Wetland Science and Practice Table of Contents and Citations 2013-2025
2/3/2025
| Title | DOI | Publication Year | APA Citation | Web Link | ||
| The Environmental Protection of Wetlands Under International Law | 10.1672/UCRT083-300 | 2013 | Murcia, M. (2013). The environmental protection of wetlands under international law. The Society of Wetland Scientists Bulletin, 30(4), 9–26. doi:10.1672/ucrt083-300 | |||
| Colorado Flooding Brings Flood of Attention To Vital Regulatory Permitting Program | 10.1672/UCRT083-299 | 2013 | Williamson, E. (2013). Colorado flooding brings flood of attention to vital regulatory permitting program. The Society of Wetland Scientists Bulletin, 30(4), 27–31. doi:10.1672/ucrt083-299 | |||
| Variations in shoreline vegetation and turbidity of shallow lakes by Ryan D. Sullivan, La Toya Kissoon, Donna Jacob, Mark Hanson, Emily K Fischbach, and Marinus Otte | 10.1672/UCRT083-298 | 2014 | Sullivan, R. (2014). Variations in shoreline vegetation and turbidity of shallow lakes by Ryan D. Sullivan, La Toya Kissoon, Donna Jacob, Mark Hanson, Emily K Fischbach, and Marinus Otte. WETLAND SCIENCE AND PRACTICE, 31(1), 19–32. doi:10.1672/ucrt083-298 | |||
| Restoring the Garden of Eden: Negative Impacts | 10.1672/UCRT083-297 | 2014 | Douabul, A. (2014). Restoring the Garden of Eden: Negative impacts by Ali Abdul Zahra douabul and Sama Sameer AlMaarofi. WETLAND SCIENCE AND PRACTICE, 31(1). doi:10.1672/ucrt083-297 | |||
| Variations in shoreline vegetation and turbidity of shallow lakes by Ryan D. Sullivan, La Toya Kissoon, Donna Jacob, Mark Hanson, Emily K Fischbach, and Marinus Otte | 10.1672/UCRT083-296 | 2014 | Sullivan, R. (2014). Variations in shoreline vegetation and turbidity of shallow lakes. Wetland Science and Practice, 31, Page Range. https://doi.org/10.1672/UCRT083-296 | |||
| Climate Adaptation at Kennedy Space Center: How Can Wetlands Help NASA Adapt to Warming Temperature and Rising Seas? by S. Chapman, H. Tran, and C. Doughty | 10.1672/UCRT083-295 | 2014 | Chapman, S. (2014). Climate adaptation at Kennedy Space Center: How can wetlands help NASA adapt to warming temperature and rising seas? The Society of Wetland Scientists Bulletin, 31(2), 6–8. doi:10.1672/ucrt083-295 | |||
| Evaluating Methods for Analyzing Vegetation and Determining Hydrophytic Vegetation for Wetland Delineation by R. Lichvar and J. Gillrich | 10.1672/UCRT083-294 | 2014 | Sullivan, R. (2014). Variations in shoreline vegetation and turbidity of shallow lakes by Ryan D. Sullivan, La Toya Kissoon, Donna Jacob, Mark Hanson, Emily K Fischbach, and Marinus Otte. WETLAND SCIENCE AND PRACTICE, 31(1), 19–32. doi:10.1672/ucrt083-296 | |||
| Missisquoi Delta and Bay Wetlands Ramsar Site Designated in Vermont by K. Sturm | 10.1672/UCRT083-293 | 2014 | Sturm, K. (2014). Missisquoi delta and bay Wetlands Ramsar site designated in Vermont by K. sturm. The Society of Wetland Scientists Bulletin, 31(2), 11–12. doi:10.1672/ucrt083-293 | |||
| The Uros of Lake Titicaca and their Dependence on Totora (Schoenoplectus californicus ssp. totora; Cyperaceae) by R. Tiner | 10.1672/UCRT083-292 | 2014 | Tiner, R. (2014). The Uros of Lake Titicaca and their Dependence on Totora (Schoenoplectus californicus ssp. totora; Cyperaceae) by R. Tiner. The Society of Wetland Scientists Bulletin, 31(2), 13–16. doi:10.1672/ucrt083-292 | |||
| Monitoring Indicators of Climate Change along Long Island Sound: A Simple Protocol for Collecting Baseline Data on Marsh Migration by Chris S. Elphick and Christopher R. Field | 10.1672/UCRT083-291 | 2014 | Elphick, C. (2014). Monitoring indicators of Climate Change along Long Island sound: A simple protocol for collecting baseline data on marsh migration. The Society of Wetland Scientists Bulletin, 31(3), 7–9. doi:10.1672/ucrt083-291 | |||
| An Approach to Monitoring Coastal Marsh Migration in the Northeast by Ralph W. Tiner and Peter L. M. Veneman | 10.1672/UCRT083-290 | 2014 | Tiner, R. (2014). An approach to monitoring coastal marsh migration in the northeast by Ralph W. tiner and Peter L. m. veneman. The Society of Wetland Scientists Bulletin, 31(3), 10–13. doi:10.1672/ucrt083-290 | |||
| Recent Trends in U.S. Prairie Pothole Wetlands by M.T. Bergeson | 10.1672/UCRT083-289 | 2014 | Bergeson, M. T. (2014). Recent trends in U.s. prairie pothole wetlands. The Society of Wetland Scientists Bulletin, 31(3), 14–16. doi:10.1672/ucrt083-289 | |||
| Impact of Rapid Infiltration Beds on Hydrology, Vegetation and Chemistry of a Forested Wetland by Catherine Owen Koning and Jennifer Bell | 10.1672/UCRT083-288 | 2014 | Koning, C. (2014). Impact of rapid infiltration beds on hydrology, vegetation and chemistry of a forested wetland. The Society of Wetland Scientists Bulletin, 31(4), 17–21. doi:10.1672/ucrt083-288 | |||
| Wetland Habitat Assessments at the Rochester Embayment Area of Concern on the South Shore of Lake Ontario, USA by Dan Gefell, Emily VanWyk, Anne Secord, Nick Vermeulen, Emma Buckley, Justin Ecret, Andy Lowell and Amy Roe | 10.1672/UCRT083-287 | 2014 | Gefell, D. (2014). Wetland habitat assessments at the Rochester embayment area of Concern on the South Shore of Lake Ontario, USA. The Society of Wetland Scientists Bulletin, 31(4), 22–27. doi:10.1672/ucrt083-287 | |||
| Kite-based Aerial Photography (KAP): A Low Cost, Effective Tool for Wetland Research by Christian Andresen, Sergio Vargas, Vanessa Lougheed and Craig Tweedie | 10.1672/UCRT083-286 | 2014 | Andresen, C. (2014). Kite-based aerial photography (KAP): A low cost, effective tool for wetland research. The Society of Wetland Scientists Bulletin, 31(4), 28–33. doi:10.1672/ucrt083-286 | |||
| Ecological Survey of a Dredged Material-supported Wetland in the Atchafalaya River, Louisiana: An Engineering with Nature Case Study | 10.1672/UCRT083-285 | 2015 | Berkowitz, J. (2015). Ecological survey of a dredged material-supported wetland in the Atchafalaya river, Louisiana: An engineering with nature case study. The Society of Wetland Scientists Bulletin, 31(1), 14–18. doi:10.1672/ucrt083-285 | |||
