LP Coastal Resiliency
Designing Sustainable Coastal Landscapes in the Face of Sea-level Rise and Storms
Under a cooperative agreement funded by the Hurricane Sandy Disaster Mitigation Fund, Designing Sustainable Coastal Landscapes in the Face of Sea-level Rise and Storms, will add needed coastally relevant information to the Designing Sustainable Landscapes project for the North Atlantic region.
Beach and Tidal Habitat Inventories
This series of reports, databases, and data layers generated using Google Earth imagery provides an inventory of sandy beach and tidal inlet habitats from Maine to North Carolina, as well as modifications to sandy beaches and tidal inlets prior to, immediately after, and three years after Hurricane Sandy.
Stream Temperature Inventory and Mapper
This project developed a coordinated, multi-agency regional stream temperature framework and database for New England, the Mid-Atlantic, and the Great Lakes states. The project compiled metadata about existing stream temperature monitoring locations and networks; developed a web-based decision support mapper to display, integrate, and share that information; built a community of contacts with interest in this effort; and developed data portal capabilities that integrate stream temperature data from several sources.
North Atlantic Aquatic Connectivity Collaborative
This project is developing a partner-driven, science-based approach for identifying and prioritizing culvert road stream crossings in the area impacted by Hurricane Sandy for increasing resilience to future floods while improving aquatic connectivity for fish passage. The resulting information and tools will be used to inform and improve decision making by towns, states and other key decision makers.
Decision Support Framework for Sea-level Rise Impacts
One of the principal impacts of sea-level rise will be the loss of land in coastal areas through erosion and submergence of the coastal landscape. However, changes vary across space and time and are difficult to predict because landforms such as beaches, barriers, and marshes can respond to sea level rise in complicated, dynamic ways. This project developed decision support models to address critical management decisions at regional and local scales, considering both dynamic and simple inundation responses to sea-level rise.
Impacts of Climate Change on Stream Temperature
This study gathered existing stream temperature data, identified data gaps, deployed temperature monitoring to locations lacking data, and compared state-of-the-art stream temperature models across the Northeast domain.
Increasing Resiliency of Beach Habitats and Species
This project is a coordinated effort by Landscape Conservation Cooperative (LCC) partners to integrate existing data, models and tools with foundational data and assessments of both the impacts of Hurricane Sandy and the immediate response. The project will integrate new and existing data and build decision support tools to guide beach restoration, management and conservation actions. Project objectives are to sustain ecological function, habitat suitability for wildlife, and ecosystem services including flood abatement in the face of storm impacts and sea level rise.
iPlover: Piping plover habitat suitability in a changing climate
Designed by scientists to simplify consistent data collection and management, the iPlover smartphone application gives trained resource managers an easy-to-use platform where they can collect and share data about coastal habitat utilization across a diverse community of field technicians, scientists, and managers. With the click of a button, users can contribute biological and geomorphological data to regional models designed to forecast the habitat outlook for piping plover, and other species that depend upon sandy beach habitat.
Protection of Critical Beach-nesting Bird Habitats in the Wake of Severe Coastal Storms
Scientists developed models to examine the influence of landscape-scale variables like sea-level rise and beach-management strategies on bird nesting suitability.
Identifying Resilient Sites for Coastal Conservation
Sea levels are expected to rise by one to six feet over the next century, and coastal sites vary markedly in their ability to accommodate such inundation. In response to this threat, scientists from The Nature Conservancy evaluated 10,736 sites in the Northeast and Mid-Atlantic for the size, configuration and adequacy of their migration space, and for the natural processes necessary to support the migration of coastal habitats in response to sea-level rise.
Increasing Resiliency of Tidal Marsh Habitats and Species
This project is designed to guide decisions about where to conduct tidal marsh restoration, conservation, and management to sustain coastal ecosystems and services, including the fish and wildlife that depend upon tidal marshes, taking into account rising sea levels and other stressors.
Atlantic and Gulf Coast Resiliency Project
Coastal change is a shared challenge along the Atlantic and Gulf Coasts of the United States, yet there are vast differences in the tools and information available in these regions. This project coordinated, synthesized, and delivered coastal resilience information, activities and lessons learned across the coastal portion of the Atlantic, Gulf and Caribbean Landscape Conservation Cooperative (LCC) network.
Salt marsh modeling coupled with hydrodynamic modeling
Combining marsh equilibrium modeling approach with a hydrodynamic modeling approach, this coupled model forecasts the evolution of marsh landscapes under different sea-level rise scenarios, with or without marsh restoration and storm surge factored in, to inform future management decisions with regard to system dynamics.
Salt marsh Habitat and Avian Research Program (SHARP)
A collaborative effort to assess risks and set response priorities for tidal-marsh dependent bird species from Virginia to maritime Canada.
