权益分类	功能权益	普通用户	{{item.name}}会员
{{category.name}}	{{benefitItem.name}}

Coastal SEES Collaborative Research: Salinization of the Coastal Plain through Saltwater Intrusion - Landscapes in Transition along the Leading Edge of Climate Change

沿海 SEES 合作研究：盐水入侵导致沿海平原盐碱化 - 气候变化前沿的景观转型

基本信息

批准号：
1426802
负责人：
Emily Bernhardt
金额：
$ 42.75万
依托单位：
Duke University
依托单位国家：
美国
项目类别：
Standard Grant
财政年份：
2015
资助国家：
美国
起止时间：
2015-01-01 至 2020-09-30
项目状态：
已结题

来源：
https://www.nsf.gov/awardsearch/showAward?AWD_ID=1426802&HistoricalAwards=false
关键词：
Coastal SEES Collaborative Research Salinization

项目摘要

Ocean waters are infiltrating and influencing freshwater-dependent coastal landscapes due to a combination of human and natural factors. By the end of this century, lower-lying parts of the outer edge of the Southern U.S. coastal plain will be largely inundated by saltwater due to gradual sea level rise. The salinization of surface waters and adjacent lands may lead to significant reductions in crop and timber yields in managed ecosystems, significant declines in ecosystem carbon sequestration in unmanaged ecosystems, and degradation of coastal water quality due to extraction of soil nutrients by seasalts. This project will enhance understanding of the coupled human and natural processes influencing salinization of surface waters and adjacent lands. Investigators will build and engage a coalition of expert stakeholders, including members of state and local governments, regional planning groups, landowners and advocacy organizations. Partnerships with stakeholders will help investigators define the current status of coastal ecosystems, identify critical knowledge gaps, share new research findings, and develop and explore future land use and climate scenarios. This project will yield outcomes with predictive value in coastal systems that are easily understood by stakeholders while representing complex interactions between climate, hydrology, land use, and ecological processes and identify pathways by which outcomes could be used to enhance coastal sustainability. Together, these activities will help guide sustainable management of this region and similarly affected regions over the next several decades to centuries. Additional broader impacts include training four Ph.D. students in interdisciplinary research that spans natural and social sciences, engaging undergraduate students in mentored research experiences, and broadening participation of underrepresented groups in the sciences by supporting early career investigators and working to recruit students from underrepresented groups. This project is supported as part of the National Science Foundation's Coastal Science, Engineering, and Education for Sustainability program - Coastal SEES.This project focuses on saltwater intrusion, the landward movement of salinity from the coast onto the coastal plain. A team of investigators representing four disciplines (hydrology, biogeochemistry, community ecology, regional planning) will integrate social, hydrological, climate and ecological data into model scenarios to examine not only how human decisions affect ecosystems but also how information about those ecological impacts in turn affect human decisions. This project will facilitate development, validation and refinement of a saltwater intrusion vulnerability index (SIVI) for the Albemarle-Pamlico peninsula of North Carolina that accounts for physical environmental processes influencing the movement of water and solutes across the landscape as well as the extensive networks of canals, ditches, roads and pump stations that fundamentally alter the flow of water across the region. The index will be used, along with extensive and repeated ground-based surveys of surface water, soil and vegetation conditions across a range of vulnerable landscapes within the region, to better understand ecological impacts of saltwater intrusion. Through workshops and surveys for landowners, managers and other stakeholders in the region, the project will reveal the likely impact of land-use decisions on saltwater intrusion under scenarios of climate change.

由于人为因素和自然因素的共同作用，海洋沃茨正在渗透并影响依赖淡水的沿海景观。到本世纪末，由于海平面逐渐上升，美国南部沿海平原外缘的低洼地区将大部分被盐水淹没。地表沃茨和邻近土地的盐碱化可能导致受管理的生态系统中的作物和木材产量大幅减少，未受管理的生态系统中的生态系统碳固存大幅下降，以及由于海盐抽取土壤养分而导致沿海水质退化。这一项目将增进对影响地表沃茨和邻近土地盐碱化的人类和自然过程的相互作用的了解。调查人员将建立和参与一个专家利益相关者联盟，包括州和地方政府、区域规划团体、土地所有者和宣传组织的成员。与利益相关者的伙伴关系将帮助调查人员确定沿海生态系统的现状，确定关键的知识差距，分享新的研究成果，并开发和探索未来的土地利用和气候情景。该项目将产生对沿海系统具有预测价值的成果，这些成果易于被利益攸关方理解，同时代表气候、水文、土地利用和生态过程之间的复杂相互作用，并确定成果可用于增强沿海可持续性的途径。这些活动将有助于指导该区域和类似受影响区域在今后几十年至几百年的可持续管理。其他更广泛的影响包括培训四名博士。学生在跨学科的研究，跨越自然科学和社会科学，从事本科生的指导研究经验，并扩大参与的代表性不足的群体在科学通过支持早期职业调查和努力招募学生从代表性不足的群体。该项目是美国国家科学基金会的海岸科学、工程和可持续发展教育项目--海岸SEES的一部分。该项目的重点是盐水入侵，即盐度从海岸向陆地移动到沿海平原。代表四个学科（水文学，地球化学，社区生态学，区域规划）的调查人员团队将把社会，水文，气候和生态数据整合到模型情景中，不仅研究人类决策如何影响生态系统，而且研究有关这些生态影响的信息如何反过来影响人类决策。该项目将促进制定、验证和完善北卡罗来纳州Albemarle-Pamlico半岛的盐水入侵脆弱性指数，该指数说明了影响水和溶质在整个景观以及从根本上改变整个区域水流的广泛的运河、沟渠、道路和泵站网络中流动的物理环境过程。将使用该指数，沿着对该区域一系列脆弱地貌的地表水、土壤和植被状况进行广泛和反复的地面调查，以更好地了解盐水入侵的生态影响。通过为该区域的土地所有者、管理人员和其他利益攸关方举办讲习班和进行调查，该项目将揭示土地使用决定在气候变化情景下对盐水入侵可能产生的影响。