| Salinity Tolerance of Common Reed (Phragmites australis) at the Medouie Creek Restoration Site, Nantucket, MA by Jennifer M. Karberg, Karen C. Beattie, Danielle I. O’Dell, and Kelly A. Omand Karberg | 10.1672/UCRT083-284 | 2015 | Karberg, J. (2015). Salinity tolerance of common Reed (Phragmites australis) at the medouie creek restoration site, Nantucket MA. The Society of Wetland Scientists Bulletin, 31(1), 19–23. doi:10.1672/ucrt083-284 | |||
| Metrics for Determining Hydrophytic Vegetation in Wetland Delineation: a Clarification on the Prevalence Index by Diane De Steven | 10.1672/UCRT083-283 | 2015 | De Steven, D. (2015). Metrics for determining hydrophytic vegetation in wetland delineation: A clarification on the Prevalence Index. The Society of Wetland Scientists Bulletin, 31(1), 24–26. doi:10.1672/ucrt083-283 | |||
| Wetland Ecogenomics – The Next Generation of Wetland Biodiversity and Functional Assessment by Joel F. Gibson, Eric D. Stein, Donald J. Baird, C. Max Finlayson, Xiaowei Zhang, and Mehrdad Hajibabaei | 10.1672/UCRT083-282 | 2015 | Gibson, J. (2015). Wetland ecogenomics – the next generation of wetland biodiversity and functional assessment. The Society of Wetland Scientists Bulletin, 31(1), 27–32. doi:10.1672/ucrt083-282 | |||
| State-of-the-Science Report: Trends in Floristic Quality Assessment for Wetland Evaluation by Douglas A. DeBerry, Sarah J. Chamberlain and Jeffrey W. Matthews | 10.1672/UCRT083-281 | 2015 | DeBerry, D. (2015). STATE-OF-THE-SCIENCE REPORT trends in floristic quality assessment for wetland evaluation. The Society of Wetland Scientists Bulletin, 32(4), 12–22. doi:10.1672/ucrt083-281 | |||
| Inventory and Mapping of Wetland Plant Communities in Burren National Park, Ireland by Daniel A. Sarr and Lorin Groshong | 10.1672/UCRT083-280 | 2015 | Sarr, D. (2015). Inventory and mapping of wetland plant communities in Burren National Park, Ireland. The Society of Wetland Scientists Bulletin, 32(4), 23–29. doi:10.1672/ucrt083-280 | |||
| Coastal Planning on the U.S. National Wildlife Refuge System with the Sea Level Affecting Marshes Model (SLAMM) by Brian Czech | 10.1672/UCRT083-279 | 2015 | Czech, B. (2015). Coastal planning on the U.s. national Wildlife Refuge System with the sea level affecting marshes model (SLAMM). The Society of Wetland Scientists Bulletin, 32(4), 30–40. doi:10.1672/ucrt083-279 | |||
| Hydraulic Fracturing: Potential Impacts to Wetlands by Lori A. Sutter, Nathaniel B. Weston and Steven T. Goldsmith | 10.1672/UCRT083-278 | 2015 | Sutter, L. (2015). Hydraulic fracturing: Potential impacts to wetlands. The Society of Wetland Scientists Bulletin, 32(3), 7–16. doi:10.1672/ucrt083-278 | |||
| Application of International Water Law in Eden: Environmental Protection of the Mesopotamian Marshes in Southern Iraq by Michelle Stevens and Nadir A. Salman | 10.1672/UCRT083-277 | 2015 | Stevens, M. (2015). Application of international water law in Eden: Environmental protection of the Mesopotamian Marshes in southern Iraq. The Society of Wetland Scientists Bulletin, 32(3), 17–27. doi:10.1672/ucrt083-277 | |||
| Notes on the Third Edition of the Floristic Quality Assessment of Michigan by Bradford S. Slaughter, Anton A. Reznicek, Michael R. Penskar and Beverly S. Walters | 10.1672/UCRT083-276 | 2015 | Slaughter, B. (2015). Notes on the third Edition of the Floristic Quality Assessment of Michigan. The Society of Wetland Scientists Bulletin, 32(3), 28–32. doi:10.1672/ucrt083-276 | |||
| Evaluating a Rapid Assessment Method Using Salamander Community Metrics by Elizabeth A. Summers, Jacob F. Berkowitz, Chris V. Noble, and Frank Spilker | 10.1672/UCRT083-275 | 2015 | Summers, E. (2015). Evaluating a rapid assessment method using salamander community metrics. The Society of Wetland Scientists Bulletin, 32(4), 9–14. doi:10.1672/ucrt083-275 | |||
| The Use of Wetlands in Boron (B) Remediation in Turkey by Onur Can Türker, Cengiz Türe, Harun Böcük, Anıl Yakar | 10.1672/UCRT083-274 | 2015 | Türker, O. (2015). The use of wetlands in boron (B) remediation in Turkey. The Society of Wetland Scientists Bulletin, 32(4), 15–17. doi:10.1672/ucrt083-274 | |||
| An Overview of Research Supporting Wetland and Ordinary High Water Mark Delineation by Robert W. Lichvar, Jennifer J. Gillrich, Matthew K. Mersel, Cristina E. McKernan, and Betsy L. Bultema | 10.1672/UCRT083-273 | 2015 | Lichvar, R. (2015). An overview of research supporting wetland and ordinary high water Mark delineation. The Society of Wetland Scientists Bulletin, 32(4), 18–20. doi:10.1672/ucrt083-273 | |||
| Phenology of Carex stricta: It pays to be tall! | 10.1672/UCRT083-272 | 2016 | Zedler, J. (2016). Phenology of Carex stricta: It pays to be tall! The Society of Wetland Scientists Bulletin, 33(1), 14–21. doi:10.1672/ucrt083-272 | |||
| Studenchishte Marsh as an Integral Part of Ancient Lake Ohrid: Current Status and Need for Protection | 10.1672/UCRT083-270 | 2016 | Apostolova, N. (2016). Studenchishte Marsh as an integral part of ancient Lake Ohrid: Current status and need for protection. The Society of Wetland Scientists Bulletin, 33, Page Range. https://doi.org/10.1672/UCRT083-270 | |||
| Lessons Learned from the Finderne Mitigation Site, Bridgewater, NJ by Roy C. Messaros | 10.1672/UCRT083-269 | 2016 | Messaros, R. (2016). Lessons learned from the Finderne mitigation site, Bridgewater, NJ by Roy C. messaros. The Society of Wetland Scientists Bulletin, 33(3), 61–69. doi:10.1672/ucrt083-269 | |||
| Climate Change and the Fate of Coastal Wetlands by Christopher Craft, Ellen Herbert, Fan Li, Dontrece Smith, Joe Schubauer-Berigan, Sarah Widney, Christine Angelini, Steve Pennings, Patricia Medeiros, Jeb Byers and Merryl Alber | 10.1672/UCRT083-268 | 2016 | Craft, C. (2016). Climate change and the fate of coastal wetlands. The Society of Wetland Scientists Bulletin, 33(3), 70–73. doi:10.1672/ucrt083-268 | |||
| Are Salt Marsh Pools Suitable Sites for Restoration? by Joseph Smith and Larry Niles | 10.1672/UCRT083-267 | 2016 | Smith, J. (2016). Are salt marsh pools suitable sites for restoration? By Joseph smith and Larry Niles. The Society of Wetland Scientists Bulletin, 33(4), 101–109. doi:10.1672/ucrt083-267 | |||
