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Showing 101-120 of about 3697 results.
Editorial: Challenges and opportunities in orchid ecology and conservationDOI: info:10.3389/fevo.2023.1226614v. 11
Kindlmann, Pavel, Kull, Tiiu, and Whigham, Dennis. 2023. "Editorial: Challenges and opportunities in orchid ecology and conservation." Frontiers in Ecology and Evolution, 11. https://doi.org/10.3389/fevo.2023.1226614.
Oxygen priming induced by elevated CO2 reduces carbon accumulation and methane emissions in coastal wetlandsDOI: info:10.1038/s41561-022-01070-6v. 16No. 163–68
Noyce, Genevieve L., Smith, Alexander J., Kirwan, Matthew L., Rich, Roy L., and Megonigal, J. P. 2023. "Oxygen priming induced by elevated CO2 reduces carbon accumulation and methane emissions in coastal wetlands." Nature Geoscience, 16, (1) 63–68. https://doi.org/10.1038/s41561-022-01070-6.
Geomorphic and ecological constraints on the coastal carbon sinkDOI: info:10.1038/s43017-023-00429-6v. 4No. 6393–406
Noyce, Genevieve L., Smith, Alexander J., Megonigal, J. P., and Kirwan, Matthew L. 2023. "Geomorphic and ecological constraints on the coastal carbon sink." Nature Reviews Earth & Environment, 4, (6) 393–406. https://doi.org/10.1038/s43017-023-00429-6.
Examining the diversity, stability and functioning of marine fish communities across a latitudinal gradientDOI: info:10.1111/geb.13611v. 32No. 1Wiley166–177
Yan, Helen F., Casey, Jordan M., Knowlton, Nancy, Duffy, J. Emmett, and Brandl, Simon J. 2023. "Examining the diversity, stability and functioning of marine fish communities across a latitudinal gradient." Global Ecology and Biogeography, 32, (1) 166–177. https://doi.org/10.1111/geb.13611.
Reproductive Responses to Increased Shoot Density and Global Change Drivers in a Widespread Clonal Wetland Species,DOI: info:10.1007/s12237-023-01249-zSPRINGER
Kudoh, Aoi, Megonigal, J. Patrick, Langley, J. Adam, Noyce, Genevieve L., Sakai, Toshiyuki, and Whigham, Dennis F. 2023. "Reproductive Responses to Increased Shoot Density and Global Change Drivers in a Widespread Clonal Wetland Species, Schoenoplectus americanus." Estuaries and Coasts, https://doi.org/10.1007/s12237-023-01249-z.
Remote sensing for cost-effective blue carbon accountingDOI: info:10.1016/j.earscirev.2023.104337v. 238Elsevier
Malerba, Martino E., Costa, Micheli Duarte de Paula, Friess, Daniel A., Schuster, Lukas, Young, Mary A., Lagomasino, David, Serrano, Oscar, Hickey, Sharyn M., York, Paul H., Rasheed, Michael, Lefcheck, Jonathan S., Radford, Ben, Atwood, Trisha B., Ierodiaconou, Daniel, and Macreadie, Peter. 2023. "Remote sensing for cost-effective blue carbon accounting." Earth-Science Reviews, 238. https://doi.org/10.1016/j.earscirev.2023.104337.
Forest structural diversity is linked to soil microbial diversityDOI: info:10.1002/ecs2.4702v. 14No. 11
Lang, Ashley K., LaRue, Elizabeth A., Kivlin, Stephanie N., Edwards, Joseph D., Phillips, Richard P., Gallion, Joey, Kong, Nicole, Parker, John D., McCormick, Melissa K., Domke, Grant, and Fei, Songlin. 2023. "Forest structural diversity is linked to soil microbial diversity." Ecosphere, 14, (11). https://doi.org/10.1002/ecs2.4702.
Seagrass meadows as previously unrecognized reservoirs of micronutrients for human healthDOI: info:10.25573/SERC.20518518.V1Smithsonian Environmental Research Center
Lefcheck, Jonathan S. and Jones, Benjamin. 2023. [Dataset] Seagrass meadows as previously unrecognized reservoirs of micronutrients for human health. Distributed by Edgewater, Maryland: Smithsonian Environmental Research Center. https://doi.org/10.25573/SERC.20518518.V1.
