Fact Sheet Collection
Aquatic Connectivity Framework (ACF) Fact Sheet
The Aquatic Connectivity Framework (ACF) is a WLFW partnership effort that brings together public and private partners to tackle critical threats to watersheds across 16 states in the eastern and central U.S.
Fact Sheet - Science Products from the North Atlantic LCC
Fact Sheet providing examples of Science Products from the North Atlantic LCC with links
Fact Sheet - The North Atlantic LCC in the Chesapeake Bay Watershed
Fact Sheet providing examples of products and partnerships associated with the North Atlantic LCC in the Chesapeake Bay Watershed with links
Fact Sheet: AppLCC Overview
Today a range of monumental conservation challenges confronts the Appalachians. This includes the loss and fragmentation of natural habitats; disruptions in natural disturbance regimes; and expanding major land-use changes that are occurring on a grand scale. Climate change will further exacerbate these challenges. The magnitude of these landscape-level changes requires a shift from traditional local and single-species conservation approaches toward a more comprehensive scale to protect species, habitats, and ecosystems. The Appalachian Landscape Conservation Cooperative (LCC) serves as a catalyst for conservation collaboration by providing the tools, products, and data, resource managers and partners need to address the environmental threats that are beyond the scope of any one agency.
Fact Sheet: Assessing Future Energy
Assessing Future Energy Development Across the Appalachian Region
Fact Sheet: Assessing Vulnerability of Species and Habitats to Large-scale Impacts
New vulnerability assessments for 41 species and 3 habitats in the Appalachians.
Fact Sheet: Cave and Karst Resources
Addressing knowledge gaps to better protect unique landforms and their wealth of hidden biodiversity.
Fact Sheet: Ecosystem Benefits and Risks
Fact Sheet: Ecosystem Benefits and Risks
Fact Sheet: Habitat - Forested Stream and/or Seepage
Forested stream environments are typically found in the buffer zones between forested land and stream banks, often known as riparian zones. Stream headwaters and seepage areas occur where ground water percolates to the surface through muck, mossy rock, and nettles. It can also be found under rocks, among gravel, or cobble where water has begun to percolate in areas near open water. Breeding grounds are commonly found beneath mosses growing on rocks, on logs, or soil surfaces in these types of seepage areas.
Fact Sheet: Habitat - Forest/Woodlands
Forest/Woodland habitats describe large areas primarily dominated by trees, with moderate ground coverage, such as grasses and shrubs. Density, tree height, and land use may all vary, though woodland is typically used to describe lower density forests. A forest may have an open canopy, but a woodland must have an open canopy with enough sunlight to reach the ground and limited shade.
Fact Sheet: Habitat - Meadows and Marshlands
Meadows are open grasslands where grass and other non-woody plants are the primary vegetation. With no tree coverage, meadows are typically open, sunny areas that attract flora and fauna that require both ample space and sunlight. These conditions allow for the growth of many wildflowers and are typically important ecosystems for pollinating insects. Marshlands are like meadows in that they typically have no tree coverage and host primarily grasses and woody plants. However, a defining characteristic of marshlands is their wetland features.
Fact Sheet: Habitat - Open Woodlands
Used generally to describe low density forests, open woodland ecosystems contain widely spaced trees whose crowns do not touch, causing for an open canopy, insignificant midstory canopy layer, sparse understory and where groundcover is the most obvious feature of the landscape dominated by diverse flora (grasses, forbes, sedges). Open Woodlands provide habitat for a diverse mix of wildlife species, several of which are of conservation concern, such as Red Headed Woodpecker, Prairie Warbler, Kentucky Warbler, Northern Bobwhite and Eastern Red Bat.
Fact Sheet: Landscape Dynamics Assessment Tool (LanDAT)
LanDAT delivers monitoring information in a way that helps users interpret landscape-change and resilience
Fact Sheet: NatureScape
Landscape Conservation Design and On-Line Conservation Planning Tool
Fact Sheet: NatureScape FAQ
Frequently asked questions about NatureScape
Fact Sheet: Riparian Restoration Decision Support Tool
An innovative web-based tool - funded by the Appalachian Landscape Conservation Cooperative (LCC) and developed by researchers from the U.S. Forest Service and the University of Massachusetts - is allowing managers to rapidly identify high-priority riparian targets for restoration to make more resilient in preparation for changes in future climate. The Riparian Restoration Prioritization to Promote Climate Change Resilience (RPCCR) tool identifies vulnerable stream and riverbanks that lack tree cover and shade in coldwater stream habitats. By locating the best spots to plant trees in riparian zones, resource managers can provide shade that limits the amount of solar radiation heating the water and reduces the impacts from climate change. This well-established management strategy will benefit high-elevation, cold-water aquatic communities.
Fact Sheet: Science Investments
Our work and achievements in 2016 and 2017 built upon the collaborative scientific foundation established in our earlier years, while continuing towards a vision of maintaining a landscape that supports the special biological and cultural resources of the Appalachians. It’s helpful to reflect on the systematic advances made by our regional partnership in terms of its actions, decisions, and our investments—both in terms of the science but also in terms of strengthening the partnership through investment in shared resources.
Fact Sheet: Stream Impacts
Assessing current and future water withdrawal scenarios to inform decisions for achieving sustainable water ows that meet human demands and sustain healthy ecosystems.
Fact Sheet: Tennessee River Basin Network
The Tennessee River winds its way for roughly 650 miles through Tennessee, Alabama, Mississippi, and back into Tennessee, before reaching Kentucky where it empties into the Ohio River. In total the Basin encompasses over 40,000 square miles, covering five major physiographic provinces: the Blue Ridge, the Valley and Ridge, the Appalachian Plateau, the Interior Low Plateaus, and the Coastal Plain. The extent of the Basin’s reach vast diversity of geography and geology in the region help to explain why the area harbors one of the most biologically diverse freshwater ecosystems in the world.
Fact Sheet: The Web Portal
APPLCC WEB PORTAL OVERVIEW: Empowering Partners to Deliver Conservation and Connect Landscapes