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This project facilitated the engagement of the North Central Climate Adaptation Science Center’s (NC CASC) Climate Foundational Science Area (FSA) to identify and address the physical climate science challenges that are important for ecologists and natural resource managers in the NC CASC region, as well as meet their needs for climate information to assess impacts to their desired system and develop strategies for effective climate adaptation. A drought index called the Landscape Evaporative Response Index (LERI) was developed to provide a near real-time assessment of soil moisture conditions across the Contiguous United States (CONUS) based on satellite observations. This projects also supported development of...
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Managers already face uncertainty when making decisions about how to best manage natural resources. Now, climate change is adding an additional level of complexity to resource management decisions. Understanding the ability of human and ecological communities to adapt to changing conditions (known as their adaptive capacity) is an integral component of effective management planning in the face of climate change. So too is identifying ways in which managers can better incorporate information on climate and the vulnerability of resources into their decision-making. This project sought to improve decision-making in the North Central region by developing an approach to managing natural resources that acknowledges...
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Tribal nations are priority science partners of the North Central Climate Adaptation Science Center (NC CASC) and the center is committed to working with Tribal partners to create usable, and relevant science to build resilience to anthropogenic climate change. The NC CASC recognizes the importance and value of Indigenous Knowledges in addressing environmental challenges and any tribal projects funded through NC CASC follow the Guidelines for Considering Indigenous Knowledges in Climate Change Initiatives to ensure data sovereignty and best practices for working with sovereign Tribal Nations. To better understand, support, and facilitate climate resilience in Tribal communities, the NC CASC co-hosts a regional...
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The Bureau of Land Management (BLM) manages the largest area of public lands in the United States. Decision-making on BLM lands is complex because managers have to balance diverse, sometimes conflicting, resources, uses, and values. Land managers are more likely to achieve long-term land management goals and balance multiple desired uses and values across public landscapes when their decisions are informed by the best available science, including climate science. Strengthening the use of science and climate information in federal decision making is a priority for the current administration and for federal agencies, including the BLM. The Climate Adaptation Science Centers are committed to developing climate science...
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In the North Central U.S., drought is a dominant driver of ecological, economic, and social stress. Drought conditions have occurred in the region due to lower precipitation, extended periods of high temperatures and evaporative demand, or a combination of these factors. This project aimed to improve our understanding of drought in the North Central region and determine what future droughts might look like over the 21st century, as climate conditions change. Researchers evaluated, with the intent to improve, available and emerging data on climate conditions that influence drought (such as changes in temperature, precipitation, evaporative demand, snow and soil moisture), as well as datasets related to the surface...
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The North American Prairie Pothole Region (PPR) is an expansive region that covers parts of five Midwestern states and three Canadian provinces. This region contains millions of wetlands in which waterfowl breed and from which 50-80% of the continent's migratory ducks originate each year. Previous modeling efforts indicated that climate change would result in a shift of suitable waterfowl breeding habitat from the central PPR to the southeastern portion of the region, an area where the majority of wetlands have been drained. If this future scenario were to materialize, a significant restoration effort would be needed in the southeastern PPR to support waterfowl production. However, more recent research has revealed...
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Even when faced with uncertainty about future climate conditions, resource managers are tasked with making planning and adaptation decisions that impact important natural and cultural resources. Species distribution models are widely used by both researchers and managers to estimate species responses to climate change. These models combine data on environmental variables (e.g., temperature, precipitation) with field samples of a species’ presence, absence, and/or abundance to project and visualize potential habitat of the species across space and time. However, species distribution modeling software previously developed and supported by USGS (the Software for Assisted Habitat Modeling [SAHM] package for VisTrails)...
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Land and water managers often rely on hydrological models to make informed management decisions. Understanding water availability in streams, rivers, and reservoirs during high demand periods that coincide with seasonal low flows can affect how water managers plan for its distribution for human consumption while sustaining aquatic ecosystems. Substantial advancement in hydrological modeling has occurred in the last several decades resulting in models that range widely in complexity and outputs. However, managers can still struggle to make informed decisions with these models for a variety of reasons, including misalignments between model outputs and the specific decision they are intended to inform, limitations...
