Skip to main content
Advanced Search

Filters: Tags: Adaptation Planning (X)

34 results (168ms)   

Filters
Date Range
Extensions
Types
Contacts
Categories
Tag Types
Tag Schemes
View Results as: JSON ATOM CSV
thumbnail
The ecologically-relevant geophysical (ERGo) landforms dataset is a comprehensive classification of landforms based on hillslope position and dominant physical processes that covers most of North America. Four hillslope positions form a natural sequence of topographic units along the catena: ridges/peaks (summits), upper slopes (shoulders), lower slopes (foot slopes), and valley bottoms (toe slopes). The position within each of these hillslopes as a function of solar orientation to reflect how ecological processes (especially soil moisture and evapotranspiration) are influenced by insolation. Also included are very flat (i.e. areas 50°). We provide these data here at 30 m resolution, grouped by Landscape Conservation...
thumbnail
The ecologically-relevant geophysical (ERGo) landforms dataset is a comprehensive classification of landforms based on hillslope position and dominant physical processes that covers most of North America. Four hillslope positions form a natural sequence of topographic units along the catena: ridges/peaks (summits), upper slopes (shoulders), lower slopes (foot slopes), and valley bottoms (toe slopes). The position within each of these hillslopes as a function of solar orientation to reflect how ecological processes (especially soil moisture and evapotranspiration) are influenced by insolation. Also included are very flat (i.e. areas 50°). We provide these data here at 30 m resolution, grouped by Landscape Conservation...
thumbnail
The rugged landscapes of northern Idaho and western Montana support biodiverse ecosystems, and provide a variety of natural resources and services for human communities. However, the benefits provided by these ecosystems may be at risk as changing climate magnifies existing stressors and allows new stressors to emerge. Preparation for and response to these potential changes can be most effectively addressed through multi-stakeholder partnerships, evaluating vulnerability of important resources to climate change, and developing response and preparation strategies for managing key natural resources in a changing world. This project supports climate-smart conservation and management across forests of northern Idaho...
thumbnail
The ecologically-relevant geophysical (ERGo) landforms dataset is a comprehensive classification of landforms based on hillslope position and dominant physical processes that covers most of North America. Four hillslope positions form a natural sequence of topographic units along the catena: ridges/peaks (summits), upper slopes (shoulders), lower slopes (foot slopes), and valley bottoms (toe slopes). The position within each of these hillslopes as a function of solar orientation to reflect how ecological processes (especially soil moisture and evapotranspiration) are influenced by insolation. Also included are very flat (i.e. areas <2°) or very steep (i.e. “cliffs” >50°). We provide these data here at 30 m resolution,...
thumbnail
The ecologically-relevant geophysical (ERGo) landforms dataset is a comprehensive classification of landforms based on hillslope position and dominant physical processes that covers most of North America. Four hillslope positions form a natural sequence of topographic units along the catena: ridges/peaks (summits), upper slopes (shoulders), lower slopes (foot slopes), and valley bottoms (toe slopes). The position within each of these hillslopes as a function of solar orientation to reflect how ecological processes (especially soil moisture and evapotranspiration) are influenced by insolation. Also included are very flat (i.e. areas <2°) or very steep (i.e. “cliffs” >50°). We provide these data here at 30 m resolution,...
thumbnail
The ecologically-relevant geophysical (ERGo) landforms dataset is a comprehensive classification of landforms based on hillslope position and dominant physical processes that covers most of North America. Four hillslope positions form a natural sequence of topographic units along the catena: ridges/peaks (summits), upper slopes (shoulders), lower slopes (foot slopes), and valley bottoms (toe slopes). The position within each of these hillslopes as a function of solar orientation to reflect how ecological processes (especially soil moisture and evapotranspiration) are influenced by insolation. Also included are very flat (i.e. areas <2°) or very steep (i.e. “cliffs” >50°). We provide these data here at 30 m resolution,...
thumbnail
The ecologically-relevant geophysical (ERGo) landforms dataset is a comprehensive classification of landforms based on hillslope position and dominant physical processes that covers most of North America. Four hillslope positions form a natural sequence of topographic units along the catena: ridges/peaks (summits), upper slopes (shoulders), lower slopes (foot slopes), and valley bottoms (toe slopes). The position within each of these hillslopes as a function of solar orientation to reflect how ecological processes (especially soil moisture and evapotranspiration) are influenced by insolation. Also included are very flat (i.e. areas <2°) or very steep (i.e. “cliffs” >50°). We provide these data here at 30 m resolution,...
