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The Missouri River system is the life-blood of the American Midwest, providing critical water resources that drive the region’s agriculture, industry, hydroelectric power generation, and ecosystems. The basin has a long history of development and diversion of water resources, meaning that streamflow records that reflect natural, unmanaged flows over the past century have been rare. As a result, research on the complex interactions between temperature and precipitation in driving droughts and surface water variability in the Missouri River Basin has lagged behind similar work done in other major basins in the country, and has hindered drought planning efforts. To address this need, researchers will use tree-rings...
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Pinyon-juniper woodlands are a major part of western landscapes and are valued for recreational use, cultural resources, watershed protection, and wildlife habitats. These woodlands have been identified by several stakeholders, including natural resource management entities, federal and state agencies, and numerous tribal nations, as important ecosystems that are currently threatened by land treatments, changes in disturbance regimes such as drought and fire, and widespread tree mortality. Currently there exist competing objectives for the management of these systems, including the desire to preserve pinyon-juniper viability as climate conditions continue to shift, as well as the need to track these systems to ensure...
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Through its Foundational Science Area (FSA) activities, the North Central Climate Science Center (CSC) aims to provide relevant and usable climate information to decision-makers and natural resource managers, so that they can better manage their natural and cultural resources under climate change. Research to meet this objective was implemented in 2013 through three FSAs: (1) Understanding and quantifying drivers of regional climate changes; (2) connecting climate drivers to management targets; and (3) characterizing adaptive capacity of stakeholder communities and informing management options. FSA 1 focused on developing targeted climate information for the North Central region, such as changes in air temperature...
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One of the biggest challenges facing resource managers today is not knowing exactly when, where, and how climate change effects will unfold. While models can be used to predict the types of impacts that climate change might have on a landscape, uncertainty remains surrounding factors such as how quickly changes will occur and how specific resources will respond. In order to plan for this uncertain future, managers have begun to use a tool known as scenario planning. In this approach, a subset of global climate model projections are selected that represent a range of plausible future climate scenarios for a particular area. Through a series of facilitated workshops, managers can then explore different management...
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The north-central region of the U.S. has experienced a series of extreme droughts in recent years, with impacts felt across a range of sectors. For example, the impacts of a 2002 drought are estimated to have resulted in a $3 billion loss to the agricultural sector in Nebraska and South Dakota. Meanwhile, the ecological impacts of drought in the region have included increased tree mortality, surges in the outbreak of pests, and intensifying forest fires. Located within this region is the Missouri River Basin, an important agricultural production area home to approximately 12 million people, including 28 Native American tribes. Tribal governments and multiple federal agencies manage land and natural resources in...
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Changing climate conditions can make water management planning and drought preparedness decisions more complicated than ever before. Resource managers can no longer rely solely on historical data and trends to base their actions, and are in need of science that is relevant to their specific needs and can directly inform important planning decisions. Questions remain, however, regarding the most effective and efficient methods for extending scientific knowledge and products into management and decision-making. This study analyzed two unique cases of water management to better understand how science can be translated into resource management actions and decision-making. In particular, this project sought to understand...
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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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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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Hydrologic models are used throughout the world to forecast and simulate streamflow, inform water management, municipal planning, and ecosystem conservation, and investigate potential effects of climate and land-use change on hydrology. The USGS Modeling of Watershed Systems (MoWS) group is currently developing the infrastructure for a National Hydrologic Model (NHM) to support coordinated, comprehensive, and consistent hydrologic model development and application. The NHM is expected to provide internally consistent estimates of total water availability, water sources, and streamflow timing, and measures of uncertainty around these estimates, for the entire United States. VisTrails, a scientific workflow and provenance...
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Climate change is poised to alter natural systems, the frequency of extreme weather, and human health and livelihoods. In order to effectively prepare for and respond to these challenges in the north-central region of the U.S., people must have the knowledge and tools to develop plans and adaptation strategies. This project was a continuation of an effort begun in 2013 to build stakeholders’ capacity to respond to climate change in the north-central U.S. During the course of this project, researchers focused on two major activities: Tribal Capacity Building: Researchers provided tribal colleges and universities with mini-grants to develop student projects to document climate-related changes in weather and culturally...
