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Scientists, planners, policy makers and other decision-makers in the South Central U.S. want to understand the potential impacts of changes in climate, precipitation, and land-use patterns on natural and cultural resources. Though the potential impacts of climate change can be modeled to help decision-makers plan for future conditions, these models rarely incorporate changes in land-use that may occur. Climate change and land-use change are often linked, as shifts in precipitation and temperature can alter patterns in human land-use activities, such as agriculture. This project sought to address this gap by developing new software tools that enable stakeholders to quickly develop custom, climate-sensitive land-use...
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Pollinator restoration requires information about what species to plant and when to plant them to ensure food sources are available throughout the periods when pollinators are active. Changes in climate, including earlier spring warming and warmer fall temperatures, may cause flowering to become out of sync with pollinator activity. When restoring land to support pollinators, managers are challenged to select a mix of species that support pollinators of concern throughout their periods of activity. Existing planting tools have several disadvantages such as, their usability is location specific, they are virtually non-existent for the South Central region, and they do not often account for future changes in plant...
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In the Western U.S., approximately 65% of the water supply comes from forested regions with most of the water that feeds local rivers coming from snowmelt that originates in mountain forests. The Rio Grande headwaters (I.e. the primary water generating region of the Rio Grande river) is experiencing large changes to the landscape primarily from forest fires and bark beetle infestations. Already, 85% of the coniferous forests in this region have been affected by the bark beetle, and projections indicate greater changes will occur as temperatures increase. In this area, most of the precipitation falls as snow in the winter, reaches a maximum depth in the late spring, and melts away due to warmer temperatures by early...
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Wildfire, drought, and insects are reshaping forests in the Western United States in a manner that is being exacerbated by warming temperatures. Disturbance events such as these can significantly alter the amount of land that is covered by forest in an area or region. Consequently, changes in forest cover from disturbance can impact water runoff conditions leading to dangerous flooding, erosion, and water quality issues. These events can be costly for society. In response, many land managers are using forest thinning and prescribed burning practices to reduce disturbance impacts, especially those that are caused by high-severity wildfire. In contrast to the wealth of research on the advantages of forest thinning...
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The South Central Climate Adaptation Science Center (CASC) has several Communities of Practice (CoPs) focused on resource manager needs across the region (e.g. understanding at-risk species and ecosystems, building resilient coastal ecosystems, extreme weather and climate change, etc.). Each CoP has expertise in the subject matter and has been working on projects that are relevant to the resource community, including conducting literature reviews and small-scale pilot projects. The current research project will leverage the expertise of the existing CoPs to enhance the content available through the Conservation and Adaptation Resources Toolbox (CART) as identified through the partnership between the South Central...
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Drought is a common consequence of climate variability in the south-central U.S., but they are expected to occur more often and become more intense with climate change. Natural resource managers can improve their planning efforts with advance warnings of impending drought. Using input from resource managers in the Chickasaw Nation, this research team previously created models that forecast droughts up to 18 months in advance with information about their expected timing and intensity. Developed for all climate divisions in Louisiana, New Mexico, Oklahoma, and Texas, these drought models rely on input from predictor variables associated with global weather patterns like El Niño and La Niña. However, it is unclear...
These videos were recorded as part of an online interactive course titled "Managing for a Changing Climate", offered by the University of Oklahoma. The course is free and available worldwide for anyone with an internet connection through the Janux platform. Course content and assignments provide students with an integrative understanding of the climate system, the role of natural variability in the climate system, external drivers of climate change, and the implications of climactic shifts for natural and cultural resources. Resources managers, tribal environmental professionals, staff and students at other Climate Science Centers and Landscape Conservation Cooperatives, and members of the general public can participate...
Climate, sea level rise, and urbanization are undergoing unprecedented levels of combined change and are expected to have large effects on natural resources—particularly along the Gulf of Mexico coastline (Gulf Coast). Management decisions to address these effects (i.e., adaptation) require an understanding of the relative vulnerability of various resources to these stressors. To meet this need, the four Landscape Conservation Cooperatives along the Gulf partnered with the Gulf of Mexico Alliance to conduct this Gulf Coast Vulnerability Assessment (GCVA). Vulnerability in this context incorporates the aspects of exposure and sensitivity to threats, coupled with the adaptive capacity to mitigate those threats. Potential...
The Gulf Coast Vulnerability Assessment (GCVA or “Assessment”) is a collaborative effort to evaluate the vulnerability of four key ecosystems and eleven associated species to the effects of climate change, sea level rise, and land use change across the U.S. portion of the Gulf of Mexico. It is designed to inform land managers, researchers, and decision makers about the relative vulnerability across individual species and ecosystems and how that vulnerability varies spatially across the Gulf region for each. The GCVA is a qualitative assessment that compiles the expert opinions of managers, scientists, administrators, and others. The results presented herein represent informed opinions of the experts engaged, and...
