Gittman Rachel K, Baillie Christopher J, Arkema Katie K, Bennett Richard O, Benoit Jeff, Blitch Seth, Brun Julien, Chatwin Anthony, Colden Allison, Dausman Alyssa, DeAngelis Bryan, Herold Nathaniel, Henkel Jessica, Houge Rachel, Howard Ronald, Hughes A Randall, Scyphers Steven B, Shostik Tisa, Sutton-Grier Ariana, Grabowski Jonathan H
Department of Biology and Coastal Studies Institute, East Carolina University, Greenville, NC, United States.
Natural Capital Project, Woods Institute for the Environment, Stanford University Stanford, CA, United States.
Front Mar Sci. 2019 Aug 28;6:511. doi: 10.3389/fmars.2019.00511.
Coastal ecosystems are under pressure from a vast array of anthropogenic stressors, including development and climate change, resulting in significant habitat losses globally Conservation policies are often implemented with the intent of reducing habitat loss. However, losses already incurred will require restoration if ecosystem functions and services are to be recovered. The United States has a long history of wetland loss and recognizes that averting loss requires a multi-pronged approach including mitigation for regulated activities and non-mitigation (voluntary herein) restoration. The 1989 "No Net Loss" (NNL) policy stated the Federal government's intent that losses of wetlands would be offset by at least as many gains of wetlands. However, coastal wetlands losses result from both regulated and non-regulated activities. We examined the effectiveness of Federally funded, voluntary restoration efforts in helping avert losses of coastal wetlands by assessing: (1) What are the current and past trends in coastal wetland change in the U.S.?; and (2) How much and where are voluntary restoration efforts occurring? First, we calculated palustrine and estuarine wetland change in U.S. coastal shoreline counties using data from NOAA's Coastal Change Analysis Program, which integrates both types of potential losses and gains. We then synthesized available data on Federally funded, voluntary restoration of coastal wetlands. We found that from 1996 to 2010, the U.S. lost 139,552 acres (565 km) of estuarine wetlands (2.5% of 1996 area) and 336,922 acres (1,363 km) of palustrine wetlands (1.4%). From 2006 to 2015, restoration of 145,442 acres (589 km) of estuarine wetlands and 154,772 acres (626 km) of palustrine wetlands occurred. Further, wetland losses and restoration were not always geographically aligned, resulting in local and regional "winners" and "losers." While these restoration efforts have been considerable, restoration and mitigation collectively have not been able to keep pace with wetland losses; thus, reversing this trend will likely require greater investment in coastal habitat conservation and restoration efforts. We further conclude that "area restored," the most prevalent metric used to assess progress, is inadequate, as it does not necessarily equate to restoration of functions. Assessing the effectiveness of wetland restoration not just in the U.S., but globally, will require allocation of sufficient funding for long-term monitoring of restored wetland functions, as well as implementation of standardized methods for monitoring data collection, synthesis, interpretation, and application.
沿海生态系统面临着大量人为压力源的影响,包括开发活动和气候变化,导致全球范围内栖息地大量丧失。保护政策的实施通常旨在减少栖息地丧失。然而,如果要恢复生态系统功能和服务,已经发生的损失将需要进行恢复。美国湿地丧失的历史由来已久,并且认识到避免湿地丧失需要采取多管齐下的方法,包括对受监管活动进行缓解以及非缓解(此处指自愿性)恢复。1989年的“零净损失”(NNL)政策表明联邦政府的意图是湿地损失至少要被同等数量的湿地增加所抵消。然而,沿海湿地的丧失是由受监管和不受监管的活动共同导致的。我们通过评估以下内容来研究联邦政府资助的自愿性恢复工作在帮助避免沿海湿地丧失方面的有效性:(1)美国沿海湿地变化的当前和过去趋势是怎样的?;(2)自愿性恢复工作的规模和地点如何?首先,我们利用美国国家海洋和大气管理局(NOAA)的海岸变化分析计划的数据,计算了美国沿海岸线各县的淡水湿地和河口湿地变化情况,该计划整合了这两种潜在的损失和增加情况。然后,我们综合了关于联邦政府资助的沿海湿地自愿性恢复的现有数据。我们发现,从1996年到2010年,美国丧失了139,552英亩(约565平方千米)的河口湿地(占1996年面积的2.5%)和336,922英亩(约1,363平方千米)的淡水湿地(占1.4%)。从2006年到2015年,有145,442英亩(约589平方千米)的河口湿地和154,772英亩(约626平方千米)的淡水湿地得到了恢复。此外,湿地丧失和恢复在地理上并不总是一致的,导致了局部和区域的“赢家”和“输家”。虽然这些恢复工作规模可观,但恢复措施和缓解措施总体上仍无法跟上湿地丧失的速度;因此,扭转这一趋势可能需要对沿海栖息地保护和恢复工作进行更大规模的投资。我们进一步得出结论,“恢复面积”作为评估进展的最普遍指标是不够的,因为它不一定等同于功能的恢复。评估湿地恢复的有效性不仅在美国,而且在全球范围内,都需要为长期监测恢复后的湿地功能分配足够的资金,以及实施用于监测数据收集、综合、解释和应用的标准化方法。
