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Filters: Contacts: Mark G. Anderson (X) > partyWithName: North Atlantic Landscape Conservation Cooperative (X) > Extensions: Project (X)

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This project updated the Northeast Terrestrial Habitat Map by remapping the Virginia coastal plain and piedmont (the previous version adopted the Southeast GAP map for these regions). This resulted in a map that is fully consistent across the 13 state Northeast region (Maine to Virginia and West Virginia).
This project will updated the 2008 Northeastern Aquatic Habitat Classification (NAHCS) prepared by The Nature Conservancy and the Northeast Association of Fish and Wildlife Agencies (NEAFWA). The updates added a tidal component to the classification of streams and rivers and will enhance lake classification.
Consistent and accurate landscape datasets are important foundational products for ecological analyses and for understanding and anticipating the effects of climate change on forested, agricultural, and freshwater systems across the U.S. and Canada. The objective of this project was to extend an existing terrestrial habitat map of the north Atlantic U.S. to Atlantic Canada and southern Quebec, using and modeling field-collected data combined with national and provincial datasets. This GIS map 1) provides a foundation upon which further research, such as species vulnerability analyses, can advance, 2) allows each relevant state and province to identify terrestrial habitats consistently across borders, 3) allows for...
Categories: Data, Project; Tags: 2012, Academics & scientific researchers, Academics & scientific researchers, Applications and Tools, Applications and Tools, All tags...
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. The resulting resilience dataset is intended to help natural resource managers, conservationists, and others identify resilient lands for protection and restoration across the North Atlantic coast, and has been integrated into the Nature’s Network conservation...
Landscape permeability is the ability of a land area to allow organisms to move and disperse, equivalent to what some authors call “habitat connectivity.” This project evaluated and mapped the relative landscape permeability for terrestrial organisms across the eastern United States and southeastern Canada, taking into account features that impede natural connectivity such as roads and other development. The analysis assigned locations to categories of diffuse flow (intact, permeable areas that facilitate high levels of dispersal), concentrated flow (large quantities of flow are concentrated through a narrow area), constrained flow (low permeability, with flow following a weak reticulated network), or blocked flow...
Classifying estuarine and marine habitats was identified as a priority need for a variety of purposes in the Northeast. This project utilized the national Coastal and Marine Ecological Classification Standard (CMECS) version 4.0 to classify estuarine and marine environments in the Northwest Atlantic region (Maine to Virginia). Since CMECS was released just prior to the beginning of this project, and had not been applied to this region previously, the classification effort was informed by the habitat mapping approach that The Nature Conservancy (TNC) developed for the Northwest Atlantic. Several commonalities exist between the two habitat classification schemes: each has a multi-scale hierarchical framework, relies...
This multi-faceted project aims to assess nesting habitat for the Federally-listed piping plover (Charadrius melodus) and other beach-dwelling species on Atlantic coastal beaches and to forecast future habitat under accelerating sea level rise. This project engages a broad community of stakeholders along 1500 km of the U.S. Atlantic breeding range from North Carolina to Maine to address a shared problem in species and landscape management and increases collaboration and collective ‘ownership’ of the problem. The project can be divided into three parts: 1) Application development. Using agile software development approaches, a smartphone application called iPlover was conceived, developed and deployed in just a few...