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Climate projections for the southern Great Plains, and elsewhere in the U.S., indicate that a hotter future with changes in precipitation amount and seasonality is to be expected. As plants become stressed from these changes, wildfire risk increases. One of the most valuable approaches to reducing the impacts of wildfires is fuel reduction through prescribed burns. Fuel reduction helps minimize the destruction of ecological communities, threats of future flooding, and extensive damages by lessening the intensity of future wildfires. Although safe burning practices can largely minimize the risks, prescribed burns may bring some degree of concern among practitioners. The real and perceived risks may include bodily...
This project consisted of two principal components: (1) A climatological analysis of burn conditions (2) A forum to discuss fire risk and management practices The climatological study included seasonality and inter-annual variability and potential changes due to increasing temperatures. The regional forum engaged stakeholders in a discussion of the use of prescribed fire in a safe and effective manner.
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Many shorebirds and nearshore waterbirds are of conservation concern across the Gulf of Mexico due to stressors such as human disturbance, predation, and habitat loss and degradation. Conservation and protection of these birds is important for the functioning of healthy ecosystems and for maintaining biodiversity in North America. Consequently, resource managers along the gulf need decision-aiding tools that can efficiently help to answer important conservation questions for different species (e.g. which areas and how much area should be targeted by management actions to meet a particular species’ needs). To address this need, project researchers are developing statistical models that will help identify habitat...
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Water management in the middle portion of the Rio Grande Basin (between Elephant Butte Reservoir in New Mexico and Presidio, Texas) is challenging because water demand has continued to increase over time despite limited river water and dropping groundwater levels. While urban and agricultural users can cope with frequent droughts by using a combination of river water and pumping groundwater, little to no water reaches living river ecosystems in this region. Improving this situation requires a good understanding of river water and groundwater availability, now and in the future, as well as advantages and disadvantages of water management options to sustain these ecosystems. In particular, there is a need to determine...
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USFWS Landscape Conservation Cooperatives (LCCs) throughout the Mississippi River Basin (MRB) have identified high nutrient runoff, a major contributor to Gulf hypoxia, and declines in wildlife populations (especially grassland and riparian birds), as conservation challenges requiring collaborative action. This project aimed to develop a spatial decision support system (DSS) to address these issues. The DSS was designed to identify MRB watersheds where application of conservation practices can (1) reduce nutrient export to the Gulf hypoxia zone and (2) enhance conservation for grassland and riparian birds, based on (3) identifying landowners willing and capable of implementing these practices. The DSS is expected...
Categories: Project; Types: Map Service, OGC WFS Layer, OGC WMS Layer, OGC WMS Service; Tags: 2014, Bird Conservation, Birds, Birds, Birds, All tags...
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Developing novel solutions to complex problems demands innovative approaches that are inclusive of diverse perspectives from both scientific experts and stakeholders. Across networked communities, like the South Central Climate Adaptation Science Center (CASC), it can sometimes be challenging to identify and build collaborations among researchers from different disciplines. Particularly at times like the present, during a global pandemic and recovery from its impact, a means to support a diverse, integrated and engaged network is essential for producing innovative outcomes for complex problems relevant to our changing climate. One method to foster more engaged networks is through the use of Exaptive’s Cognitive...
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Characterized by their extreme size, intensity, and severity, megafires are the most destructive, dangerous, and costly wildfires in the U.S. Over the past two decades, megafires have become more frequent in Oklahoma and Texas along with increasing extreme weather events and changes to fuel types caused by woody plant encroachment into grasslands. As climate change and woody plant encroachment are expected to continue or even accelerate, it is important to evaluate megafire risks and locate high-risk areas. This project will develop a new Megafire Risk Evaluation System (MERES) and make future projections of megafire probability in Oklahoma and Texas from 2024 to 2100. Outcomes and products from this project will...
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The Science Issue and Relevance: Coastal wetlands are some of the most productive and valuable habitats in the world. Louisiana contains 40% of the United States’ coastal wetlands, which provide critical habitat for waterfowl and fisheries, as well as many other benefits, such as storm surge protection for coastal communities. In terms of ecosystem services, biological resource production, and infrastructure investments, the value of Louisiana’s coastal wetlands exceeds $100 billion. Thus, stakeholders are gravely concerned about sea-level rise which is causing coastal marsh habitat to convert to open water and resulting in the highest rates of wetland loss in the world, with nearly 1.2 million acres lost since...
