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Recommended citation:Rice, T.M. 2017. Inventory of Habitat Modifications to Sandy Oceanfront Beaches in the U.S. Atlantic Coast Breeding Range of the Piping Plover (Charadrius melodus) as of 2015: Maine to North Carolina. Report submitted to the U.S. Fish and Wildlife Service, Hadley, Massachusetts. 295 p.This report describes a project that inventoried modifications to both tidal inlet and sandy, oceanfront beach habitats along the Atlantic coast from Maine through North Carolina. Three distinct time periods were assessed: before Hurricane Sandy (early 2012), immediately after Hurricane Sandy (November 2012), and three years after Hurricane Sandy (2015) to document modifications to sandy beaches and tidal inlet...
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NOTE: Two data download links are provided. The first includes the data described below as a geographic point layer and as a .csv file. The second link is a data package containing: the annual probability of observing one individual, the annual probability of encountering a large flock, and the monthly probability of observing one individual, for the full set of 24 species (in .csv format), and the associated report “Mapping the distribution, abundance and risk assessment of marine birds in the Northwest Atlantic.” To improve display of this data on Data Basin the point data was converted to a raster grid. This map depicts the mean predicted probability of observing at least one individual Great Black-backed Gull...
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This shapefile was developed in a project that identified areas with potential habitat for priority amphibian and reptile species or that likely support a noteworthy diversity of reptile or amphibian species in the North Atlantic Landscape Conservation Cooperative (http://nalcc.databasin.org/pages/about-north-atlanticlcc) and Northeast Partners in Amphibian and Reptile Conservation (northeastparc.org) regions. Our approach spatially applied the Priority Amphibian and Reptile Conservation Area (PARCA) System Criteria and Implementation Guidelines (PARCA Guidance; Sutherland and deMaynadier 2012) to combine amphibian and reptile species occurrence data and spatial environmental variables to predict and map habitat...
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This dataset was last updated February 2017. This version incorporates a revised version of the land cover classification, Terrestrial and Aquatic Habitat Map (DSLland), Version 3.1 developed by the University of Massachusetts, which included the addition of The Nature Conservancy’s Northeast lakes and ponds classification.The Virginia Rail (Rallus limicola) is a medium-sized marsh bird that is more easily heard than seen. It has been chosen to represent the habitat needs of other species of wildlife that also use freshwater or slightly brackish marshes.This dataset depicts the potential capability of the landscape throughout the Northeastern United States to provide habitat for Virginia Rail, during the breeding...
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To evaluate the potential effects of climate change on wildlife habitat and ecological integrity in the northeastern United States from 2010 to 2080, a University of Massachusetts Amherst team derived a set of climate projections at a fine spatial resolution for the entire Northeast. The projections are based upon publicly available climate models.This dataset represents the mean of the maximum air temperature (degrees C) for June, July, and August using one of two IPCC greenhouse gas concentration scenarios (RCP4.5). The dataset is intended to represent typical summer temperatures for the years 2010-2080. MAP UNITS ARE TEMP. IN DEGREES C MULTIPLIED BY 100 (which allows for more efficient data storage).Detailed...
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These datasets are a depiction of the potential capability of the landscape throughout the Northeastern United States to provide suitable future conditions for the 29 representative species using 2080 climate projections with the 2010 landscape. These products are intended to isolate the effect of climate change on the species distribution by not incorporating urband growth into the future landscape. The data are intended to be used in conjunction with the landscape capability datasets, for each respective species, based on environmental conditions existing in approximately 2010. All locations are scored on a scale from 0 to 1, with a value of 0 indicating no capacity to support the species and 1 indicating optimal...
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To evaluate the potential effects of climate change on wildlife habitat and ecological integrity in the northeastern United States from 2010 to 2080, a University of Massachusetts Amherst team derived a set of climate projections at a fine spatial resolution for the entire Northeast. The projections are based upon publicly available climate models.This dataset represents the mean of the minimum air temperature (degrees C) for December, January, and February using one of two IPCC greenhouse gas concentration scenarios (RCP8.5). The dataset is intended to represent typical winter temperatures in the decade centered on 2060 rather than the actual temperatures during 2060. MAP UNITS ARE TEMP. IN DEGREES C MULTIPLIED...