| Mangroves of the Niger Delta: Their Importance, Threats, and Possible Restoration by Elijah I. Ohimain | 10.1672/UCRT083-266 | 2016 | Ohimain, E. (2016). Mangroves of the Niger delta: Their importance, threats, and possible restoration. The Society of Wetland Scientists Bulletin, 33(4), 110–121. doi:10.1672/ucrt083-266 | |||
| Marsh Restoration Using Thin Layer Sediment Addition: Initial Soil Evaluation by Jacob Berkowitz, Christine VanZomeren, and Candice Piercy | 10.1672/UCRT083-265 | 2017 | Berkowitz, J. (2017). Marsh restoration using thin layer sediment addition: Initial soil evaluation. The Society of Wetland Scientists Bulletin, 34(1), 15–19. doi:10.1672/ucrt083-265 | |||
| A Call for Action to Protect Vernal Ponds in Ontario by Gail Krantzberg, Nick Luymes, Dave Taylor, Douglas Markoff, and Kirushanth Gnanachandran | 10.1672/UCRT083-264 | 2017 | Krantzberg, G. (2017). A call for action to protect vernal ponds in Ontario. The Society of Wetland Scientists Bulletin, 34(1), 20–28. doi:10.1672/ucrt083-264 | |||
| Wetland Science and Wetland Culture - Evolutions in the Ramsar Convention | 10.1672/UCRT083-263 | 2017 | Pritchard, D. (2017). Wetland science and wetland culture - evolutions in the Ramsar Convention. The Society of Wetland Scientists Bulletin, 57–57. doi:10.1672/ucrt083-263 | |||
| The History of Wetland Science – A Forthcoming Series in Wetland Science & Practice edited by Arnold van der Valk and Gordon Goldsborough | 10.1672/UCRT083-262 | 2017 | Van Der Valk, A. (2017). The history of wetland science – A forthcoming series in wetland science & practice edited by Arnold van der Valk and Gordon goldsborough. The Society of Wetland Scientists Bulletin, 34(3), 73–73. doi:10.1672/ucrt083-262 | |||
| History and Role of the Journal Wetlands in Developing the Field of Wetland Science by Douglas A. Wilcox | 10.1672/UCRT083-261 | 2017 | Wilcox, D. (2017). History and role of the journal wetlands in developing the field of wetland science. The Society of Wetland Scientists Bulletin, 34(3), 74–77. doi:10.1672/ucrt083-261 | |||
| Monitoring Changes in Minnesota Wetland Area and Type from 2006 to 2014 by Steven M. Kloiber and Douglas J. Norris | 10.1672/UCRT083-260 | 2017 | Kloiber, S. (2017). Monitoring changes in Minnesota wetland area and type from 2006 to 2014. The Society of Wetland Scientists Bulletin, 34(3), 78–89. doi:10.1672/ucrt083-260 | |||
| Antecedent Wetland Ecologists - German and Austrian in the Ninetieth Century by Arnold van der Valk | 10.1672/UCRT083-259 | 2017 | Van Der Valk, A. (2017). Antecedent Wetland Ecologists - German and Austrian in the Nineteenth Century by Arnold van der Valk. The Society of Wetland Scientists Bulletin, 34(3), 112–117. doi:10.1672/ucrt083-259 | |||
| The Second Warning to Humanity and Wetlands by C Max Finlayson, William R Moomaw, Gillian T Davies | 10.1672/UCRT083-258 | 2017 | The Second Warning to Humanity and wetlands by C max Finlayson, William R moomaw, Gillian T Davies. (2017). The Society of Wetland Scientists Bulletin, 34(3), 118–120. doi:10.1672/ucrt083-258 | |||
| Wetland Science WETLANDS Introduces Permanent Series on Topics in Wetland Science by Marinus Otte | 10.1672/UCRT083-257 | 2017 | Otte, M. (2017). WETLANDS introduces permanent series on topics in wetland science. The Society of Wetland Scientists Bulletin, 34(3). doi:10.1672/ucrt083-257 | |||
| Stephen A. Forbes, Antecedent Wetland Ecologist? by Arnold van der Valk | 10.1672/UCRT083-256 | 2018 | van der Valk, A. (2018). Stephen A. Forbes, antecedent wetland ecologist? Wetland Science & Practice, 35(1), 18–24. https://doi.org/10.1672/ucrt083-256 | |||
| Principles of Wetland Creation and Restoration: Reflections, Part 1 by Mallory N. Gilbert | 10.1672/UCRT083-255 | 2018 | Gilbert, M. (2018). Principles of wetland creation and restoration: Reflections. Wetland Science & Practice, 35(1), 25–36. doi:10.1672/ucrt083-255 | |||
| Wetland Practice World Wetland Day and Ramsar Wetlands in the USA—Uncertainty for the Future by William J. Mitsch, Ph.D. | 10.1672/UCRT083-254 | 2018 | Mitsch, W. (2018). World wetland day and Ramsar wetlands in the USA—uncertainty for the future. Wetland Science & Practice, 35(1), 37–39. doi:10.1672/ucrt083-254 | |||
| Assisting Nature: Ducks, “Ding” and DU by Arnold van der Valk | 10.1672/UCRT083-253 | 2018 | Van Der Valk, A. (2018). Assisting nature: Ducks, “Ding” and DU by Arnold van der Valk. The Society of Wetland Scientists Bulletin, 35(2), 60–67. doi:10.1672/ucrt083-253 | |||
| Principles of Wetland Creation and Restoration: Reflections, Part 2 by Mallory N. Gilbert | 10.1672/UCRT083-252 | 2018 | Gilbert, M. (2018). Principles of wetland creation and restoration: Reflections. The Society of Wetland Scientists Bulletin, 35(2), 68–78. doi:10.1672/ucrt083-252 | |||
| Experimental Wetlaculture (Wetlands + Agriculture) Mesocosm Compound Established in Naples, Florida, to Restore Wetlands, Solve Harmful Algal Blooms, and Develop Sustainable Agriculture by William J. Mitsch, Ph.D. | 10.1672/UCRT083-251 | 2018 | Mitsch, W. (2018). Experimental wetlaculture (wetlands + agriculture) mesocosm compound established in Naples, Florida, to restore wetlands, solve harmful algal blooms, and develop sustainable agriculture. The Society of Wetland Scientists Bulletin, 35(2), 79–80. doi:10.1672/ucrt083-251 | |||
| Phytoremediation of Heavy Metals by Salvinia natans in a Kashmir Himalayan RAMSAR Site by Syed Shakeel Ahmad | 10.1672/UCRT083-250 | 2018 | Ahmad, S. (2018). Phytoremediation of Heavy Metals by Salvinia natans in a Kashmir Himalayan RAMSAR Site. The Society of Wetland Scientists Bulletin, 35(2), 81–85. doi:10.1672/ucrt083-250 | |||
| Assisting Nature: Ducks, “Ding” and DU by Arnold van der Valk | 10.1672/UCRT083-249 | 2018 | Van Der Valk, A. (2018). Assisting Nature: Ducks, “Ding” and DU. The Society of Wetland Scientists Bulletin, 35(2), 60–67. doi:10.1672/ucrt083-249 | |||
| Principles of Wetland Creation and Restoration: Reflections, Part 2 by Mallory N. Gilbert | 10.1672/UCRT083-248 | 2018 | Gilbert, M. (2018). Principles of wetland creation and restoration: Reflections. The Society of Wetland Scientists Bulletin, 35(2), 68–78. doi:10.1672/ucrt083-248 | |||
