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Northeastern boreal forests are an important habitat type for many wildlife species, including migratory birds and moose. These animals play vital roles in the boreal forest ecosystem, are a source of pleasure for bird and wildlife watchers, and contribute to tourism revenue for many communities. However, moose and migratory birds are thought to be particularly vulnerable to the impacts of climate change. For example, in New York’s Adirondack Park system, five species of boreal birds have shown occupancy declines of 15% or more. Meanwhile, moose are threatened by winter ticks that thrive in warmer climates and spread disease. A 2018 New York Department of Environmental Conservation (NYDEC) report found that there...
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Social scientists funded through the National Climate Change and Wildlife Science Center (NCCWSC) and the Climate Science Centers (CSCs) have an obligation to provide access to their climate science related research data. We suspect, as with other data types, that tools for creating and editing social science metadata specific to the climate science domain and linking the metadata to the actual data either do not exist or are non-intuitive for scientists. Through our research we sought to verify whether any definitive metadata tool for social scientists working in the climate science domain exists. We also sought to determine whether a commonly agreed upon social science metadata standard exists. We suspect that...
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Inland fish populations are a crucial resource to humans and communities around the world. Recreational fishing throughout the United States, for example, provides important revenue to local and state economies; globally, inland fisheries are a vital food source for billions of people. Warming temperatures and changing precipitation patterns, however, are already causing significant changes to fish communities worldwide. Since the mid-1980s, scientists have projected the effects of climate change on inland fish, and in more recent years, documentation of impacts has increased. However, the number of documented impacts of climate change on inland fish remains low. A comprehensive understanding of how climate change...
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The Southeastern U.S. spans broad ranges of physiographic settings and contains a wide variety of aquatic systems that provide habitat for hundreds of endemic aquatic species that pose interesting challenges and opportunities for managers of aquatic resources, particularly in the face of climate change. For example, the Southeast contains the southernmost populations of the eastern brook trout and other cold-water dependent species. Climate change is predicted to increase temperatures in the South and is likely to have a substantial effect on extant populations of cold-water biota. Thus, aquatic managers are tasked with developing strategies for preserving cold-water dependent biota, such as eastern brook trout,...
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There are approximately 2,000 species of migratory birds worldwide, and over 300 of those can be found in North America. Changing climate conditions pose challenges for many migratory birds and their responses to these challenges can depend on their biology. To illustrate these impacts, a board game, called Migration Mismatch, was developed to help elementary school students understand these challenges. Migration Mismatch can help students build their understanding of biological processes and how species, birds in this case, interact with their environment. The game provides an interactive element to learning about adaptations of different bird species to environmental changes and provides a link to birds they may...
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The USGS National Climate Change and Wildlife Science Center (NCCWSC), as part of the work of the Interagency Land Management Adaptation Group (ILMAG), initiated a project in 2013 to develop plans for a searchable, public registry on climate change vulnerability assessments. Member agencies from the USGCRP Adaptation Science Work Group, the Association of Fish and Wildlife Agencies (AFWA), and several NGO’s also contributed. Vulnerability assessments are important for identifying resources that are most likely to be affected by climate change and providing insights on why certain resources are vulnerable. Consequently, they provide valuable information for informing climate change adaptation planning. CRAVe allows...
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As our world changes and communities are faced with uncertain future climate conditions, decision making and resource planning efforts can often no longer rely on historic scientific data alone. Scientific projections of what might be expected in the future are increasingly needed across the country and around the world. Scientists and researchers can develop these projections by using computer models to simulate complex elements of our climate and their interactions with ecosystems, wildlife, and biodiversity. While an extensive array of general circulation models (GCMs, climate models of the general circulation of the atmosphere and ocean) exist, there is currently a lack of global biodiversity models. This project...
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As resource managers, policy makers, and citizens grapple with the effects of climate change, the demand for more usable or “actionable” science has increased. One promising approach to developing scientific information that can be easily and readily applied to management and policy decisions is to have scientists and decision makers work together to produce information. This approach, often referred to as the “co-production of knowledge”, integrates the background, experience, and know-how of each group to develop the scientific information that will be most useful to society. This project will test an approach to knowledge co-production by introducing a trained social scientist to a co-produced drought-related...
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The Schitsu'umsh people (Coeur d’Alene Tribe of Idaho) have an intimate relationship with their landscape and a rich knowledge of how to interact with the environment in a way that benefits human, plant, and animal communities alike. Such knowledge and practices can provide valuable insight as to how tribal and non-tribal resource managers, communities, and governments can best respond to the effects of a changing climate. This project was a pilot effort to collect and translate indigenous knowledge and practices into shareable formats. Researchers developed documents, images, lesson plans, and innovative, interactive 3-D virtual reality simulations that effectively convey Schitsu’umsh knowledge and practices and...