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The Rio Grande cutthroat trout is New Mexico’s state fish; but habitat loss and non-native trout invasions threaten the persistence of this fish throughout the remaining 12% of its historic range. Stakeholders, including state agencies, federal agencies, Tribal nations, Pueblos, and private groups are particularly concerned about the impact that non-native brown trout have on native cutthroat trout. This project will be the first to demonstrate how non-native brown trout negatively affect Rio Grande cutthroat trout populations. The project has two primary objectives: 1) compare the health and characteristics of native Rio Grande Cutthroat Trout in areas both with and without invasive brown trout in cold and warm...
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The Ogallala Aquifer lies beneath 111 million acres of land in Wyoming, South Dakota, Nebraska, Kansas, Colorado, Oklahoma, Texas, and New Mexico. The aquifer provides water for approximately 1.9 million people and has been instrumental in the development of the robust agriculture economy of the Great Plains region. It is also vitally important to the ecology of the region, serving as a critical source of groundwater and sustaining creeks and streams that would otherwise run dry during periods of water scarcity. However, the various social, economic, and ecological challenges of managing this aquifer are expected to increase with climate change as hotter, drier summers exacerbate already unsustainable water demands....
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The Rio Grande River is a critical source of freshwater for 13 million people in Colorado, Texas, New Mexico, and Mexico. More than half of the Rio Grande’s streamflow originates as snowmelt in Colorado’s mountains, meaning that changes in the amount of snowmelt can impact the water supply for communities along the entire river. Snowmelt runoff is therefore an important component of water supply outlooks for the region, which are used by a variety of stakeholders to anticipate water availability in the springtime. It is critical that these water supply outlooks be as accurate as possible. Errors can cost states millions of dollars due to mis-allocation of water and lost agricultural productivity. There is a perception...
map background search result map search result map Science to Assess Future Conservation Practices for the Mississippi River Basin Developing Tools for Improved Water Supply Forecasting in the Rio Grande Headwaters Building a Decision-Support Tool for Assessing the Impacts of Climate and Land Use Change on Ecological Processes Identifying Conservation Objectives for the Gulf Coast Habitats of the Black Skimmer and Gull-billed Tern Susceptibility of Rio Grande Cutthroat Trout to Displacement by Non-Native Brown Trout and Implications for Future Management Understanding New Paradigms for “Environmental Flows” and Water Allocation in the Middle Rio Grande River Basin in a Changing Climate Organizing and Synthesizing Ogallala Aquifer Data to Facilitate Research and Resource Management Optimizing Data and Discovery Knowledge Transfer Across Researchers and Stakeholders Using Innovative Technology (“Cognitive Cities”) Understanding Impacts of Sea-Level Rise and Land Management on Critical Coastal Marsh Habitat Estimating the Future Effects of Forest Disturbance on Snow Water Resources in a Changing Environment Time to Restore: Using a Community Based Approach to Identify Key Plant Species for Pollinator Restoration Future of Fire in the South Central: Towards a National Synthesis of Wildland Fire Under a Changing Climate The Role of Forest Structure in Regulating Water Availability and Implications for Natural Resources and Ecosystem Function Expanding the Conservation and Adaptation Resources Toolbox (CART) to the South Central United States Megafire Risk Evaluation System (MERES) for the Southern Great Plains Improving Predictive Drought Models with Sensitivity Analysis Developing Tools for Improved Water Supply Forecasting in the Rio Grande Headwaters Estimating the Future Effects of Forest Disturbance on Snow Water Resources in a Changing Environment Understanding Impacts of Sea-Level Rise and Land Management on Critical Coastal Marsh Habitat Understanding New Paradigms for “Environmental Flows” and Water Allocation in the Middle Rio Grande River Basin in a Changing Climate Improving Predictive Drought Models with Sensitivity Analysis The Role of Forest Structure in Regulating Water Availability and Implications for Natural Resources and Ecosystem Function Identifying Conservation Objectives for the Gulf Coast Habitats of the Black Skimmer and Gull-billed Tern Megafire Risk Evaluation System (MERES) for the Southern Great Plains Susceptibility of Rio Grande Cutthroat Trout to Displacement by Non-Native Brown Trout and Implications for Future Management Building a Decision-Support Tool for Assessing the Impacts of Climate and Land Use Change on Ecological Processes Future of Fire in the South Central: Towards a National Synthesis of Wildland Fire Under a Changing Climate Optimizing Data and Discovery Knowledge Transfer Across Researchers and Stakeholders Using Innovative Technology (“Cognitive Cities”) Time to Restore: Using a Community Based Approach to Identify Key Plant Species for Pollinator Restoration Expanding the Conservation and Adaptation Resources Toolbox (CART) to the South Central United States Organizing and Synthesizing Ogallala Aquifer Data to Facilitate Research and Resource Management Science to Assess Future Conservation Practices for the Mississippi River Basin