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The Wind River Indian Reservation in west-central Wyoming is home to the Eastern Shoshone and Northern Arapaho tribes, who reside near and depend on water from the streams that feed into the Wind River. In recent years, however, the region has experienced frequent severe droughts, which have impacted tribal livelihoods and cultural activities. Scientists with the North Central Climate Science Center at Colorado State University, the National Drought Mitigation Center at the University of Nebraska-Lincoln, and several other university and agency partners are working closely with tribal water managers to assess how drought affects the reservation, integrating social, ecological, and hydro-climatological sciences...
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Colorado State University organized and hosted a workshop aimed at developing an information technology framework for data integration related to climate change impacts on ecosystems and landscape conservation. The workshop included key federal and state agency partners, tribal governments, and universities. The objective of the workshop was to develop an information technology strategy to handle the various data, information, and computational services which the eight regional DOI Climate Science Centers will be responsible for delivering to stakeholders. Issues covered during the workshop included distributed computing and data storage; information security issues across federal, state, university, and public...
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The long-term success of management efforts in sagebrush habitats are increasingly complicated by the impacts of a changing climate throughout the western United States. These complications are most evident in the ongoing challenges of drought and altered rangeland fire regimes resulting from the establishment of nonnative annual grasses. The Integrated Rangeland Fire Management Strategy recognized these growing threats to sagebrush habitat and initiated the development of an Actionable Science Plan to help the scientific and management communities address the highest priority science needs to help improve rangeland management efficacy in the West. Since the establishment of the original Integrated Rangeland Fire...
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Changing climate conditions could have significant impacts on wildlife health. Shifts in temperature and precipitation may directly affect the occurrence of disease in fish and wildlife by altering their interactions with pathogens (such as the bacterium that causes Lyme disease), helping vectors like mosquitoes and ticks expand their range, or speeding up the time it takes for a parasite to develop from an egg to an adult. Climate change can also indirectly affect the health of fish and wildlife as their habitats change. For example, reduced food availability could lead to overcrowding and increased disease transmission, or warmer temperatures might increase stress levels, weakening immune systems and making animals...
The HPRCC has an established partnership with the North Central Climate Science Center (NC CSC) and has enjoyed collaborating on regional projects since its inception. Housed at Colorado State University in Fort Collins, the NC CSC is one of eight such centers that were established in 2010 within the U.S. Department of the Interior. The mission of the Climate Science Centers is to help meet the changing needs of land and resource managers across the U.S. (For more information on the Climate Science Centers, please visit: https://www.doi.gov/csc/about.) The NC CSC collaborates with a consortium of nine institutions that provide expertise in climate science and sectors impacted by climate. The University of Nebraska-Lincoln,...
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Fragmentation extent of six ecosystem types after European Settlement was analyzed using LANDFIRE data. The ecosystem types includes: Grassland, Shrubland, Conifer, Riparian, Hardwood and Sparse ecosystems. The land use change and fragmentation extents have been analyzed by delineating nine Greater Wildland Ecosystems (GWEs) across NCCSC.
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This dataset provides downscaled climate projections at 800m spatial resolution for nine ecologically-relevant climate variables for the north central US region between 35.5N-49N latitude and 88W-118W longitude from the National Center of Atmospheric Research (USA) model, CCSM4, simulations (r6i1p1) from two emissions scenarios (RCP 4.5 and 8.5), which are downscaled using the Multivariate Adaptive Constructed Analog (MACA) method. These projections are available as five different (approximately) 30-year climate normals between 1950 and 2099 as monthly values, except for Aridity Index which are annual values. The five periods for which these climate normals are provided are 1950-1979 and 1980-2005 in the historic,...