Timing and environmental drivers of spawning migrations of alewife in rivers of Chesapeake BayDOI: info:10.7755/FB.121.3.4v. 121No. 396–111
Legett, Henry D., Aguilar, Robert, Heggie, Keira, Richie, Kimberly D., and Ogburn, Matthew B. 2023. "Timing and environmental drivers of spawning migrations of alewife (Alosa pseudoharengus) and blueback herring (A. aestivalis) in rivers of Chesapeake Bay." Fishery Bulletin, 121, (3) 96–111. https://doi.org/10.7755/FB.121.3.4.
A wide megafauna gap undermines China’s expanding coastal ecosystem conservationDOI: info:10.1126/sciadv.adg3800v. 9No. 32
Li, Xincheng, Wang, Hanchen, McCauley, Douglas J., Altieri, Andrew H., Silliman, Brian R., Lefcheck, Jonathan S., Wu, Jihua, Li, Bo, and He, Qiang. 2023. "A wide megafauna gap undermines China’s expanding coastal ecosystem conservation." Science Advances, 9, (32). https://doi.org/10.1126/sciadv.adg3800.
Strong correlations of sea ice cover with macroalgal cover along the Antarctic Peninsula: Ramifications for present and future benthic communitiesDOI: info:10.1525/elementa.2023.00020v. 11No. 1
Amsler, Charles D., Amsler, Margaret O., Klein, Andrew G., Galloway, Aaron W. E., Iken, Katrin, McClintock, James B., Heiser, Sabrina, Lowe, Alex T., Schram, Julie B., and Whippo, Ross. 2023. "Strong correlations of sea ice cover with macroalgal cover along the Antarctic Peninsula: Ramifications for present and future benthic communities." Elem Sci Anth, 11, (1). https://doi.org/10.1525/elementa.2023.00020.
Global dataset of soil organic carbon in tidal marshesDOI: info:10.1038/s41597-023-02633-xv. 10No. 1
Maxwell, Tania L., Rovai, André S., Adame, Maria Fernanda, Adams, Janine B., Álvarez-Rogel, José, Austin, William E. N., Beasy, Kim, Boscutti, Francesco, Böttcher, Michael E., Bouma, Tjeerd J., Bulmer, Richard H., Burden, Annette, Burke, Shannon A., Camacho, Saritta, Chaudhary, Doongar R., Chmura, Gail L., Copertino, Margareth, Cott, Grace M., Craft, Christopher, Day, John, De Los Santos, Carmen B., Denis, Lionel, Ding, Weixin, Ellison, Joanna C., Ewers Lewis, Carolyn J. et al. 2023. "Global dataset of soil organic carbon in tidal marshes." Scientific Data, 10, (1). https://doi.org/10.1038/s41597-023-02633-x.
Biotic and abiotic factors shaping bat activity in Maryland soybean fieldsDOI: info:10.1002/ecs2.4575v. 14No. 7Wiley
Maynard, Lauren D., Ford, W. Mark, Parker, John D., and Whitehead, Susan R. 2023. "Biotic and abiotic factors shaping bat activity in Maryland soybean fields." Ecosphere, 14, (7). https://doi.org/10.1002/ecs2.4575.
Interannual aggregation behavior of the endangered smoothhound in Madeira Island (northeast Atlantic)DOI: info:10.5343/bms.2023.0015v. 99No. 2139–140
Mcivor, Ashlie, Freitas, Mafalda, Dinis, Ana, and Canning-Clode, João. 2023. "Interannual aggregation behavior of the endangered smoothhound Mustelus mustelus in Madeira Island (northeast Atlantic)." Bulletin of Marine Science, 99, (2) 139–140. https://doi.org/10.5343/bms.2023.0015.
Mangrove Trees Outperform Saltmarsh Grasses in Building Elevation but Collapse Rapidly Under High Rates of Sea‐Level RiseDOI: info:10.1029/2022EF003202v. 11No. 4
Morris, James T., Langley, J. A., Vervaeke, William C., Dix, Nicole, Feller, Ilka C., Marcum, Pam, and Chapman, Samantha K. 2023. "Mangrove Trees Outperform Saltmarsh Grasses in Building Elevation but Collapse Rapidly Under High Rates of Sea‐Level Rise." Earth's Future, 11, (4). https://doi.org/10.1029/2022EF003202.