| Experimental Wetlaculture (Wetlands + Agriculture) Mesocosm Compound Established in Naples, Florida, to Restore Wetlands, Solve Harmful Algal Blooms, and Develop Sustainable Agriculture by William J. Mitsch, Ph.D. | 10.1672/UCRT083-247 | 2018 | Mitsch, W. (2018). Experimental wetlaculture (wetlands + agriculture) mesocosm compound established in Naples, Florida, to restore wetlands, solve harmful algal blooms, and develop sustainable agriculture by William J. mitsch, ph.D. The Society of Wetland Scientists Bulletin, 35(2), 79–80. doi:10.1672/ucrt083-247 | |||
| Phytoremediation of Heavy Metals by Salvinia natans in a Kashmir Himalayan RAMSAR Site by Syed Shakeel Ahmad | 10.1672/UCRT083-246 | 2018 | Ahmad, S. S. (2018). Phytoremediation of heavy metals by Salvinia natans in a Kashmir Himalayan RAMSAR site. Wetland Science & Practice, 35, Page Range. https://doi.org/10.1672/UCRT083-246 | |||
| The Shifting Boundaries of Clean Water Act Jurisdiction by Royal C. Gardner, Erin Okuno | 10.1672/UCRT083-245 | 2018 | Royal Gardner. (2018). The shifting boundaries of Clean Water Act jurisdiction. The Society of Wetland Scientists Bulletin, 35(4), 317–323. doi:10.1672/ucrt083-245 | |||
| Assessing New Developments in IRIS Technology by C. Evan Park, Martin C. Rabenhorst | 10.1672/UCRT083-244 | 2018 | Park, E. (2018). Assessing new developments in IRIS technology. The Society of Wetland Scientists Bulletin, 35(4), 324–327. doi:10.1672/ucrt083-244 | |||
| Wetland Plant Evolutionary History Influences Soil and Endophyte Microbial Community Composition SWS Research Grant – Final Report by Marisa Szubryt | 10.1672/UCRT083-243 | 2018 | Szubryt, M. (2018). Wetland plant evolutionary history influences soil and endophyte microbial community composition. The Society of Wetland Scientists Bulletin, 35(4), 328–334. doi:10.1672/ucrt083-243 | |||
| What the World Needs Now to Fight Climate Change: More Swamps by William Moomaw, Gillian Davies, Max Finlayson | 10.1672/UCRT083-242 | 2018 | Moomaw, W. (2018). What the world needs now to fight climate change: More swamps. The Society of Wetland Scientists Bulletin, 35(4), 335–337. doi:10.1672/ucrt083-242 | |||
| U.S. Clean Water Act Policy vs. Wetland Science - Nexus or Not? by Richard C. Smardon | 10.1672/UCRT083-241 | 2019 | Smardon, R. (2019). U.S. clean water act policy vs. Wetland science - nexus or not? The Society of Wetland Scientists Bulletin, 36(1), 15–22. doi:10.1672/ucrt083-241 | |||
| Less Water in the Face of Climate Change Reduces Erosion Vulnerability of South Africa’s Wetlands by Fred Ellery | 10.1672/UCRT083-240 | 2019 | Ellery, F. (2019). Less water in the face of climate change reduces erosion vulnerability of South Africa’s wetlands. The Society of Wetland Scientists Bulletin, 36(1), 23–28. doi:10.1672/ucrt083-240 | |||
| Desert Wetland Ecosystems: Springs, Seeps and Irrigation by Paul J. DuBowy | 10.1672/UCRT083-239 | 2019 | DuBowy, P. (2019). Desert wetland ecosystems: Springs, seeps and irrigation by Paul J. dubowy. The Society of Wetland Scientists Bulletin, 36(1), 29–32. doi:10.1672/ucrt083-239 | |||
| Using Landscape-Level Wetland Assessment to Aid in Local Management of Wetlands for Lake County, Illinois by Juli E. Crane, Glenn H. Westman, and Michael E. Prusila | 10.1672/UCRT083-238 | 2019 | Crane, J. (2019). Using landscape-level wetland assessment to aid in local management of wetlands for Lake County, Illinois by Juli E. crane, Glenn H. westman, and Michael E. prusila. The Society of Wetland Scientists Bulletin, 36(1), 33–43. doi:10.1672/ucrt083-238 | |||
| Teaching Redox as a Chinese Buffet by Douglas A. Wilcox | 10.1672/UCRT083-237 | 2019 | Wilcox, D. (2019). Teaching Redox as a Chinese Buffet. The Society of Wetland Scientists Bulletin, 36(1), 44–46. doi:10.1672/ucrt083-237 | |||
| Potential Climate Change Impacts on Native Bulrush Seeds (Schoenoplectus spp.) Relative to Invasive Common Reed (Phragmites) – Methods and Preliminary Results and Experience from the Wetland Ambassadors Program by Tatiana Lobato de Magalhães | 10.1672/UCRT083-238 | 2019 | Lobato de Magalhães, T. (2019). Potential climate change impacts on native bulrush seeds (Schoenoplectus spp.) relative to invasive common reed (Phragmites): Methods and preliminary results and experience from the Wetland Ambassadors Program. The Society of Wetland Scientists Bulletin, 36, Page Range. https://doi.org/10.1672/UCRT083-238 | |||
| Inaccurate Cover Classification Leads to Unnecessary Loss of Pennsylvania Palustrine Wetland Forest Structure and Functions by James A. Schmid | 10.1672/UCRT083-237 | 2019 | Perera, E. (2019). Initial surface hydrology characteristics of Icelandic, drained, patchy wetlands. The Society of Wetland Scientists Bulletin, 36(2), 83–90. doi:10.1672/ucrt083-235 | |||
| The Denver Declaration on the Management and Restoration of Wetlands by C.M. Finlayson and others | 10.1672/UCRT083-236 | 2019 | Finlayson, C. M. (2019). The Denver Declaration on the Management and Restoration of wetlands. The Society of Wetland Scientists Bulletin, 36(2), 78–82. doi:10.1672/ucrt083-236 | |||
| SWS Student Grant Research Report - Initial Surface Hydrology Characteristics of Icelandic, Drained, Patchy Wetlands by Elizabeth A. Perera and Kathy L. Young | 10.1672/UCRT083-235 | 2019 | Perera, E. A., & Young, K. L. (2019). SWS student grant research report - Initial surface hydrology characteristics of Icelandic, drained, patchy wetlands. The Society of Wetland Scientists Bulletin, 36, Page Range. https://doi.org/10.1672/UCRT083-235 | |||
| Introduction to Articles on Floating Wetlands by Mason Bowles | 10.1672/UCRT083-234 | 2019 | Bowles, M. (2019). Introduction to articles on floating wetlands. The Society of Wetland Scientists Bulletin, 36(2), 91–91. doi:10.1672/ucrt083-234 | |||
| Reviving Urban Ecosystems with Constructed Floating Wetlands by Mason Bowles | 10.1672/UCRT083-233 | 2019 | Bowles, M. (2019). Reviving urban ecosystems with constructed floating wetlands. The Society of Wetland Scientists Bulletin, 36(2), 92–97. doi:10.1672/ucrt083-233 | |||
| Design Optimization in Floating Treatment Wetlands: An Examination of Key Challenges and Solutions by Josh Clark | 10.1672/UCRT083-232 | 2019 | Clark, J. (2019). Design optimization in Floating Treatment Wetlands: An examination of key challenges and solutions. The Society of Wetland Scientists Bulletin, 36(2), 98–105. doi:10.1672/ucrt083-232 | |||