thumbnail
The ecologically-relevant geophysical (ERGo) landforms dataset is a comprehensive classification of landforms based on hillslope position and dominant physical processes that covers most of North America. Four hillslope positions form a natural sequence of topographic units along the catena: ridges/peaks (summits), upper slopes (shoulders), lower slopes (foot slopes), and valley bottoms (toe slopes). The position within each of these hillslopes as a function of solar orientation to reflect how ecological processes (especially soil moisture and evapotranspiration) are influenced by insolation. Also included are very flat (i.e. areas <2°) or very steep (i.e. “cliffs” >50°). We provide these data here at 30 m resolution,...
thumbnail
The Cascadia Parner Forum fosters a network of natural resource practitioners working with the NPLCC and GNLCC to guild the adaptive capacity of the landscape and species living within it. This project supported three complementary transboundary climate adaptation and habitat connectivity activities in the Cascadia region: 1) Transboundary Climate Analysis by the Washington Wildlife Habitat Connectivity Working Group, 2) WildLinks workshop, and 3) Cascadia Partner Forum.
WildLinks 2012 brought together transboundary scientists and managers to build on transboundary discussions started during Wildlinks 2010 and 2011 related to climate adaptation for species and habitats on both sides of the border.
Categories: Data, Project; Types: Map Service, OGC WFS Layer, OGC WMS Layer, OGC WMS Service; Tags: Academics & scientific researchers, Adaptation planning, B.C. North Cascades, B.C. North Cascades, B.C. North Cascades, All tags...
thumbnail
The ecologically-relevant geophysical (ERGo) landforms dataset is a comprehensive classification of landforms based on hillslope position and dominant physical processes that covers most of North America. Four hillslope positions form a natural sequence of topographic units along the catena: ridges/peaks (summits), upper slopes (shoulders), lower slopes (foot slopes), and valley bottoms (toe slopes). The position within each of these hillslopes as a function of solar orientation to reflect how ecological processes (especially soil moisture and evapotranspiration) are influenced by insolation. Also included are very flat (i.e. areas 50°). We provide these data here at 30 m resolution, grouped by Landscape Conservation...
thumbnail
The ecologically-relevant geophysical (ERGo) landforms dataset is a comprehensive classification of landforms based on hillslope position and dominant physical processes that covers most of North America. Four hillslope positions form a natural sequence of topographic units along the catena: ridges/peaks (summits), upper slopes (shoulders), lower slopes (foot slopes), and valley bottoms (toe slopes). The position within each of these hillslopes as a function of solar orientation to reflect how ecological processes (especially soil moisture and evapotranspiration) are influenced by insolation. Also included are very flat (i.e. areas 50°). We provide these data here at 30 m resolution, grouped by Landscape Conservation...
thumbnail
The ecologically-relevant geophysical (ERGo) landforms dataset is a comprehensive classification of landforms based on hillslope position and dominant physical processes that covers most of North America. Four hillslope positions form a natural sequence of topographic units along the catena: ridges/peaks (summits), upper slopes (shoulders), lower slopes (foot slopes), and valley bottoms (toe slopes). The position within each of these hillslopes as a function of solar orientation to reflect how ecological processes (especially soil moisture and evapotranspiration) are influenced by insolation. Also included are very flat (i.e. areas <2°) or very steep (i.e. “cliffs” >50°). We provide these data here at 30 m resolution,...
thumbnail
The Cascadia Parner Forum fosters a network of natural resource practitioners working with the NPLCC and GNLCC to guild the adaptive capacity of the landscape and species living within it. This project supported three complementary transboundary climate adaptation and habitat connectivity activities in the Cascadia region: 1) Transboundary Climate Analysis by the Washington Wildlife Habitat Connectivity Working Group, 2) WildLinks workshop, and 3) Cascadia Partner Forum.
thumbnail
The ecologically-relevant geophysical (ERGo) landforms dataset is a comprehensive classification of landforms based on hillslope position and dominant physical processes that covers most of North America. Four hillslope positions form a natural sequence of topographic units along the catena: ridges/peaks (summits), upper slopes (shoulders), lower slopes (foot slopes), and valley bottoms (toe slopes). The position within each of these hillslopes as a function of solar orientation to reflect how ecological processes (especially soil moisture and evapotranspiration) are influenced by insolation. Also included are very flat (i.e. areas <2°) or very steep (i.e. “cliffs” >50°). We provide these data here at 30 m resolution,...
thumbnail
The Cascadia Parner Forum fosters a network of natural resource practitioners working with the NPLCC and GNLCC to guild the adaptive capacity of the landscape and species living within it. This project supported three complementary transboundary climate adaptation and habitat connectivity activities in the Cascadia region: 1) Transboundary Climate Analysis by the Washington Wildlife Habitat Connectivity Working Group, 2) WildLinks workshop, and 3) Cascadia Partner Forum.