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The eight Department of the Interior Climate Science Centers (CSCs), managed by the USGS National Climate Change and Wildlife Science Center (NCCWSC), work closely with natural and cultural resource managers to gather needed scientific information about the impacts of climate change on fish, wildlife and ecosystems. Given the critical role of the CSC’s in engaging with partners to define climate science needs, conduct or fund science activities, and convey the results to partners, it is important to periodically evaluate the efficacy of the CSC program. The American Fisheries Society and the Human Dimensions Research Unit of Cornell University have been engaged by NCCWSC to lead 5-year reviews of the CSCs. The...
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Natural resource managers face uncertainties of many kinds, with limited budgets and ever-evolving hierarchies of management priorities. Not least among those uncertainties are questions regarding future climate conditions. Technological advancements have enhanced our ability to understand and model climate, which has led to improved climate forecasting capabilities. However, climate projections are usually produced at a global scale, which makes them impractical for natural resource managers who are concerned with how climate will change in the specific location or region in which they operate. While there have been a growing number of techniques for increasing the resolution of these projections, resource managers...
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Changes in the Earth’s climate are expected to impact freshwater habitats around the world by altering water temperatures, water levels, and streamflow. These changes will have consequences for inland fish – those found within lakes, rivers, streams, canals, reservoirs, and other landlocked waters – which are important for food, commerce, and recreation around the world. According to the U.S. Fish and Wildlife Service, in 2011, 33.1 million people fished and spent $41.8 billion in the United States alone. Yet to date, little comprehensive research has been conducted to investigate the effects of climate change on inland fisheries at a large scale. The aim of this project was to summarize the current state of...
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Water in the western United States is disappearing, and several states are facing severe water shortages as drought conditions worsen. Many streams are drying up, and there is growing concern that this trend will only continue as climate change produces warmer and drier conditions. The loss of stream ecosystems has far reaching ecological, social, and economic implications. Species that depend on these ecosystems for habitat will be at greater risk of extinction and humans will lose vital sources of water relied upon for agriculture, drinking water, and recreation. This project aimed to identify how water availability is changing in the West, focusing specifically on when and where streams go dry. Researchers...
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Inland fisheries are critical for global food security and human well-being. However, fish production may be threatened by changes in climate and land use. Understanding this threat is crucial to effectively manage inland fisheries in the future. To address this need, this project will identify which types of lakes across the globe are most vulnerable to the impacts of climate and land use changes. Lakes will be categorized based on their depth, vulnerability to food insecurity, and vulnerability to water insecurity – variables which can all influence how detrimental climate and land use change will actually be on a lake. This information will be used to predict how inland fisheries production might change under...
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Better understanding of the overall fishery production in river systems around the world may influence general development policies and practices for aquatic systems and sustainable maintenance of an important protein source (particularly for poorer countries where fish are relatively readily available to the local human population). With this study, researchers worked to fill this knowledge gap by estimating the overall fishery production in river networks globally using multivariate statistical models with explanatory variables compiled from remotely sensed and in‐situ observations. The freshwater fish production in rivers was estimated by: 1. Developing models using key drivers (temperature, precipitation,...
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Increasing temperatures and decreasing precipitation threaten the persistence of the Rio Grande cutthroat trout, the southernmost subspecies of cutthroat trout, found only in parts of New Mexico and Colorado. This subspecies appears to be more vulnerable to drought than more northern subspecies, because it occupies small and fragmented streams which are at greater risk of drying up during drought. Most notably, in 2002 drought in the Southwest resulted in the loss of 14 different Rio Grande cutthroat trout populations – about 10% of the total population. While it is known that drought is having an effect on Rio Grande cutthroat trout, the specific ways in which individuals and populations are affected by drought...
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As global temperatures continue to rise, the frequency and severity of droughts in North America are expected to increase, leading to a wide range of social and ecological impacts. Identifying these impacts and the consequences for ecosystems and human communities are essential for effective drought management. Equally important is to improve the capacity of nature and people to prepare for and cope with drought by identifying management strategies that benefit both. An interdisciplinary working group within the Science for Nature and People Partnership (SNAPP) was established by the U.S. Geological Survey, The Wildlife Conservation Society, and The Nature Conservancy to synthesize our current understanding of...
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Despite the important effects of inland fisheries on food, economy, and ecosystem services throughout the world, no comprehensive understanding on the status or key drivers of inland fisheries exists (Beard et al. 2011). Our lack of knowledge regarding the status results from the common belief that inland fishery harvests are widely under reported (FAO 2009; Welcomme et al. 2010), particularly the contributions from recreational, artisanal, and illegal fisheries (FAO 2003; Allan et al. 2005). Overcoming this knowledge gap has no simple solution, given that resources to conduct on-the-ground fisheries assessments are lacking throughout much of the world, particularly in Africa or Asia where the majority of the inland...