| Adapting floating wetland design to advance performance in urban waterfronts by Christopher Streb and others | 10.1672/UCRT083-231 | 2019 | Streb, C. (2019). Adapting floating wetland design to advance performance in urban waterfronts. The Society of Wetland Scientists Bulletin, 36(2), 106–113. doi:10.1672/ucrt083-231 | |||
| BioHaven Floating Islands: Modeling and Their Role in Water Resource Recovery by Mark Reinsel | 10.1672/UCRT083-230 | 2019 | Reinsel, M. (2019). BioHaven floating islands: Modeling and their role in water resource recovery. The Society of Wetland Scientists Bulletin, 36(2), 114–118. doi:10.1672/ucrt083-230 | |||
| Potential and Problems of Floating Treatment Wetlands for Mitigating Agricultural Contaminants by Sarah A. White and others | 10.1672/UCRT083-229 | 2019 | White, S. (2019). Potential and problems of floating treatment wetlands for mitigating agricultural contaminants. The Society of Wetland Scientists Bulletin, 36(2), 119–124. doi:10.1672/ucrt083-229 | |||
| Structural Floating Wetlands: Achieving Ecosystem Services in Heavily Modified Waterbodies by Galen Fulford | 10.1672/UCRT083-228 | 2019 | Fulford, G. (2019). Structural floating wetlands: Achieving ecosystem services in heavily modified waterbodies. The Society of Wetland Scientists Bulletin, 36(2), 125–129. doi:10.1672/ucrt083-228 | |||
| Fish Fry Lake: Perspectives from an Inventor on the Application of Created Floating Islands for Water Quality Renovation by Bruce Kania | 10.1672/UCRT083-227 | 2019 | Kania, B. (2019). Fish Fry Lake: Perspectives from an inventor on the application of created floating islands for water quality renovation. The Society of Wetland Scientists Bulletin, 36(2), 131–135. doi:10.1672/ucrt083-227 | |||
| Book Review - Eden Again: Hope in the Marshes of Iraq by Richard C. Smardon | 10.1672/UCRT083-226 | 2019 | Smardon, R. (2019). Eden Again: Hope in the Marshes of Iraq. The Society of Wetland Scientists Bulletin, 36(2), 136–137. doi:10.1672/ucrt083-226 | |||
| Vegetation Sampling Concepts for Compensatory Mitigation Sites by Douglas A. DeBerry | 10.1672/UCRT083-225 | 2020 | DeBerry, D. (2020). Vegetation sampling concepts for compensatory mitigation sites. The Society of Wetland Scientists Bulletin, 37(3), 174–182. doi:10.1672/ucrt083-225 | |||
| Farmers in the Marsh: Lessons from History and Case Studies for the Future by Susan C. Adamowicz and others | 10.1672/UCRT083-224 | 2020 | Adamowicz, S. (2020). Farmers in the marsh: Lessons from history and case studies for the future by Susan C. adamowicz and others. The Society of Wetland Scientists Bulletin, 37(3), 183–195. doi:10.1672/ucrt083-224 | |||
| Landscape Effects on Freshwater Turtle Heavy Metal Bioaccumulation in West Virginia Wetlands by Darien N. Lozon | 10.1672/UCRT083-223 | 2020 | Lozon, D. (2020). Landscape effects on freshwater turtle heavy metal bioaccumulation in West Virginia wetlands. The Society of Wetland Scientists Bulletin, 37(3), 196–199. doi:10.1672/ucrt083-223 | |||
| Clustered Constructed Wetland Systems in Metropolitan Taipei by Wei-Ta Fang, Shang-Shu Shih, Bai-You Cheng, and Jui-Yu Chou | 10.1672/UCRT083-222 | 2020 | Fang, W.-T. (2020). Clustered constructed wetland systems in Metropolitan Taipei by Wei-ta fang, Shang-Shu Shih, Bai-you Cheng, and jui-Yu Chou. The Society of Wetland Scientists Bulletin, 96–107. doi:10.1672/ucrt083-222 | |||
| The Navigable Waters “Protection” Rule by Matt Schweisberg, PWS | 10.1672/UCRT083-221 | 2020 | Schweisberg, M. (2020). The Navigable Waters “Protection” Rule by Matt schweisberg, PWS. The Society of Wetland Scientists Bulletin, 108–111. doi:10.1672/ucrt083-221 | |||
| Howard T. Odum and wetland ecology by Arnold van der Valk | 10.1672/UCRT083-220 | 2020 | van der Valk, A. (2020). Howard T. Odum and wetland ecology. The Society of Wetland Scientists Bulletin, 37(1), 27–32. doi:10.1672/ucrt083-220 | |||
| Formation and Development of Floating Peat Mats in a European Eutrophic Lake: A Case Study by Henning Günther, Rüdiger Knösche | 10.1672/UCRT083-219 | 2020 | Günther, H. (2020). Formation and development of floating peat mats in a European eutrophic lake: A case study. The Society of Wetland Scientists Bulletin, 37(1), 33–46. doi:10.1672/ucrt083-219 | |||
| Teaching Groundwater Hydrology in a Wetland Ecology Class by Douglas A. Wilcox | 10.1672/UCRT083-218 | 2020 | Wilcox, D. (2020). Teaching Groundwater Hydrology in a Wetland Ecology Class. The Society of Wetland Scientists Bulletin, 37(1), 47–54. doi:10.1672/ucrt083-218 | |||
| National Audubon Society’s Corkscrew Swamp Sanctuary: A Wetland of Distinction by Shawn E. Clem and Michael J. Duever | 10.1672/UCRT083-217 | 2019 | Clem, S. (2019). National Audubon Society’s Corkscrew Swamp Sanctuary: A wetland of Distinction. The Society of Wetland Scientists Bulletin, 36(4), 357–361. doi:10.1672/ucrt083-217 | |||
| Hydrologic Changes over 60 Years (1959-2019) in an Old-Growth Bald Cypress Swamp on a Rapidly Developing Landscape by Shawn E. Clem and Michael J. Duever | 10.1672/UCRT083-216 | 2019 | Clem, S. (2019). Hydrologic changes over 60 years (1959-2019) in an old-growth bald cypress swamp on a rapidly developing landscape by Shawn E. clem and Michael J. duever. The Society of Wetland Scientists Bulletin, 36(4), 362–372. doi:10.1672/ucrt083-216 | |||
| Shifting the Paradigm: A Society of Wetland Scientists Rights of Wetlands Initiative | 10.1672/UCRT083-215 | 2021 | Davies, G. (2021). Shifting the paradigm: A Society of Wetland Scientists rights of Wetlands Initiative. The Society of Wetland Scientists Bulletin, 38(2), 89–93. doi:10.1672/ucrt083-215 | |||
| Symposium Abstracts from the Wetland Restoration Section of the SWS | 10.1672/UCRT083-214 | 2021 | Doss, T. (2021). Symposium abstracts from the Wetland Restoration Section of the SWS. The Society of Wetland Scientists Bulletin, 38(2), 86–88. doi:10.1672/ucrt083-214 | |||
| Measuring Connectivity in Floodplains Rivers: Application of FITRAS Function to the Lower Paraná | 10.1672/UCRT083-213 | 2021 | Casco, S. (2021). Measuring connectivity in floodplains rivers: Application of FITRAS function to the lower Paraná. The Society of Wetland Scientists Bulletin, 38(2), 94–106. doi:10.1672/ucrt083-213 | |||