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This dataset was last updated February 2017. This version incorporates a revised version of the land cover classification, Terrestrial and Aquatic Habitat Map (DSLland), Version 3.1 developed by the University of Massachusetts, which included the addition of The Nature Conservancy’s Northeast lakes and ponds classification.The Blackpoll Warbler (Setophaga striata) is a small, migratory songbird that breeds in the northern coniferous forests of Alaska and Canada, with a range barely extending into northern New England and New York. It has been chosen to represent the habitat needs of other species of wildlife that also use boreal coniferous forests, particularly montane forests. This dataset depicts the potential...
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To evaluate the potential effects of climate change on wildlife habitat and ecological integrity in the northeastern United States from 2010 to 2080, a University of Massachusetts Amherst team derived a set of climate projections at a fine spatial resolution for the entire Northeast. The projections are based upon publicly available climate models.This dataset represents the mean of the minimum air temperature (degrees C) for December, January, and February for the year 2010 using one of two IPCC greenhouse gas concentration scenarios (RCP4.5). The dataset is intended to represent typical winter temperatures in the decade centered on 2050 rather than the actual temperatures during 2050. MAP UNITS ARE TEMP. IN DEGREES...
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To evaluate the potential effects of climate change on wildlife habitat and ecological integrity in the northeastern United States from 2010 to 2080, a University of Massachusetts Amherst team derived a set of climate projections at a fine spatial resolution for the entire Northeast. The projections are based upon publicly available climate models.This dataset represents the mean of the maximum air temperature (degrees C) for June, July, and August for the year 2020 using one of two IPCC greenhouse gas concentration scenarios (RCP8.5). The dataset is intended to represent typical summer temperatures in the decade centered on 2020. MAP UNITS ARE TEMP. IN DEGREES C MULTIPLIED BY 100 (which allows for more efficient...
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To evaluate the potential effects of climate change on wildlife habitat and ecological integrity in the northeastern United States from 2010 to 2080, a University of Massachusetts Amherst team derived a set of climate projections at a fine spatial resolution for the entire Northeast. The projections are based upon publicly available climate models.This dataset represents the mean of the maximum air temperature (degrees C) for June, July, and August for the year 2050 using one of two IPCC greenhouse gas concentration scenarios (RCP8.5). The dataset is intended to represent typical summer temperatures in the decade centered on 2050. MAP UNITS ARE TEMP. IN DEGREES C MULTIPLIED BY 100 (which allows for more efficient...
Coastal marshes serve a variety of important functions including flood control, spawning/rearing areas for marine life, and critical habitat for many bird species of conservation concern. The focus of this project was to facilitate local actions in Maine to accommodate the needs of coastal marshes to migrate landward in response to rising sea levels.
The purpose of this demonstration project was to show how North Atlantic LCC science products can be used to inform conservation for a Northeast habitat and resilience “hotspot.” The Trust for Public Land integrated LCC and other science products into a clearinghouse and analysis tool for parcel-level conservation planning in the 2.7 million acre White Mountains to Moosehead Lake region of Maine and New Hampshire.
This project is a collaborative effort to assess risks and set response priorities for tidal-marsh dependent bird species from Virginia to maritime Canada.With more than 1,500 sampling sites for estimating bird abundance and plant community composition, 22 sampling sites for estimating species fecundity and survival, and 651 sampling points for measuring salt marsh elevation, the Salt marsh Habitat and Avian Research Program is an unprecedented undertaking to characterize threats to tidal-marsh dependent bird species along the entire mid-Atlantic coastline.Originally initiated in 2011 by a team of scientists looking to align efforts towards understanding threats to salt marsh birds across the region SHARP had enough...
Connect the Connecticut is a partnership effort to create a landscape conservation design for the Connecticut River watershed that provides a roadmap for identifying the best starting places for conservation — areas that partners agree should be priorities in order to ensure that important species, habitats, and natural processes will be sustained into the future, even in the face of climate and land-use change.Using an innovative modeling approach developed by the Designing Sustainable Landscapes (DSL) project at the University of Massachusetts Amherst, and the best available regional science from the North Atlantic Landscape Conservation Cooperative (North Atlantic LCC), The Nature Conservancy (TNC), and the U.S....
This project inventoried modifications to both tidal inlet and sandy, oceanfront beach habitats along the Atlantic coast from Maine through North Carolina. Three distinct time periods were assessed: before Hurricane Sandy (early 2012), immediately after Hurricane Sandy (November 2012), and three years after Hurricane Sandy (2015) to document modifications to sandy beaches and tidal inlet habitat in response to the stormy. The inventories and series of reports were generated using Google Earth imagery.