thumbnail
WildLinks 2012 brought together transboundary scientists and managers to build on transboundary discussions started during Wildlinks 2010 and 2011 related to climate adaptation for species and habitats on both sides of the border.
thumbnail
The north-central region of the U.S. has experienced a series of extreme droughts in recent years, with impacts felt across a range of sectors. For example, the impacts of a 2002 drought are estimated to have resulted in a $3 billion loss to the agricultural sector in Nebraska and South Dakota. Meanwhile, the ecological impacts of drought in the region have included increased tree mortality, surges in the outbreak of pests, and intensifying forest fires. Located within this region is the Missouri River Basin, an important agricultural production area home to approximately 12 million people, including 28 Native American tribes. Tribal governments and multiple federal agencies manage land and natural resources in...
The Cascadia Parner Forum fosters a network of natural resource practitioners working with the NPLCC and GNLCC to guild the adaptive capacity of the landscape and species living within it. This project supported three complementary transboundary climate adaptation and habitat connectivity activities in the Cascadia region: 1) Transboundary Climate Analysis by the Washington Wildlife Habitat Connectivity Working Group, 2) WildLinks workshop, and 3) Cascadia Partner Forum.
Categories: Data, Project; Types: Map Service, OGC WFS Layer, OGC WMS Layer, OGC WMS Service; Tags: 2012, Academics & scientific researchers, Adaptation planning, Adaptation planning, B.C., All tags...
thumbnail
The ecologically-relevant geophysical (ERGo) landforms dataset is a comprehensive classification of landforms based on hillslope position and dominant physical processes that covers most of North America. Four hillslope positions form a natural sequence of topographic units along the catena: ridges/peaks (summits), upper slopes (shoulders), lower slopes (foot slopes), and valley bottoms (toe slopes). The position within each of these hillslopes as a function of solar orientation to reflect how ecological processes (especially soil moisture and evapotranspiration) are influenced by insolation. Also included are very flat (i.e. areas <2°) or very steep (i.e. “cliffs” >50°). We provide these data here at 30 m resolution,...


map background search result map search result map Cascadia Partner Forum: Transboundary Adaptation Efforts Moving from Awareness to Action: Informing Climate Change Vulnerability Assessments and Adaptation Planning for Idaho and Montana National Forests Foundational Science Area: Helping People and Nature Adapt to Climate Change in the North Central U.S. Wildlinks 2013: A Workshop of the Cascadia Partner Forum Summary Report Ecologically-relevant landforms for North Pacific LCC Ecologically-relevant landforms for South Atlantic LCC Ecologically-relevant landforms for Great Plains LCC Ecologically-relevant landforms for Baja LCC Ecologically-relevant landforms for Great Basin LCC Ecologically-relevant landforms for California LCC Ecologically-relevant landforms for Gulf Coast Plains and Ozarks LCC Ecologically-relevant landforms for Desert LCC Ecologically-relevant landforms for North Atlantic LCC Ecologically-relevant landforms for Western Alaska LCC Ecologically-relevant landforms for Upper Midwest and Great Lakes LCC Ecologically-relevant landforms for Plains and Prairie Potholes LCC 2012 Wildlinks Conference Cascadia Partner Forum: Transboundary Adaptation Efforts Cascadia Partner Forum: Transboundary Adaptation Efforts 2012 Wildlinks Conference Moving from Awareness to Action: Informing Climate Change Vulnerability Assessments and Adaptation Planning for Idaho and Montana National Forests Cascadia Partner Forum: Transboundary Adaptation Efforts Wildlinks 2013: A Workshop of the Cascadia Partner Forum Summary Report 2012 Wildlinks Conference Cascadia Partner Forum: Transboundary Adaptation Efforts Cascadia Partner Forum: Transboundary Adaptation Efforts 2012 Wildlinks Conference Foundational Science Area: Helping People and Nature Adapt to Climate Change in the North Central U.S. Ecologically-relevant landforms for South Atlantic LCC Ecologically-relevant landforms for Western Alaska LCC Ecologically-relevant landforms for California LCC Ecologically-relevant landforms for Great Basin LCC Ecologically-relevant landforms for Great Plains LCC Ecologically-relevant landforms for Gulf Coast Plains and Ozarks LCC Ecologically-relevant landforms for Baja LCC Ecologically-relevant landforms for North Atlantic LCC Ecologically-relevant landforms for Plains and Prairie Potholes LCC Ecologically-relevant landforms for Upper Midwest and Great Lakes LCC Ecologically-relevant landforms for Desert LCC Ecologically-relevant landforms for North Pacific LCC