Collaborative Research: Network Cluster: The Coastal Critical Zone: Processes that transform landscapes and fluxes between land and sea

合作研究：网络集群：沿海关键区：改变陆地和海洋之间景观和通量的过程

• 批准号: 2012322
• 负责人: Sergio Fagherazzi
• 金额: $ 26.07万
• 依托单位: Trustees of Boston University
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2020
• 资助国家: 美国
• 起止时间: 2020-09-01 至 2025-08-31
• 项目状态: 未结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2012322&HistoricalAwards=false
• 关键词: Collaborative; Research; Network; Cluster; Coastal

Coastal marshes are essential environments that preserve a fragile and highly valuable ecosystem. They are an integral part of the Critical Zone that regulates the conditions at the Earth’s surface and helps sustain life. Coastal marshes provide crucial services such as carbon storage and removal of nutrients and contaminants that would otherwise make their way to the ocean. Rising sea level is expanding these environments, but salt-water is also moving in, destroying woodlands, and damaging farm fields. Ghost forests and salt-damaged farm fields are stark indicators of these ecological changes along world coastlines that can adversely affect land use and economies. Less apparent, and perhaps even more important, are the concurrent changes in water and chemical cycling that are altering the functioning of the coastal Critical Zone. This research project will quantify the processes that occur in the changing coastal Critical Zone and associated alterations in cycling, fluxes, and storage of elements at the land-sea margin. The project will address important questions about how sea-level rise may alter the natural “plumbing” that occurs at the land-sea boundary and its implications with respect to coastal ecosystems. The results will assist decision-makers and stakeholders in planning for future environmental changes. This project will quantify the coupled processes and feedbacks that govern the hydrological, ecological, geomorphological, and biogeochemical transformations in the coastal Critical Zone and how rising sea level will translate to changes in cycling, fluxes, and storage of elements at the land-sea margin. Sea-level rise pushes salt and inundation fronts inland via storms and tides (fast processes) while gradually elevating the water table (slow processes). The complexity of the system, with its strong hydrologic transience (e.g. tides, storms), tightly coupled ecosystem and biogeochemical mosaics, and human influences, make functioning and response at the marsh-upland transition difficult to characterize and predict. The governing hypotheses of this project address (1) the major fast and slow hydrological drivers of coastal Critical-Zone transition, (2) the landscape feedbacks in which ecological change drives geomorphological evolution that feeds back into hydrological and biogeochemical processes, and (3) biogeochemical feedbacks in which salinization and redox shifts alter cycling, mobility, and sequestration of nutrients and carbon. These processes differ between areas where the marsh abuts forested uplands versus agricultural land. The hypotheses will be addressed through interdisciplinary field observations, experiments, and modeling that are fully integrated across three locations along the mid-Atlantic coast with paired marsh-forest and marsh-agriculture sites. The forested and agricultural sites at each location represent major differences in hydrology, geochemistry, and ecology, and are expected to respond differently to rising sea level. This project addresses pressing needs to determine how landscapes in the coastal Critical Zone may respond to sea-level rise and how Critical-Zone research can be applied to developing policies and actions to mitigate the effects.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

沿海沼泽地是保护脆弱和极有价值的生态系统的重要环境。它们是调节地球表面条件并帮助维持生命的临界区的组成部分。沿海沼泽地提供了重要的服务，如碳储存和去除营养物质和污染物，否则它们会进入海洋。 海平面的上升正在扩大这些环境，但盐水也在移动，破坏林地，破坏农田。鬼森林和被盐破坏的农田是沿着世界海岸线这些生态变化的明显标志，这些变化可能对土地使用和经济产生不利影响。不太明显，但也许更重要的是，水和化学循环的同时变化正在改变沿海临界区的功能。该研究项目将量化发生在不断变化的沿海临界区的过程，以及在陆地-海洋边缘的元素循环，通量和储存的相关变化。该项目将探讨海平面上升如何改变陆地-海洋边界的自然“垂直”及其对沿海生态系统的影响等重要问题。研究结果将有助于决策者和利益攸关方规划未来的环境变化。 该项目将量化控制沿海关键区水文、生态、地貌和地球化学变化的耦合过程和反馈，以及海平面上升如何转化为陆海边缘元素循环、通量和储存的变化。海平面上升通过风暴和潮汐（快速过程）将盐和洪水推向内陆，同时逐渐升高地下水位（缓慢过程）。该系统的复杂性，其强大的水文瞬变（如潮汐，风暴），紧密耦合的生态系统和生物地球化学马赛克，以及人类的影响，使沼泽高地过渡的功能和响应难以描述和预测。本项目的主要假设涉及：（1）沿海临界区过渡的主要快速和缓慢水文驱动因素;（2）景观反馈，其中生态变化驱动地貌演变，反馈到水文和生物地球化学过程;（3）生物地球化学反馈，其中盐碱化和氧化还原转变改变循环，流动性和养分和碳的封存。这些过程在沼泽与森林高地和农业用地相邻的地区之间是不同的。这些假设将通过跨学科的实地观察，实验和建模，是完全集成在三个地点沿着大西洋中部海岸配对沼泽森林和沼泽农业网站。每个地点的森林和农业地点在水文、地球化学和生态方面存在重大差异，预计对海平面上升的反应也不同。该项目旨在解决迫切需要确定沿海关键区的景观如何应对海平面上升以及如何将关键区研究应用于制定政策和行动以减轻影响的问题。该奖项反映了NSF的法定使命，并通过使用基金会的知识价值和更广泛的影响审查标准进行评估而被认为值得支持。

项目成果

Groundwater, soil moisture, light and weather data in Brownsville forest, Nassawadox, VA, 2019-2022

弗吉尼亚州纳萨瓦多克斯布朗斯维尔森林的地下水、土壤湿度、光照和天气数据，2019-2022 年

• DOI: 10.6073/pasta/942a5a981e6e986c5fa1a9a9cd2eb8b7
• 发表时间: 2022
• 期刊: Environmental Data Initiative
• 作者: Fagherazzi, Sergio;Nordio, Giovanna
• 通讯作者: Nordio, Giovanna

Frequent Storm Surges Affect the Groundwater of Coastal Ecosystems

频繁的风暴潮影响沿海生态系统的地下水

• DOI: 10.1029/2022gl100191
• 发表时间: 2023
• 期刊: Geophysical Research Letters
• 影响因子: 5.2
• 作者: Nordio, Giovanna;Frederiks, Ryan;Hingst, Mary;Carr, Joel;Kirwan, Matt;Gedan, Keryn;Michael, Holly;Fagherazzi, Sergio
• 通讯作者: Fagherazzi, Sergio

Salinity increases with water table elevation at the boundary between salt marsh and forest

盐沼和森林边界处的盐度随着地下水位的升高而增加

• DOI: 10.1016/j.jhydrol.2022.127576
• 发表时间: 2022
• 期刊: Journal of Hydrology
• 影响因子: 6.4
• 作者: Nordio, Giovanna;Fagherazzi, Sergio
• 通讯作者: Fagherazzi, Sergio