| Lessons to be Learned from the Wildfire Catastrophe of 2020 in the Pantanal Wetland | 10.1672/UCRT083-212 | 2021 | Damasceno-Junior, G. (2021). Lessons to be Learned from the Wildfire Catastrophe of 2020 in the Pantanal Wetland. The Society of Wetland Scientists Bulletin, 38(2), 107–115. doi:10.1672/ucrt083-212 | |||
| Universal Rights of Wetlands: Further Perspectives on Shifting the Paradigm to Restore the Human-Wetland Relationship through a Universal Declaration of the Rights of Wetlands by M. S. Fennessy and others | 10.1672/UCRT083-211 | 2021 | Fennessy, S. (2021). Further perspectives on shifting the paradigm to restore the human-wetland relationship through a universal declaration of the rights of wetlands. The Society of Wetland Scientists Bulletin, 38(1), 10–18. doi:10.1672/ucrt083-211 | |||
| Wetlands of Distinction: Pennsylvania’s Quakertown Swamp by R. Messaros | 10.1672/UCRT083-210 | 2021 | Messaros, R. (2021). Pennsylvania’s Quakertown Swamp. The Society of Wetland Scientists Bulletin, 38(1), 19–20. doi:10.1672/ucrt083-210 | |||
| Reflections from Indian Scientist Dr. Nepal Chandra Nandi - Interview by P. Sarkar | 10.1672/UCRT083-209 | 2021 | Karkar, P. (2021). Reflections from Indian scientist Dr. Nepal Chandra Nandi. The Society of Wetland Scientists Bulletin, 38(1), 21–23. doi:10.1672/ucrt083-209 | |||
| Applied Wetland Science Has a Plastics Problem by K. Harrelson | 10.1672/UCRT083-208 | 2021 | Harrelson, K. (2021). Applied wetland science has a plastics problem. The Society of Wetland Scientists Bulletin, 38(1), 24–25. doi:10.1672/ucrt083-208 | |||
| Wetland Science in Latin America and the Caribbean Region: Insights into the Andean States by K.S. Navarro and others | 10.1672/UCRT083-207 | 2020 | Navarro, K. (2020). Wetland science in Latin America and the Caribbean region: Insights into the Andean States. The Society of Wetland Scientists Bulletin, 37(4), 232–240. doi:10.1672/ucrt083-207 | |||
| Wetlands of the Coast of Lima: Patterns of Plant Diversity and Challenges for their Conservation by H. Aponte | 10.1672/UCRT083-206 | 2020 | Aponte, H. (2020). Wetlands of the coast of Lima: Patterns of plant diversity and challenges for their conservation. The Society of Wetland Scientists Bulletin, 37(4), 241–245. doi:10.1672/ucrt083-206 | |||
| Andes, Bofedales, and the Communities of Huascarán National Park, Peru by R.A. Chimner and others | 10.1672/UCRT083-205 | 2020 | Chimner, R. (2020). Andes, bofedales, and the communities of Huascarán National Park, Peru. The Society of Wetland Scientists Bulletin, 37(4), 246–254. doi:10.1672/ucrt083-205 | |||
| Peatlands of the Central Andes Puna, South America by E. Oyague and D.J. Cooper | 10.1672/UCRT083-204 | 2020 | Oyague, E. (2020). Peatlands of the central Andes Puna, south America. The Society of Wetland Scientists Bulletin, 37(4), 255–260. doi:10.1672/ucrt083-204 | |||
| What is the Flora of the Pantanal Wetland? by A. Pott and V.J. Pott | 10.1672/UCRT083-203 | 2020 | Pott, A. (2020). What is the flora of the Pantanal wetland? The Society of Wetland Scientists Bulletin, 37(4), 261–266. doi:10.1672/ucrt083-203 | |||
| Connectivity of River Floodplains – the Case of Ibera Wetlands after 10,000 Years of Isolation from Parana River by J.J. Neiff and others | 10.1672/UCRT083-202 | 2023 | Messaros, R. (2023). Great Meadows National Wildlife Refuge, Massachusetts, USA: A wetland of distinction. The Society of Wetland Scientists Bulletin, 41(1). doi:10.1672/ucrt083-202 | |||
| Urban Wetland Trends in Three Latin American Cities during the Latest Decades (2002-2019): Concón (Chile), Barranquilla (Colombia), and Lima (Peru) by C. Rojas and others | 10.1672/UCRT083-201 | 2023 | van der Valk, A. (2023). Beginnings of wetland science in Britain: Agnes Arber and William H. pearsall. The Society of Wetland Scientists Bulletin, 41(1). doi:10.1672/ucrt083-201 | |||
| Wetland Conservation Concerns in Southern Mexico by T. Lobato de-Magalhães, Ph.D., PWS, and others | 10.1672/UCRT083-200 | 2023 | D. Sullivan, R., Kissoon, L. T., Jacob, D., Hanson, M., Fischbach, E., & Otte, M. (2014). Variations in shoreline vegetation and turbidity of shallow lakes. The Society of Wetland Scientists Bulletin, 31(1). doi:10.1672/ucrt083-200 | |||
| Propagation of Endangered Aquatic Plants: An Experience that Promotes ex situ Conservation and Environmental Education by S.N. González Mateos | 10.1672/UCRT083-199 | 2020 | González Mateos, S. (2020). Propagation of Endangered Aquatic Plants: An Experience that Promotes ex situ Conservation and Environmental Education. The Society of Wetland Scientists Bulletin, 37(4), 302–307. doi:10.1672/ucrt083-199 | |||
| Wetlands and Climate Change: Climate Change is Threatening Mangroves by Swapan Paul and Max Finlayson | 10.1672/UCRT083-198 | 2021 | Paul, S. (2021). Climate Change is Threatening Mangroves. The Society of Wetland Scientists Bulletin, 38(4), 257–258. doi:10.1672/ucrt083-198 | |||
| Wetlands of Distinction: Crowberry Bog (Olympic Peninsula, USA) by Steffanie Munguía | 10.1672/UCRT083-197 | 2021 | Munguía, S. (2021). Crowberry Bog (Olympic Peninsula, USA). The Society of Wetland Scientists Bulletin, 38(4), 259–261. doi:10.1672/ucrt083-197 | |||
| An Updated Citizen Science State of the World's Wetlands Survey | 10.1672/UCRT083-196 | 2020 | Simpson, M. (2020). An updated citizen science state of the world’s wetlands survey. The Society of Wetland Scientists Bulletin, 38(3), 141–149. doi:10.1672/ucrt083-196 | |||
| Wetlands of Distinction: Paul S. Sarbanes Ecosystem Restoration Project at Poplar Island | 10.1672/UCRT083-195 | 2020 | Morgante, B. (2020). Paul S. sarbanes ecosystem restoration project at Poplar Island: Wetland of Distinction. The Society of Wetland Scientists Bulletin, 38(3), 150–154. doi:10.1672/ucrt083-195 | |||
| Lake Orhid and Studenchishte Marsh now a Ramsar Wetland! | 10.1672/UCRT083-194 | 2020 | Apostolova, N. (2020). Lake Orhid and Studenchishte Marsh now a Ramsar Wetland! The Society of Wetland Scientists Bulletin, 38(3), 155–156. doi:10.1672/ucrt083-194 | |||