Dataset: National total ecosystem carbon stock for the mangroves of BelizeDOI: info:10.25573/SERC.21298338.V2Smithsonian Environmental Research Center
Morrissette, Hannah, Baez, Stacy K., Schile-Beers, Lisa M., Bood, Nadia, Martinez, Ninon D., Novelo, Kevin, Andrews, Gilbert, Balan, Luis, Beers, C. Scott, Betancourt, Sumeet A., Blanco, Reynel, Bowden, Eeryn, Burns-Perez, Virginia, Carcamo, Mercedes, Chevez, Luis, Crooks, Stephen, Feller, Ilka C., Galvez, Galento, Garbutt, Kent, Gongora, Ronny, Grijalva, Edalmi, Lefcheck, Jonathan S., Mahung, Alwyn, Mattis, Colin, McKoy, Tre et al. 2023. [Dataset] Dataset: National total ecosystem carbon stock for the mangroves of Belize. Distributed by Edgewater, Maryland: Smithsonian Environmental Research Center. https://doi.org/10.25573/SERC.21298338.V2.
Belize Blue Carbon: Establishing a national carbon stock estimate for mangrove ecosystemsDOI: info:10.1016/j.scitotenv.2023.161829v. 870
Morrissette, Hannah K., Baez, Stacy K., Beers, Lisa, Bood, Nadia, Martinez, Ninon D., Novelo, Kevin, Andrews, Gilbert, Balan, Luis, Beers, C. S., Betancourt, Sumeet A., Blanco, Reynel, Bowden, Eeryn, Burns-Perez, Virginia, Carcamo, Mercedes, Chevez, Luis, Crooks, Stephen, Feller, Ilka C., Galvez, Galento, Garbutt, Kent, Gongora, Ronny, Grijalva, Edalmi, Lefcheck, Jonathan, Mahung, Alwyn, Mattis, Colin, McKoy, Tre et al. 2023. "Belize Blue Carbon: Establishing a national carbon stock estimate for mangrove ecosystems." Science of The Total Environment, 870. https://doi.org/10.1016/j.scitotenv.2023.161829.
Classroom citizen scientists discover red swamp crayfish Procambarus clarkii (Girard, 1852) from northern Idaho, United StatesDOI: info:10.3391/bir.2023.12.2.08v. 12No. 2435–443
Morton, Jamie L., Bayless, Robert, Connerley, Elizabeth, Ekins, James P., Elvidge, Janice A., Hartman, Jordan H., Holzer, Kimberly K., Reynolds, Richard J., and Larson, Eric R. 2023. "Classroom citizen scientists discover red swamp crayfish Procambarus clarkii (Girard, 1852) from northern Idaho, United States." Bioinvasions Records, 12, (2) 435–443. https://doi.org/10.3391/bir.2023.12.2.08.
Dataset: Mining of Deep Nitrogen Facilitates Phragmites australis Invasion in Coastal SaltmarshesDOI: info:10.25573/SERC.22116053.V2Smithsonian Environmental Research Center
Mozdzer, Thomas, Meschter, Justin, Caplan, Joshua S., Baldwin, Andrew, and Megonigal, J. Patrick. 2023. [Dataset] Dataset: Mining of Deep Nitrogen Facilitates Phragmites australis Invasion in Coastal Saltmarshes. Distributed by Edgewater, Maryland: Smithsonian Environmental Research Center. https://doi.org/10.25573/SERC.22116053.V2.
Mining of Deep Nitrogen Facilitates Invasion in Coastal SaltmarshesDOI: info:10.1007/s12237-022-01146-xv. 46No. 4998–1008
Mozdzer, Thomas J., Meschter, Justin, Baldwin, Andrew H., Caplan, Joshua S., and Megonigal, J. Patrick. 2023. "Mining of Deep Nitrogen Facilitates Phragmites australis Invasion in Coastal Saltmarshes." Estuaries and Coasts, 46, (4) 998–1008. https://doi.org/10.1007/s12237-022-01146-x.