Search Results - "Lawrence, Beth"

Nitrogen enrichment stimulates wetland plant responses whereas salt amendments alter sediment microbial communities and biogeochemical responses by Donato, Mary, Johnson, Olivia, Steven, Blaire, Lawrence, Beth A

“…Freshwater wetlands of the temperate north are exposed to a range of pollutants that may alter their function, including nitrogen (N)-rich agricultural and…”
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Experimental sediment addition in salt-marsh management: Plant-soil carbon dynamics in southern New England by Puchkoff, Anna L., Lawrence, Beth A.

“…Thin Layer Placement (TLP) is an increasingly used management technique to promote coastal resilience to accelerated sea level rise, but it is unclear how…”
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Carbon Dynamics Vary Among Tidal Marsh Plant Species in a Sea-level Rise Experiment by Barry, Aidan, Ooi, Sean Khan, Helton, Ashley M., Steven, Blaire, Elphick, Chris S., Lawrence, Beth A.

“…Tidal wetlands are important blue carbon reservoirs, but it is unclear how sea-level rise (SLR) may affect carbon cycling and soil microbial communities either…”
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Repeated large-scale mechanical treatment of invasive Typha under increasing water levels promotes floating mat formation and wetland methane emissions by Johnson, Olivia F., Panda, Abha, Lishawa, Shane C., Lawrence, Beth A.

“…Invasive species management typically aims to promote diversity and wildlife habitat, but little is known about how management techniques affect wetland carbon…”
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Typha (Cattail) Invasion in North American Wetlands: Biology, Regional Problems, Impacts, Ecosystem Services, and Management by Bansal, Sheel, Lishawa, Shane C., Newman, Sue, Tangen, Brian A., Wilcox, Douglas, Albert, Dennis, Anteau, Michael J., Chimney, Michael J., Cressey, Ryann L., DeKeyser, Edward, Elgersma, Kenneth J., Finkelstein, Sarah A., Freeland, Joanna, Grosshans, Richard, Klug, Page E., Larkin, Daniel J., Lawrence, Beth A., Linz, George, Marburger, Joy, Noe, Gregory, Otto, Clint, Reo, Nicholas, Richards, Jennifer, Richardson, Curtis, Rodgers, LeRoy, Schrank, Amy J., Svedarsky, Dan, Travis, Steven, Tuchman, Nancy, Windham-Myers, Lisamarie

“…Typha is an iconic wetland plant found worldwide. Hybridization and anthropogenic disturbances have resulted in large increases in Typha abundance in wetland…”
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Plant-available soil nutrients have a limited influence on cone production patterns of individual white spruce trees by Leeper, Abigail C., Lawrence, Beth A., LaMontagne, Jalene M.

“…The resource budget model for mast seeding hypothesizes that soil nutrients proximately influence reproduction. Plants in high soil nutrient (particularly N)…”
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Vegetation zones as indicators of denitrification potential in salt marshes by Ooi, Sean Khan, Barry, Aidan, Lawrence, Beth A., Elphick, Chris S., Helton, Ashley M.

“…Salt marsh vegetation zones shift in response to large‐scale environmental changes such as sea‐level rise (SLR) and restoration activities, but it is unclear…”
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Submerged harvest reduces invasive Typha and increases soil macronutrient availability by Johnson, Olivia F., Lishawa, Shane C., Lawrence, Beth A.

“…Aims We examined how mechanical management of invasive macrophyte, Typha × glauca alters plant-soil interactions underlying carbon processes and nutrient…”
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Aquatic connectivity treatments increase fish and macroinvertebrate use of Typha‐invaded Great Lakes coastal wetlands by Lishawa, Shane C., Schrank, Amy J., Lawrence, Beth A., Monks, Andrew M., Albert, Dennis A.

“…Coastal wetlands provide critical habitat for aquatic organisms and important ecosystem services for the terrestrial and aquatic landscapes that they bridge,…”
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Harvesting invasive plants to reduce nutrient loads and produce bioenergy: an assessment of Great Lakes coastal wetlands by Carson, Brendan D., Lishawa, Shane C., Tuchman, Nancy C., Monks, Andrew M., Lawrence, Beth A., Albert, Dennis A.

“…In Laurentian Great Lakes coastal wetlands (GLCWs), dominant emergent invasive plants are expanding their ranges and compromising the unique habitat and…”
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Biomass harvest of invasive Typha promotes plant diversity in a Great Lakes coastal wetland by Lishawa, Shane C, Lawrence, Beth A, Albert, Dennis A, Tuchman, Nancy C

“…Ecological and financial constraints limit restoration efforts, preventing the achievement of desired ecological outcomes. Harvesting invasive plant biomass…”
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Wetland invasion by Typha×glauca increases soil methane emissions by Lawrence, Beth A., Lishawa, Shane C., Hurst, Nia, Castillo, Buck T., Tuchman, Nancy C.

