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To be successful, natural resource managers need to synthesize diverse information on the effects of management actions, climate change and other stressors on wildlife populations at appropriate scales. The project team developed a Decision Support Tool (DST) that integrates the results of multi-disciplinary, multi-taxa modeling allowing users to project outcomes of conservation actions, accounting for effects of climate change and other stressors. This DST builds on work to improve a sea level rise tool for adaptive tidal wetland restoration and management. The DST provides information on how restoration can increase population resilience and long-term persistence at multiple scales for multiple species throughout...
This project supports a collaborative, multi-stakeholder effort led by the U.S. Forest Service (USFS) to develop a largescale vulnerability assessment and associated adaptation strategies for focal resources of the Sierra Nevada. The purpose of this effort is to provide information and tools for Forest Planning and management (e.g., NEPA analyses, Forest Plan revisions, Climate Scorecard) and other natural resource management (e.g., SWAP) and conservation efforts to prepare for climate change impacts in the Sierra Nevada. Specifically, our objectives are to: (1) assess the vulnerability of focal resources to climate change, (2) use spatial analysis and expert input to prioritize conservation areas or actions, and...
Categories: Data, Project; Tags: 2012, 2013, Applications and Tools, CA, California Landscape Conservation Cooperative, All tags...
This project is analyzing downscaled climate model data to assess the geography of climate change at scales relevant to actual conservation actions. This work analyzes the California Essential Habitat Connectivity products to determine which protected lands are most vulnerable and which of the proposed corridors would partially mitigate climate change threats.
The CA LCC assisted the San Francisco Bay Area National Wildlife Refuge Complex in its conservation planning efforts by researching and summarizing projections of climate change and potential impacts for the natural resources of the seven refuges within the Refuge Complex. We used the Climate Commons and the tools linked to it to search the literature and create graphs and maps depicting range and types of climate and physical changes expected for the region, and searched the scientific literature and consulted with experts for the summaries of potential impacts to the target habitats and species.
Despite the existence of high quality scientific information, there are significant barriers to the application of available tools to real-world decisions regarding how to best restore and manage coastal wetlands in consideration of climate change effects. These barriers derive from the difficulty in determining the most appropriate restoration or management prescription in light of site-specific habitat conditions, constraints, and expected future conditions. Wetlands along the southern California coast vary widely in terms of their size, habitat composition, and forcing functions. For example, the balance between fluvial and littoral processes can affect the size, extent, and frequency of tidal inlet closures....
Phases 1-3 (2010-2012): This project developed landscape change scenarios based upon water availability and precipitation and temperature patterns projected from downscaled models and investigated impacts of these changes on habitats and ecology of waterfowl, shorebirds, and other waterbirds in the Central Valley. This project provides critical information and support to understand and incorporate likely impacts of climatic change in conservation planning. Science Delivery Phase (2013): The goal of this work is to work with the Central Valley Joint Ventures (CVJV) to adapt the scenario modeling project results and modeling tool so they can be used by the CVJV to incorporate climate, urbanization, and water supply...
While meadows cover less than one percent of the Sierra Nevada, these ecosystems are of high ecological importance given their role in carbon and nitrogen storage, mediation of surface water flows, groundwater recharge, sediment filtration, and as refugia for numerous species. Understanding how – and where – to conserve and restore meadow ecosystems is a critical management question facing US Forest Service (USFS) and other land managers in the Sierra Nevada. The information and tools generated from this project are intended to significantly increase understanding of meadow responses to climate, associated changes in hydrology, and to develop conservation and restoration priorities that are strongly aligned with...