Abstract (from http://www.aimspress.com/article/10.3934/environsci.2015.2.400): State-and-transition simulation models (STSMs) are known for their ability to explore the combined effects of multiple disturbances, ecological dynamics, and management actions on vegetation. However, integrating the additional impacts of climate change into STSMs remains a challenge. We address this challenge by combining an STSM with species distribution modeling (SDM). SDMs estimate the probability of occurrence of a given species based on observed presence and absence locations as well as environmental and climatic covariates. Thus, in order to account for changes in habitat suitability due to climate change, we used SDM to generate...
The North Central Climate Science Center (NC CSC) funded research activities in order to provide pertinent climate information to natural resource managers in our region to evaluate impacts of climatic changes and to develop strategies to respond to changes affecting their natural and cultural resources. These funded activities provided improved climate data sets, such as the high resolution temperature dataset, derived data from the latest international climate projections. The NC CSC used this information and additional climate information to evaluate and assess impacts on ecosystem and natural resources. This information was generated in partnership with National Park Service managers, Native American leaders,...
Abstract (from http://onlinelibrary.wiley.com/doi/10.1002/ecs2.1590/full): Ecohydrological responses to climate change will exhibit spatial variability and understanding the spatial pattern of ecological impacts is critical from a land management perspective. To quantify climate change impacts on spatial patterns of ecohydrology across shrub steppe ecosystems in North America, we asked the following question: How will climate change impacts on ecohydrology differ in magnitude and variability across climatic gradients, among three big sagebrush ecosystems (SB-Shrubland, SB-Steppe, SB-Montane), and among Sage-grouse Management Zones? We explored these potential changes for mid-century for RCP8.5 using a process-based...
map background search result map search result map Data Integration for Landscape Conservation Workshop Incorporating Adaptive Capacity into Decision-Making in the North Central U.S. Foundational Science Area: Developing Climate Change Understanding and Resources for Adaptation in the North Central U.S. The Wind River Indian Reservation’s Vulnerability to the Impacts of Drought and the Development of Decision Tools to Support Drought Preparedness CCSM4: Downscaled climate projections at 800m spatial resolution for the north central United States based on the Multivariate Adaptive Constructed Analog (MACA) method Land use change and fragmentation of Yellowstone Greater Wildland Ecosystems (GWE) using LANDFIRE data Climate-Driven Shifts in Prairie Pothole Wetlands: Assessing Future Impacts to Critical Waterfowl Habitats Synthesizing Climate Change Impacts on Wildlife Health and Identifying Adaptation Strategies Support for Tribal Partners Developing A New Software Package to Enhance Species Distribution Model Functionality State of the Science in Streamflow Modeling in the North Central Region to Address Partner Needs for Water Availability Under Drought Conditions Providing a Climate Science Foundation for Updating the Integrated Rangeland Fire Management Strategy Actionable Science Plan Short Science Syntheses and NEPA Analyses for Climate-Informed Land Management Decisions in Sagebrush Rangelands The Wind River Indian Reservation’s Vulnerability to the Impacts of Drought and the Development of Decision Tools to Support Drought Preparedness State of the Science in Streamflow Modeling in the North Central Region to Address Partner Needs for Water Availability Under Drought Conditions Land use change and fragmentation of Yellowstone Greater Wildland Ecosystems (GWE) using LANDFIRE data Data Integration for Landscape Conservation Workshop Incorporating Adaptive Capacity into Decision-Making in the North Central U.S. Foundational Science Area: Developing Climate Change Understanding and Resources for Adaptation in the North Central U.S. Support for Tribal Partners Developing A New Software Package to Enhance Species Distribution Model Functionality Climate-Driven Shifts in Prairie Pothole Wetlands: Assessing Future Impacts to Critical Waterfowl Habitats Providing a Climate Science Foundation for Updating the Integrated Rangeland Fire Management Strategy Actionable Science Plan CCSM4: Downscaled climate projections at 800m spatial resolution for the north central United States based on the Multivariate Adaptive Constructed Analog (MACA) method Short Science Syntheses and NEPA Analyses for Climate-Informed Land Management Decisions in Sagebrush Rangelands Synthesizing Climate Change Impacts on Wildlife Health and Identifying Adaptation Strategies