“…•Typha×glauca invasion increased CH4 emissions from experimental mesocosms.•Typha-invaded field soils had greater CH4 production potential than native…”
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Road salt inputs alter biogeochemistry but not plant community composition in exurban forested wetlands by Walker, Samantha E., Robbins, Gary, Helton, Ashley M., Lawrence, Beth A.

“…Forested wetlands of the temperate north are increasingly exposed to deicing salts, but it is unclear how this may alter wetland biogeochemistry and plant…”
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Effects of experimental harvesting of an invasive hybrid cattail on wetland structure and function by Keyport, Samantha, Carson, Brendan D., Johnson, Olivia, Lawrence, Beth A., Lishawa, Shane C., Tuchman, Nancy C., Kelly, John J.

“…Invasive plants, such as the hybrid cattail Typha × glauca, can reduce biodiversity and alter the ability of wetlands to provide critical ecosystem services,…”
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Carbon Storage by Carex stricta Tussocks: A Restorable Ecosystem Service? by Lawrence, Beth A., Zedler, Joy B.

“…Tussock-forming plants are globally widespread and enhance ecosystem services. We hypothesized that tussocks of Carex stricta store carbon (C) in addition to…”
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Invasive species removal increases species and phylogenetic diversity of wetland plant communities by Lishawa, Shane C., Lawrence, Beth A., Albert, Dennis A., Larkin, Daniel J., Tuchman, Nancy C.

“…Plant invasions result in biodiversity losses and altered ecological functions, though quantifying loss of multiple ecosystem functions presents a research…”
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Formation of tussocks by sedges: effects of hydroperiod and nutrients by Lawrence, Beth A, Zedler, Joy B

“…Tussock formation is a global phenomenon that enhances microtopography and increases biodiversity by adding structure to ecological communities, but little is…”
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Bioavailability of Macro and Micronutrients Across Global Topsoils: Main Drivers and Global Change Impacts by Ochoa‐Hueso, Raúl, Delgado‐Baquerizo, Manuel, Risch, Anita C., Ashton, Louise, Augustine, David, Bélanger, Nicolas, Bridgham, Scott, Britton, Andrea J., Bruckman, Viktor J., Camarero, J. Julio, Cornelissen, Gerard, Crawford, John A., Dijkstra, Feike A., Diochon, Amanda, Earl, Stevan, Edgerley, James, Epstein, Howard, Felton, Andrew, Fortier, Julien, Gagnon, Daniel, Greer, Ken, Griffiths, Hannah M., Halde, Caroline, Hanslin, Hans Martin, Harris, Lorna I., Hartsock, Jeremy A., Hendrickson, Paul, Hovstad, Knut Anders, Hu, Jia, Jani, Arun D., Kent, Kelcy, Kerdraon‐Byrne, Deirdre, Khalsa, Sat Darshan S., Lai, Derrick Y. F., Lambert, France, LaMontagne, Jalene M., Lavergne, Stéphanie, Lawrence, Beth A., Littke, Kim, Leeper, Abigail C., Licht, Mark A., Liebig, Mark A., Lynn, Joshua S., Maclean, Janet E., Martinsen, Vegard, McDaniel, Marshall D., McIntosh, Anne C. S., Miesel, Jessica R., Miller, Jim, Mulvaney, Michael J., Moreno, Gerardo, Newstead, Laura, Pakeman, Robin J., Pergl, Jan, Pinno, Bradley D., Piñeiro, Juan, Quigley, Kathleen, Radtke, Troy M., Reed, Paul, Rolo, Víctor, Rudgers, Jennifer, Rutherford, P. Michael, Sayer, Emma J., Serrano‐Grijalva, Lilia, Strack, Maria, Sukdeo, Nicole, Taylor, Andy F. S., Truax, Benoit, Tsuji, Leonard J. S., Gestel, Natasja, Vaness, Brenda M., Sundert, Kevin, Vítková, Michaela, Weigel, Robert, Wilton, Meaghan J., Yano, Yuriko, Teen, Ewing, Bremer, Eric

“…Understanding the chemical composition of our planet's crust was one of the biggest questions of the 20th century. More than 100 years later, we are still far…”
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Reintroduction of Castilleja levisecta: Effects of Ecological Similarity, Source Population Genetics, and Habitat Quality by Lawrence, Beth A, Kaye, Thomas N

“…A suite of ecological and genetic factors are likely to contribute to reintroduction performance. Potential factors include the ecological similarity between…”
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Herbicide management of invasive cattail (Typha × glauca) increases porewater nutrient concentrations by Lawrence, Beth A, Shane C. Lishawa, Yarency Rodriguez, Nancy C. Tuchman

“…Invasive wetland plants are the primary targets of wetland management to promote native communities and wildlife habitat, but little is known about how…”
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