| Men of the Marshes: Paul L. Errington and H. Albert Hochbaum | 10.1672/UCRT083-50 | 2023 | van der Valk, A. (2023). Men of the marshes: Paul L. errington and H. albert Hochbaum. The Society of Wetland Scientists Bulletin, 41(2), 43–50. doi:10.1672/ucrt083-50 | |||
| Species Richness of Cypress Dome Vegetation in West-Central Florida, USA | 10.1672/UCRT083-51 | 2023 | Cameron1, C. (2023). Species richness of cypress dome vegetation in west-central Florida, USA. The Society of Wetland Scientists Bulletin, 41(2), 51–56. doi:10.1672/ucrt083-51 | |||
| Wild Rice Lakes in Comparison to Mapped Surficial Sands in Minnesota | 10.1672/UCRT083-52 | 2023 | Swenson, M. (2023). Wild Rice lakes in comparison to mapped surficial sands in Minnesota. The Society of Wetland Scientists Bulletin, 41(2), 57–61. doi:10.1672/ucrt083-52 | |||
| Restoring a First Order Stream and Adjacent Riparian Wetlands In West Virginia: Integrating Lessons from Science and Practice | 10.1672/UCRT083-53 | 2023 | MacKenzie, A. (2023). Restoring a first order stream and adjacent riparian wetlands in West Virginia: Integrating lessons from science and practice. The Society of Wetland Scientists Bulletin, 41(2), 60–68. doi:10.1672/ucrt083-53 | |||
| When is Aquatic Resource Type Conversion Appropriate: A Framework for Cleaning Sand out of the Gears and a Case Study for McInnis Marsh | 10.1672/UCRT083-54 | 2023 | Siu, J. (2023). When is aquatic resource type conversion appropriate: A framework for cleaning sand out of the gears and a case study for McInnis marsh. The Society of Wetland Scientists Bulletin, 41(2). doi:10.1672/ucrt083-54 | |||
| Beginnings of Wetland Science in Britain: Agnes Arber and William H. Pearsall | 10.1672/UCRT083-55 | 2023 | van der Valk, A. (2023). Beginnings of wetland science in Britain: Agnes Arber and William H. pearsall. The Society of Wetland Scientists Bulletin, 41(1), 10–18. doi:10.1672/ucrt083-55 | |||
| Great Meadows National Wildlife Refuge, Massachusetts, USA: A Wetland of Distinction | 10.1672/UCRT083-56 | 2023 | Messaros, R. (2023). Great Meadows national wildlife refuge, Massachusetts, USA: A wetland of distinction. The Society of Wetland Scientists Bulletin, 41(1), 19–20. doi:10.1672/ucrt083-56 | |||
| From Wasteland to Tourist Attraction: The Creation of Everglades National Park | 10.1672/UCRT083-57 | 2022 | van der Valk, A. (2022). From wasteland to tourist attraction: The creation of Everglades National Park. The Society of Wetland Scientists Bulletin, 40(4). doi:10.1672/ucrt083-57 | |||
| Importance of Vegetation for Identifying Wetlands in the Lower Mainland Fraser Valley region of British Columbia, Canada using Prevalence Index, Hydrophytic Cover Index, and Dominance Ratio | 10.1672/UCRT083-58 | 2022 | Standish, J. (2022). Importance of vegetation for identifying wetlands in the Lower Mainland Fraser Valley region of British Columbia, Canada using prevalence index, hydrophytic cover index, and dominance ratio. The Society of Wetland Scientists Bulletin, 40(4), 302–308. doi:10.1672/ucrt083-58 | |||
| The Long Slog Through the Virtual Swamp: Making a Wetland Podcast in Spanish | 10.1672/UCRT083-59 | 2022 | Cejudo, E. (2022). The long slog through the virtual swamp: Making a wetland podcast in Spanish. The Society of Wetland Scientists Bulletin, 40(4), 309–310. doi:10.1672/ucrt083-59 | |||
| Exploring Methods for Sharing Wetland Knowledge and Identifying Future Needs and Solutions | 10.1672/UCRT083-60 | 2022 | Paul, S. (2022). Exploring methods for Sharing Wetland Knowledge and identifying future needs and Solutions. The Society of Wetland Scientists Bulletin, 40(2), 135–143. doi:10.1672/ucrt083-60 | |||
| Naturalistic Control: W. T. Penfound, T. F. Hall, and A. D. Hess and Malaria Control in Tennessee Valley Authority Reservoirs | 10.1672/UCRT083-61 | 2022 | G. van der Valk, A. (2022). Naturalistic control: W. t. penfound, T. f. hall, and A. d. hess and malaria control in Tennessee Valley Authority reservoirs. The Society of Wetland Scientists Bulletin, 40(2), 128–134. doi:10.1672/ucrt083-61 | |||
| New Initiatives Improve Wetland Restoration Outcomes: Engineering with Nature and the Use of Natural and Nature-Based Features | 10.1672/UCRT083-62 | 2022 | F. Berkowitz, J. (2022). New initiatives improve wetland restoration outcomes: Engineering with nature and the use of natural and nature-Based Features. The Society of Wetland Scientists Bulletin, 40(2), 144–148. doi:10.1672/ucrt083-62 | |||
| Restoring Tidal Flow to a New England Salt Marsh | 10.1672/UCRT083-63 | 2022 | W. Tiner, R. (2022). Restoring tidal flow to a New England salt marsh. The Society of Wetland Scientists Bulletin, 40(2), 149–156. doi:10.1672/ucrt083-63 | |||
| Volo Bog State Natural Area (Ingleside, Illinois, United States) – Exemplar of Bog Succession | 10.1672/UCRT083-64 | 2022 | Nieset, J. (2022). Volo Bog State Natural Area (Ingleside, Illinois, United States) – exemplar of bog succession. The Society of Wetland Scientists Bulletin, 40(2), 157–162. doi:10.1672/ucrt083-64 | |||
| The World’s Most Troublesome Weed: Water Hyacinth and the Development of Wetland Science | 10.1672/UCRT083-602 | 2024 | van der Valk, A. (2024). The world’s most troublesome weed: Water hyacinth and the development of wetland science. Wetland Science and Practice, 42(2). https://doi.org/10.1672/UCRT083-602 | |||
| Rights of Nature in Wetlands – Transformative Change for Securing the Future of Wetlands Through Effective Restoration, Davies, et. al. | 10.1672/UCRT083-603 | 2024 | Davies, G., Finlayson, M., Simpson, M., Moomaw, W., & Fennessy, S. (2024). Rights of nature in wetlands – Transformative change for securing the future of wetlands through effective restoration. Wetland Science and Practice, 42(2). https://doi.org/10.1672/UCRT083-603 | |||
| Bunchgrass Meadows — Among Our Wetlands of Distinction | 10.1672/UCRT083-604 | 2024 | MacLaren, C. (2024). Bunchgrass meadows — Among our wetlands of distinction. Wetland Science and Practice, 42(2). https://doi.org/10.1672/UCRT083-604 | |||
| Some Observations from a Summer Trip to Alaska | 10.1672/UCRT083-605 | 2024 | Tiner, R. (2024). Some observations from a summer trip to Alaska. Wetland Science and Practice, 42(2). https://doi.org/10.1672/UCRT083-605 | |||
