데이터셋 상세
미국
Understanding the Role Coastal Marshes Play in Protecting Communities from Storm Surge and Flooding - NERRS/NSC(NERRS Science Collaborative)
The research team developed a vegetation-resolving three-dimensional surge-wave model to simulate storm impacts on Piermont Marsh and the adjacent Village. The model incorporated locally collected data on plant distribution and structure, as well as observed and simulated wind and water level data from the Hudson River. By modeling the impacts of Superstorm Sandy, they found that marsh vegetation with predominantly invasive common reed, Phragmites australis, reduced 66% of the wave energy, but less than 1% of the flood, at the Village. The marsh vegetation also significantly prevented transport of debris from the southeastern corner of the marsh. If managers were to replace Phragmites with the shorter, native cattail, Typha angustifolia , simulations of Sandy, which occurred in October, suggest that Piermont Marsh’s wave and debris buffering capacity would be preserved. However, had Sandy occurred in May/June when Typha is much shorter and sparser, the marsh would have been unable to buffer the wave and debris as effectively. The Piermont Marsh Coastal GeoTool allows Village of officials and resource managers to explore how homes and buildings would be impacted under marsh management and sea-level rise scenarios.
데이터 정보
연관 데이터
Protecting Wetlands for the Future in Wisconsin - NERRS/NSC(NERRS Science Collaborative)
공공데이터포털
Land use change and wetland loss have decreased the ability of estuaries to mitigate storm damage and reduce flooding in Wisconsin’s Douglas County. The loss of these valuable services was apparent in the aftermath of severe storm events that caused significant flooding and damage in 2012. And, as the climate shifts, the region is likely to experience more frequent powerful storms. Strategic wetland protection and restoration planning could help communities work together in protecting wetlands and the services they provide.
Understanding the Vulnerabilities of Southeastern Coastal Habitats to Climate Change Impacts - NERRS/NSC(NERRS Science Collaborative)
공공데이터포털
In this project, National Estuarine Research Reserves in North and South Carolina worked to improve local understanding of climate change effects on southeastern salt marsh and provide decision makers with the information and skills they need to address these vulnerabilities. North Carolina Reserve staff members were trained in the Climate Change Vulnerability Assessment Tool for Coastal Habitats (CCVATCH) by their colleagues from North Inlet-Winyah Bay Reserve. This decision support tool incorporates existing information on climate change impacts with knowledge of local conditions to help users develop vulnerability scores for specific areas. The project team used CCVATCH to conduct habitat vulnerability assessments for seven estuaries in North and South Carolina, summarized regional findings to help managers in the Southeast improve salt marsh resilience, and developed guidance and outreach products. This science transfer project was funded by NOAA through the National Estuarine Research Reserve System Science Collaborative to promote the use of science. It did not produce any new data.
Assessing the Effects of Storm Surge Barriers on the Hudson River Estuary - NERRS/NSC(NERRS Science Collaborative)
공공데이터포털
Coastal cities around the country are exploring structural engineering options for defending against extreme storms and the resulting surge of ocean water that can massive flooding. Storm surge barriers or tide gates can effectively protect harbors and minimize flooding, property damage and loss of life during large storms. These barriers typically span the opening to a harbor or river mouth and include gates that are only closed when storm surges are expected. However, even when gates are open, the barriers reduce water flow and tidal exchange, which in turn affects water quality and ecological processes. Scientists and engineers are increasingly recognizing the need for broad research initiatives to more fully explore the advantages and disadvantages of large surge barriers.
Healthy Wetlands and Communities for Southern California - NERRS/NSC(NERRS Science Collaborative)
공공데이터포털
Southern California’s coastal environments are under intense development pressure. In the Tijuana River Valley, this pressure translates into the fragmentation and loss of coastal wetlands that provide invaluable services, such as water quality protection. Conserving and restoring these wetlands has become a priority for regional coastal managers, scientists, and environmental organizations. However, despite a wealth of knowledge about these coastal systems, decision-makers lack essential information to transform wetland recovery and management priorities into action.
