity and hypoxia), where vegetative reproduction and low competition result in mostly monotypic stands, with some differences in plant community influenced by...
Authors
Scott T. Allen, Camille L. Stagg, Jorge Brenner, Kathleen L. Goodin, Don Faber-Langendoen, Christopher A. Gabler, Katherine Wirt Ames
The role of the upper tidal estuary in wetland blue carbon storage and flux The role of the upper tidal estuary in wetland blue carbon storage and flux
Carbon (C) standing stocks, C mass balance, and soil C burial in tidal freshwater forested wetlands (TFFW) and TFFW transitioning to low‐salinity marshes along the upper estuary are not typically included in “blue carbon” accounting, but may represent a significant C sink. Results from two salinity transects along the tidal Waccamaw and Savannah rivers of the US Atlantic Coast show total...
Authors
Ken W. Krauss, Gregory B. Noe, Jamie A. Duberstein, William H. Conner, Camille L. Stagg, Nicole Cormier, Miriam C. Jones, Christopher E. Bernhardt, B. Graeme Lockaby, Andrew S. From, Thomas W. Doyle, Richard H. Day, Scott H. Ensign, Katherine N. Pierfelice, Cliff R. Hupp, Alex T. Chow, Julie L. Whitbeck
Early growth interactions between a mangrove and an herbaceous salt marsh species are not affected by elevated CO2 or drought Early growth interactions between a mangrove and an herbaceous salt marsh species are not affected by elevated CO2 or drought
Increasing atmospheric carbon dioxide (CO2) concentrations are likely to influence future distributions of plants and plant community structure in many regions of the world through effects on photosynthetic rates. In recent decades the encroachment of woody mangrove species into herbaceous marshes has been documented along the U.S. northern Gulf of Mexico coast. These species shifts have...
Authors
Rebecca J. Howard, Camille L. Stagg, Herry S. Utomo
Vegetation cover, tidal amplitude and land area predict short-term marsh vulnerability in Coastal Louisiana Vegetation cover, tidal amplitude and land area predict short-term marsh vulnerability in Coastal Louisiana
The loss of coastal marshes is a topic of great concern, because these habitats provide tangible ecosystem services and are at risk from sea-level rise and human activities. In recent years, significant effort has gone into understanding and modeling the relationships between the biological and physical factors that contribute to marsh stability. Simulation-based process models suggest...
Authors
Donald Schoolmaster, Camille L. Stagg, Leigh Anne Sharp, Tommy S. McGinnis, Bernard Wood, Sarai Piazza
Resource competition model predicts zonation and increasing nutrient use efficiency along a wetland salinity gradient Resource competition model predicts zonation and increasing nutrient use efficiency along a wetland salinity gradient
A trade-off between competitive ability and stress tolerance has been hypothesized and empirically supported to explain the zonation of species across stress gradients for a number of systems. Since stress often reduces plant productivity, one might expect a pattern of decreasing productivity across the zones of the stress gradient. However, this pattern is often not observed in coastal...
Authors
Donald Schoolmaster, Camille L. Stagg
Non-USGS Publications**
Stagg, Camille L. and Mendelssohn, Irving A. 2011. Controls on resilience and stability in a sediment subsidized salt marsh. Ecological Applications, 21(5): 1731-1744.
Stagg, Camille L. and Mendelssohn, Irving A. 2012. Littoraria irrorata growth and survival in a sediment-restored salt marsh. Wetlands, 32(4): 643-652.
Stagg, C. L., and Mendelssohn, I. A. 2010. Restoring ecological function to a submerged salt marsh. Restoration Ecology, 18: 10-17.
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.