| Conserving Caribbean Mangroves with Blue Carbon | 10.1672/UCRT083-606 | 2024 | Munguía, S., & Bhat, M. (42(1)). Conserving Caribbean Mangroves with Blue Carbon. Wetland Science and Practice. https://doi.org/10.1672/UCRT083-606 | 10.1672/UCRT083-606 | ||
| How Will Sea Level Rise Affect Coastal Wetlands on the Atlantic Coast of Mexico: Impacts and Species Responses? | 10.1672/UCRT083-607 | 2024 | Knowles, M., Grabowski, K. L., Altieri, A. H., & Araújo, R. J. (42(1)). The Ecological Impacts of Mangrove Patch Perimeter on Fringe Prop Root-Dependent Communities. Wetland Science and Practice. https://doi.org/10.1672/UCRT083-607 | 10.1672/UCRT083-607 | ||
| The Ecological Impacts of Mangrove Patch Perimeter on Fringe Prop Root-Dependent Communities | 10.1672/UCRT083-608 | 2024 | Sánchez-García, E. A., Moreno-Casasola, P., & Monroy Ibarra, R. (42(1)). How Will Sea Level Rise Affect Coastal Wetlands on the Atlantic Coast of Mexico: Impacts and Species Responses?. Wetland Science and Practice. https://doi.org/10.1672/UCRT083-609 | 10.1672/UCRT083-609 | ||
| How Will Sea Level Rise Affect Coastal Wetlands on the Atlantic Coast of Mexico: Impacts and Species Responses? | 10.1672/UCRT083-609 | 2024 | Casares González, M., Castillo Burguete, M. T., Chavez-Rodriguez, L., & Munguía-Rosas, M. A. (42(1)). “If the Mangroves Disappear, So Will San Crisanto — That’s How Big the Risk Is”: Wetlands of a Coastal Lagoon Ecosystem and Local Adaptation to Climate Change. Wetland Science and Practice. https://doi.org/10.1672/UCRT083-610 | 10.1672/UCRT083-610 | ||
| “If the mangroves disappear, so will San Crisanto — that’s how big the risk is”: Wetlands of a Coastal Lagoon Ecosystem and Local Adaptation to Climate Change | 10.1672/UCRT083-610 | 2024 | Moreno-Casasola, P., López Rosas, H., Peralta, L. A., Vázquez-González, C., & Monroy, R. (42(1)). Socio-Environmental Value of Coastal Urban Wetlands in Veracruz, Mexico. Wetland Science and Practice. https://doi.org/10.1672/UCRT083-611 | 10.1672/UCRT083-611 | ||
| Socio-environmental Value of Coastal Urban Wetlands in Veracruz, Mexico | 10.1672/UCRT083-611 | 2024 | Carpinteiro-Díaz, A., Romero, E., & Moreno-Casasola, P. (42(1)). Preserving La Mancha’s Wetland Avian Heritage with a Community-Driven Bird Monitoring Initiative. Wetland Science and Practice. https://doi.org/10.1672/UCRT083-612 | 10.1672/UCRT083-612 | ||
| Preserving La Mancha’s Wetland Avian Heritage with a Community-Driven Bird Monitoring Initiative | 10.1672/UCRT083-612 | 2024 | Díaz-Mesa, M., Aguirre-Ramírez, N., Vélez-Macías, F., & Hernández-Atilano, E. (42(1)). Physical-Biotic Structure in an Aquatic-Terrestrial Convergence Area in the San Francisco Marsh of the Ayapel Swamp System, Córdoba, Colombia. Wetland Science and Practice. https://doi.org/10.1672/UCRT083-613 | 10.1672/UCRT083-613 | ||
| Physical-Biotic Structure in an AquaticTerrestrial Convergence Area in the San Francisco Marsh of the Ayapel Swamp System, Córdoba, Colombia | 10.1672/UCRT083-613 | 2024 | Cejudo, E., Ortiz Aguilar, W., Zapotecas-Tetla, P., & Ortega Camacho, D. (42(1)). Sabana Wetlands in Quintana Roo, Mexico: What We Know and What We Don’t. Wetland Science and Practice. https://doi.org/10.1672/UCRT083-614 | 10.1672/UCRT083-614 | ||
| Sabana Wetlands in Quintana Roo, Mexico: What We Know and What We Don’t | 10.1672/UCRT083-614 | 2024 | Marrero, C., Rodríguez-Olarte, D., Canelón, D., Antonucci, F., & Niño, M. (42(1)). Tropical Wooded Peatland in Delta Amacuro State, Venezuela. Wetland Science and Practice. https://doi.org/10.1672/UCRT083-615 | 10.1672/UCRT083-615 | ||
| Tropical Wooded Peatland in Delta Amacuro State, Venezuela | 10.1672/UCRT083-615 | 2024 | Martínez-Amigo, V., & Jaramillo, R. (42(1)). Cushion Plants from the Andes — an Overview of Current Knowledge and Some Research Needs. Wetland Science and Practice. https://doi.org/10.1672/UCRT083-616 | 10.1672/UCRT083-616 | ||
| Cushion Plants from the Andes — an Overview of Current Knowledge and Some Research Needs | 10.1672/UCRT083-616 | 2024 | Silva, A. C., & Tassinari, D. (42(1)). Tropical Mountain Peatlands from Southern Espinhaço Range, Brazil: Ecosystem Services, Biodiversity, and Paleoenvironmental Reconstruction. Wetland Science and Practice. https://doi.org/10.1672/UCRT083-617 | 10.1672/UCRT083-617 | ||
| Tropical Mountain Peatlands from Southern Espinhaço Range, Brazil: Ecosystem Services, Biodiversity and Paleoenvironmental Reconstruction | 10.1672/UCRT083-617 | 2024 | Lobato-de Magalhães, T., Barba, E., & Infante Mata, D. (42(1)). Cost-Effective Wetland Risk Assessment for Ramsar Site Management in Southern Mexico. Wetland Science and Practice. https://doi.org/10.1672/UCRT083-618 | 10.1672/UCRT083-618 | ||
| Cost-Effective Wetland Risk Assessment for Ramsar Site Management in Southern Mexico | 10.1672/UCRT083-618 | 2024 | Reuben, S., Rosales, J., & Hamer, S. (42(1)). Using Pistia stratiotes to Phytoremediate Oil and Grease from Greywater in Georgetown, Guyana. Wetland Science and Practice. https://doi.org/10.1672/UCRT083-619 | 10.1672/UCRT083-619 | ||
| Using Pistia stratiotes to Phytoremediate Oil and Grease from Greywater in Georgetown, Guyana | 10.1672/UCRT083-619 | 2024 | Noriega-Rico, E., Rico, Y., & Lobato-de Magalhães, T. (42(1)). Functional Connectivity of the California Bulrush (Schoenoplectus californicus) in Central-Western Wetlands in Mexico. Wetland Science and Practice. https://doi.org/10.1672/UCRT083-620 | 10.1672/UCRT083-620 | ||
| Functional Connectivity of the California Bulrush (Schoenoplectus californicus) in Central-Western Wetlands in Mexico | 10.1672/UCRT083-620 | 2024 | Herrera Gallegos, J. (42(1)). Wetlands on the Paintbrush: A Self-Profile of José Herrera Gallegos and Selected Art. Wetland Science and Practice. https://doi.org/10.1672/UCRT083-620 | 10.1672/UCRT083-620 | ||
| Wetlands on the Paintbrush: Self Portrait | 10.1672/UCRT083-621 | 2024 | Loisel, J., Peters, J., Tegetmeyer, C., Girkin, N., Parsekian, A., & Rivera Wong, J. (42(1)). Observations from an Expedition to Costa Rican Peatlands. Wetland Science and Practice. https://doi.org/10.1672/UCRT083-622 | 10.1672/UCRT083-622 |
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