Thin-layer Sediment Placement: Evaluating an Adaptation Strategy to Enhance Coastal Marsh Resilience - NERRS/NSC(NERRS Science Collaborative)
공공데이터포털
Thin-layer placement (TLP) is an emergent climate adaptation strategy that mimics natural deposition processes in tidal marshes by adding a small amount of sediment on top of marsh in order to maintain elevation relative to sea level rise. This project addressed the needs of coastal managers and restoration practitioners for more information about TLP's effectiveness across diverse marsh plant communities and regions. Researchers conducted coordinated restoration experiments at eight National Estuarine Research Reserves across the East and West Coasts. The team assessed the impact of elevation, sediment type, and layer thickness on the success of this marsh adaptation technique. Greenhouse experiments exploring the effect of sediment texture and the addition of biochar as a soil amendment complemented these field studies. To support future use of TLP, the project team and an advisory committee of coastal managers at state and federal agencies and nonprofit groups created a suite of guidance documents including a consensus statement on thin-layer placement in tidal marsh ecosystems.
Exploring the Trends, the Science, and the Options of Buffer Management in the Great Bay Watershed - NERRS/NSC(NERRS Science Collaborative)
공공데이터포털
This project will enhance stakeholder capacity to make informed decisions on the protection and restoration of buffers around the Great Bay Estuary by addressing the following question: What are the options for addressing the challenges to effectively protect and restore buffer zones around New Hampshire's Great Bay? The project will support strategic agency and nonprofit investments; inform strategies for outreach professionals to work with towns on water quality improvement, habitat protection, climate adaptation, and nonpoint source pollution control; and lead to new research questions. This integrated assessment project was funded by NOAA through the National Estuarine Research Reserve System Science Collaborative to evaluate options for action. It did not produce any new data.
Sustainable Shorelines for New York's Hudson River - NERRS/NSC(NERRS Science Collaborative)
공공데이터포털
Several reserves collaborated to develop the Climate Change Vulnerability Assessment Tool for Coastal Habitats. The tool helps decision makers evaluate a habitat’s vulnerability to climate change and prioritize it for conservation or restoration. South Carolina’s North Inlet-Winyah Bay Reserve and the Chesapeake Bay Virginia Reserve worked with local partners to refine and pilot this tool and share it with the national reserve system.
Bringing Wetlands to Market in Massachusetts - NERRS/NSC(NERRS Science Collaborative)
공공데이터포털
In the struggle to slow climate change, coastal wetlands are a critical asset—acre for acre, they can store up to five times as much carbon as rainforests. When wetlands are damaged or destroyed, they shift from being carbon “sinks” to being carbon sources that release greenhouse gases into the atmosphere. Unfortunately, wetlands are disappearing at an alarming pace, and decisions to develop, protect, or restore them are often made in the context of limited public resources. Trading wetlands carbon offsets on carbon markets is an exciting new approach to creating financial incentives for restoration and conservation.
Enhancing Coordination on Shoreline Management and Resilience Measures in New York State - NERRS/NSC(NERRS Science Collaborative)
공공데이터포털
The Hudson River National Estuarine Research Reserve will work collaboratively with New York State agencies to capture what is known about nature-based shoreline stabilization approaches and other natural and nature-based features to reduce risk and enhance resilience. This will include joint review of existing policies, practices, and guidance; exploration of opportunities to enhance these programs and guidance; and recommendations for new or updated decision support frameworks. The team will facilitate the information exchange among agencies and consensus on how and where to promote and implement nature-based shoreline protection and natural resilience measures in New York. The project will ultimately result in a significantly higher percentage of shoreline management projects that are designed to benefit natural habitats and reduce risk for human communities. This science transfer project was funded by NOAA through the National Estuarine Research Reserve System Science Collaborative to promote the use of science. It did not produce any new data.
Collaborative Research to Manage Stormwater Impacts on Coastal Reserves - NERRS/NSC(NERRS Science Collaborative)
공공데이터포털
This project will 1) quantify pathogens, nutrients, and sediment delivery to the Rachel Carson Reserve; 2) create predictive models for shellfish and recreational waters in the North Carolina Reserve by using this information, along with decades of historical data; 3) engage stakeholders and end users to prioritize management options; and 4) engage coastal decision makers, community members, K-12 students, and teachers in hands-on education on stormwater runoff and its impacts.
목록