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Migratory birds may be hit especially hard by climate change – particularly waterbirds that depend on wetlands as resting and feeding sites during their journey between breeding and non-breeding grounds. California’s Central Valley and the interior basins of southeastern Oregon and northeastern California provide some of the most critical wetlands resources to migratory waterbirds in the western U.S. However, these wetlands rely heavily on snow pack and precipitation for water supply, both of which have already decreased due to climate change. Of further concern is the fact that drought conditions resulting from climate change could exacerbate existing water allocation issues in the region. Researchers are examining...
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Severe droughts cause widespread tree mortality and decreased growth in forests across the globe—even in areas with cooler climates. Mitigating the negative effects of climate change, in particular increased drought frequency and severity, poses a major challenge to forest managers. Managers are searching for strategies that minimize the negative effects of drought on forests (i.e. increase their resistance to drought) and maximize the ability of forests to recover after a drought (i.e. improve their resilience). Evidence suggests that forests with certain combinations of tree species, sizes, and stem densities are better able to withstand and recover from drought. The goal of this study was to identify which...
map background search result map search result map USGS-USFS Partnership to Help Managers Evaluate Conservation Strategies for Aquatic Ecosystems Based on Future Climate Projections Development of the Climate Registry for the Assessment of Vulnerability (CRAVe): A Searchable, Public Online Tool for Understanding Species and Habitat Vulnerability Collecting and Applying Schitsu’umsh Indigenous Knowledge and Practices to Climate Change Decision Making State of the Science on the Effects of Climate Change on North American Inland Fishes Supporting Social Scientists working with the CSCs in Data Sharing Efforts Informing and Evaluating Forest Management Strategies to Promote Drought Resistance Assessing the Impacts of Drought on Migratory Waterbirds in Key Conservation Regions of the Western U.S. River’s End: Mapping Patterns of Stream Drying in the Western United States The Effects of Drought on Rio Grande Cutthroat Trout: The Role of Stream Flow and Temperature Global Assessment of River Fish Production and Potential Global Change Implications Developing New Strategies for Modeling and Assessing the Response of Global Inland Fisheries to Regional Changing Climate Ecological Drought: Assessing Vulnerability and Developing Solutions for People and Nature Evaluating Future Effects of Climate and Land Use on Fisheries Production in Inland Lakes Global Analysis of Trends in Projected and Documented Effects of Climate Change on Inland Fish Assessing the Science, Partner Engagement, and Information Use for Natural Resources Management - Five-year Reviews of the Climate Science Centers Producing Usable Science: Testing the Effectiveness of Stakeholder Engagement in Climate Research Providing Natural Resource Managers with Guidance on the Application of Climate Information for Decision-Making Integrating Climate Change Research and Planning to Inform Wildlife Conservation in the Boreal Forests of the Northeastern U.S. Workshops and Collaborations to Improve Biodiversity and Climate Modeling Migration Mismatch: Bird Migration and Phenological Mismatching River’s End: Mapping Patterns of Stream Drying in the Western United States The Effects of Drought on Rio Grande Cutthroat Trout: The Role of Stream Flow and Temperature Integrating Climate Change Research and Planning to Inform Wildlife Conservation in the Boreal Forests of the Northeastern U.S. Collecting and Applying Schitsu’umsh Indigenous Knowledge and Practices to Climate Change Decision Making Assessing the Impacts of Drought on Migratory Waterbirds in Key Conservation Regions of the Western U.S. USGS-USFS Partnership to Help Managers Evaluate Conservation Strategies for Aquatic Ecosystems Based on Future Climate Projections Producing Usable Science: Testing the Effectiveness of Stakeholder Engagement in Climate Research Informing and Evaluating Forest Management Strategies to Promote Drought Resistance Migration Mismatch: Bird Migration and Phenological Mismatching Evaluating Future Effects of Climate and Land Use on Fisheries Production in Inland Lakes Development of the Climate Registry for the Assessment of Vulnerability (CRAVe): A Searchable, Public Online Tool for Understanding Species and Habitat Vulnerability Ecological Drought: Assessing Vulnerability and Developing Solutions for People and Nature State of the Science on the Effects of Climate Change on North American Inland Fishes Supporting Social Scientists working with the CSCs in Data Sharing Efforts Providing Natural Resource Managers with Guidance on the Application of Climate Information for Decision-Making Assessing the Science, Partner Engagement, and Information Use for Natural Resources Management - Five-year Reviews of the Climate Science Centers Global Assessment of River Fish Production and Potential Global Change Implications Developing New Strategies for Modeling and Assessing the Response of Global Inland Fisheries to Regional Changing Climate Global Analysis of Trends in Projected and Documented Effects of Climate Change on Inland Fish Workshops and Collaborations to Improve Biodiversity and Climate Modeling