Search Results - "Cherry, Julia A"

Do global change variables alter mangrove decomposition? A systematic review by Simpson, Loraé T., Chapman, Samantha K., Simpson, Lance M., Cherry, Julia A.

“…AimGlobal change is expected to modify the magnitude and trajectory of organic matter decomposition in mangrove ecosystems. Yet, the degree and direction of…”
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Elevated CO₂ stimulates marsh elevation gain, counterbalancing sea-level rise by Langley, J. Adam, McKee, Karen L, Cahoon, Donald R, Cherry, Julia A, Megonigal, J. Patrick

“…Tidal wetlands experiencing increased rates of sea-level rise (SLR) must increase rates of soil elevation gain to avoid permanent conversion to open water. The…”
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Effects of burrowing crabs on coastal sediments and their functions: A systematic meta‐analysis by Rinehart, Shelby A., Dybiec, Jacob M., Walker, Janet B., Simpson, Lance, Cherry, Julia A.

“…Burrowing ecosystem engineers, such as termites, crabs, marmots, and foxes, can profoundly affect the biological structure and ecosystem functions of their…”
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Advances, applications, and prospects in aquatic botany by Cherry, Julia A., Pec, Gregory J.

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Variation in insect community structure between natural and constructed tidal marshes by Fromenthal, Emily, Rinehart, Shelby A., Dybiec, Jacob, Cherry, Julia A.

“…Insects perform important ecological roles that influence ecosystem functions, including primary production and nutrient cycling. Likewise, wetland ecosystems…”
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Seasonal Sediment Dynamics in a Constructed and Natural Tidal Marsh in the Northern Gulf of Mexico by Dybiec, Jacob M., Sharbaugh, Morgan, Rinehart, Shelby, Cherry, Julia A.

“…Reduced sediment loading contributes to tidal marsh loss, making evaluations of sediment dynamics useful in assessing marsh resilience to sea-level rise. Tidal…”
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Changes in Ecosystem Nitrogen and Carbon Allocation with Black Mangrove (Avicennia germinans) Encroachment into Spartina alterniflora Salt Marsh by Macy, Aaron, Osland, Michael J., Cherry, Julia A., Cebrian, Just

“…Increases in temperature are expected to facilitate encroachment of tropical mangrove forests into temperate salt marshes, yet the effects on ecosystem…”
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Nature-based solutions as buffers against coastal compound flooding: Exploring potential framework for process-based modeling of hazard mitigation by Radfar, Soheil, Mahmoudi, Sadaf, Moftakhari, Hamed, Meckley, Trevor, Bilskie, Matthew V., Collini, Renee, Alizad, Karim, Cherry, Julia A., Moradkhani, Hamid

“…As coastal regions face escalating risks from flooding in a changing climate, Nature-based Solutions (NbS) have garnered attention as promising adaptation…”
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Effects of chronic and acute stressors on transplanted black mangrove (Avicennia germinans) seedlings along an eroding Louisiana shoreline by Macy, Aaron, Osland, Michael J., Cherry, Julia A., Cebrian, Just

“…Coastal wetland restoration can be used to offset past wetland losses and/or reduce future losses due to land‐use changes, rising sea levels, and accelerating…”
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Mangrove Encroachment Alters Decomposition Rate in Saltmarsh Through Changes in Litter Quality by Simpson, Loraé T., Cherry, Julia A., Smith, Rachel S., Feller, Ilka C.

“…Global climate change is driving the expansion of mangroves into saltmarsh habitat, which may alter the rate and magnitude of organic matter decomposition and…”
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Tidal Wetlands in a Changing Climate: Introduction to a Special Feature by Cherry, Julia A., Battaglia, Loretta L.

“…Through multiple interacting forcing factors, global climate change is poised to alter the structure and function of tidal wetlands worldwide, and…”
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Biophysical Factors Influence Methane Fluxes in Subtropical Freshwater Wetlands Using Eddy Covariance Methods by Yu, Zhuoran, Staudhammer, Christina L., Malone, Sparkle L., Oberbauer, Steven F., Zhao, Junbin, Cherry, Julia A., Starr, Gregory

“…Wetlands are the largest natural source of methane (CH 4 ); however, the contribution of subtropical wetlands to global CH 4 budgets is still unclear due to…”
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Restoring Fringing Tidal Marshes for Ecological Function and Ecosystem Resilience to Moderate Sea-level Rise in the Northern Gulf of Mexico by Martin, Sara, Sparks, Eric L., Constantin, Adam J., Cebrian, Just, Cherry, Julia A.

“…Tidal marshes are increasingly vulnerable to degradation or loss from eutrophication, land-use changes, and accelerating sea-level rise, making restoration…”
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Elevated CO₂ enhances biological contributions to elevation change in coastal wetlands by offsetting stressors associated with sea-level rise by Cherry, Julia A., McKee, Karen L., Grace, James B.

“…1. Sea-level rise, one indirect consequence of increasing atmospheric CO₂, poses a major challenge to long-term stability of coastal wetlands. An important…”
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Ecosystem carbon exchange and nitrogen removal rates in two 33‐year‐old constructed salt marshes are similar to those in a nearby natural marsh by Ledford, Taylor C., Mortazavi, Behzad, Tatariw, Corianne, Starr, Sommer F., Smyth, Erin, Wood, Abigail Griffin, Simpson, Loraé T., Cherry, Julia A.

“…Human activities have led to 1–2% of coastal wetlands lost per year globally, with subsequent losses in ecosystem services such as nutrient filtering and…”
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Hurricane Katrina Sediment Slowed Elevation Loss in Subsiding Brackish Marshes of the Mississippi River Delta by McKee, Karen L., Cherry, Julia A.

“…Although hurricanes can damage or destroy coastal wetlands, they may play a beneficial role in reinvigorating marshes by delivering sediments that raise soil…”
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Nitrate reduction capacity is limited by belowground plant recovery in a 32‐year‐old created salt marsh by Tatariw, Corianne, Mortazavi, Behzad, Ledford, Taylor C., Starr, Sommer F., Smyth, Erin, Griffin Wood, Abigail, Simpson, Loraé T., Cherry, Julia A.

“…Human activities have decreased global salt marsh surface area with a subsequent loss in the ecosystem functions they provide. The creation of marshes in…”
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Species and tissue type regulate long-term decomposition of brackish marsh plants grown under elevated CO2 conditions by Jones, Joshua A., Cherry, Julia A., McKee, Karen L.

“…Organic matter accumulation, the net effect of plant production and decomposition, contributes to vertical soil accretion in coastal wetlands, thereby playing…”
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Spatially-dependent patterns of plant recovery and sediment accretion following multiple disturbances in a Gulf Coast tidal marsh by Braswell, Anna E., May, Christopher A., Cherry, Julia A.

“…Coastal wetlands are projected to experience increases in anthropogenic and climatic disturbances, which may alter plant-sediment feedbacks critical for…”
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Researcher effects on the biological structure and edaphic conditions of field sites and implications for management by Rinehart, Shelby A., Dybiec, Jacob M., Richardson, Parker, Walker, Janet B., Peabody, James D., Cherry, Julia A.

“…Field studies are necessary for understanding natural processes in spite of the human‐induced disturbances they cause. While researchers acknowledge these…”
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