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This dataset was last updated February 2017. This version incorporates a revised version of the land cover classification, Terrestrial and Aquatic Habitat Map (DSLland), Version 3.1 developed by the University of Massachusetts, which included the addition of The Nature Conservancy’s Northeast lakes and ponds classification. The moose (Alces alces) is the largest member of the deer family and an iconic resident of northern forests. It has been chosen to represent the habitat needs of other species of wildlife that also use a mix of forest types and wetlands in northern New England and New York and require large areas of land to support their annual habitat needs. This dataset depicts the potential capability of...
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This dataset is a component of a complete package of products from the Connect the Connecticut project. Connect the Connecticut is a collaborative effort to identify shared priorities for conserving the Connecticut River Watershed for future generations, considering the value of fish and wildlife species and the natural ecosystems they inhabit. Click here to download the full data package, including all documentation. This dataset represents the climate response index for Blackpoll Warbler. Climate response is one of several different measures of landscape capability that reflect different decisions (or assumptions) regarding how to incorporate current versus future land use and climate changes. The climate response...
The Northeast United States and Atlantic Canada share many of the same types of forests, wetlands, and natural communities, and from a wildlife perspective the region is one contiguous forest. However, resources are classified and mapped differently on the two sides of the border, creating challenges for habitat evaluation, species modeling, and predicting the effects of climate change. To remedy this, ecologists from The Nature Conservancy collaborated with a committee of scientists from various Canadian institutions to produce the first international map of terrestrial habitats for northeast North America. The project used extensive spatial data on geology, soils, landforms, wetlands, elevation and climate. Additionally,...
The three components of benthic data used for creation of the Ecological Marine Units (EMUs) and the Benthic Habitat Types (combinations of EMUs considered with their species assemblages) for the Northwest Atlantic Marine Ecoregional Assessment. Download includes: Bathymetry, Benthic Habitats, Benthic Sediment, Ecological Marine Units, Seabed Forms, and Ecoregional Boundaries.
map background search result map search result map Mean Maximum Summer Temperature (deg. C) for Northeast, Projected for 2010-2080, RCP4.5 Mean Maximum Summer Temperature (deg. C) for Northeast, Projected for 2020, RCP8.5, Ensemble GCM Results Mean Maximum Summer Temperature (deg. C) for Northeast, Projected for 2050, RCP8.5, Ensemble GCM Results Mean Minimum Winter Temperature (deg. C) for Northeast, Projected for 2050, RCP 4.5, Ensemble GCM Results Mean Minimum Winter Temperature (deg. C) for Northeast, Projected for 2060, RCP8.5, Ensemble GCM Results Predicted Annual Probability of Observing at least One Great Black-backed Gull Landscape Capability for Blackpoll Warbler, Version 3.0, Northeast U.S. Landscape Capability for Moose, Version 3.0, Northeast U.S. Climate Response for Blackpoll Warbler, 2080, CT River Watershed Landscape Capability for Virginia Rail, Version 3.1, Northeast U.S. Proposed draft PARCAs for Washington, D.C., 2016 Climate Response for Representative Species, 2080, Northeast U.S. Climate Response for Blackpoll Warbler, 2080, CT River Watershed Predicted Annual Probability of Observing at least One Great Black-backed Gull Proposed draft PARCAs for Washington, D.C., 2016 Climate Response for Representative Species, 2080, Northeast U.S. Landscape Capability for Blackpoll Warbler, Version 3.0, Northeast U.S. Landscape Capability for Moose, Version 3.0, Northeast U.S. Landscape Capability for Virginia Rail, Version 3.1, Northeast U.S. Mean Maximum Summer Temperature (deg. C) for Northeast, Projected for 2010-2080, RCP4.5 Mean Maximum Summer Temperature (deg. C) for Northeast, Projected for 2020, RCP8.5, Ensemble GCM Results Mean Maximum Summer Temperature (deg. C) for Northeast, Projected for 2050, RCP8.5, Ensemble GCM Results Mean Minimum Winter Temperature (deg. C) for Northeast, Projected for 2050, RCP 4.5, Ensemble GCM Results Mean Minimum Winter Temperature (deg. C) for Northeast, Projected for 2060, RCP8.5, Ensemble GCM Results