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Southwestern Colorado is already experiencing the effects of climate change in the form of larger and more severe wildfires, prolonged drought, and earlier snowmelt. Climate scientists expect the region to experience more summer heat waves, longer-lasting and more frequent droughts, and decreased river flow in the future. These changes will ultimately impact local communities and challenge natural resource managers in allocating water under unpredictable drought conditions, preserving forests in the face of changing fire regimes, and managing threatened species under shifting ecological conditions. In light of the wide-ranging potential impacts of climate change in the region, this project sought to help decision-makers...
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The conversion of grassland to cropland in the Dakotas could imperil wildlife such as nesting waterfowl and contribute to the degradation of water quality in the Mississippi River watershed. However, high crop prices in recent years have contributed to a high rate of grassland to cropland conversion on private lands. In addition to these economic factors, changes in climate could exacerbate the challenge of protecting grasslands, as conditions may become more amenable to row crop production. The goal of this project was to work with grassland conservation managers to better target the use of funds allocated toward incentivizing grassland preservation in the Dakotas. Researchers identified the vulnerability of...
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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...
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Tribes and tribal lands in the Northern Rockies/Northern Plains region are already experiencing the effects of climate change, and tribal managers are also already responding to and preparing for the impacts of those changes. However, these managers face many challenges and obstacles to either completing and/or implementing their adaptation plans. The overall goal of this project is to provide tribal managers in this region the opportunity to share experiences, challenges, and successes with each other in order to support climate adaptation efforts. The project researchers will plan and conduct a workshop for tribes in the north central region that are in some stage of climate adaptation planning or implementation....
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In the Great Plains, climate change is expected to result in more frequent and intense droughts, severe rainfall events, and heat waves. Adapting to changing conditions will require coordination in the research and observation capabilities of multiple organizations, institutions, and government programs. In light of these needs, researchers worked with federal, state, tribal, university, and non-governmental organization partners to (1) synthesize the current state of ecosystems in the Great Plains; (2) assess the ability of human and ecological communities in the region to adapt to climate change; and (3) develop a process to improve future assessments of the vulnerability of the region’s natural and cultural resources...
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Improving the quality of habitat for western big-game species, such as elk and mule deer, was identified as a priority by the Department of the Interior in 2018. Maintaining healthy herds not only supports the ecosystems where these species are found, but also the hunting and wildlife watching communities. For example, in Wyoming, big game hunting contributed over $300 million to the state’s economy in 2015. Yet as climate conditions change, the quantity, quality, and timing of vegetation available to mule deer, elk, and other ungulates, known as forage, could shift. It’s possible that these changes could have cascading impacts on the behavior and population sizes of many species. A key strategy used by managers...
map background search result map search result map Potential Climate Impacts and Adaptation Strategies in the Great Plains Developing a VisTrails Platform for Modeling Streamflow Hydrology and Projecting Climate Change Effects on Streamflow Building Social and Ecological Resilience to Climate Change in Southwestern Colorado: Phase 1 Foundational Science Area Activities: Providing Relevant and Usable Climate Information to Resource Managers Foundational Science Area: Developing Climate Change Understanding and Resources for Adaptation in the North Central U.S. Foundational Science Area: Helping People and Nature Adapt to Climate Change in the North Central U.S. Informing the Identification of Economically Effective Targets for Grassland Conservation in the Dakotas The Wind River Indian Reservation’s Vulnerability to the Impacts of Drought and the Development of Decision Tools to Support Drought Preparedness Model-Based Scenario Planning to Inform Climate Change Adaptation in the Northern Great Plains Continued Capacity Building in the North-Central U.S.: Tribal Engagement and PhenoCam Analysis Ecology and Management of Pinyon-Juniper Woodlands: State of the Science Predicting Future Forage Conditions for Elk and Mule Deer in Montana and Wyoming Climate-Driven Shifts in Prairie Pothole Wetlands: Assessing Future Impacts to Critical Waterfowl Habitats Characterizing Historic Streamflow to Support Drought Planning in the Upper Missouri River Basin Identifying Characteristics of Actionable Science for Drought Planning and Adaptation Supporting Tribal Climate Adaptation in the Northern Rockies and Northern Plains Region Synthesizing Climate Change Impacts on Wildlife Health and Identifying Adaptation Strategies The Wind River Indian Reservation’s Vulnerability to the Impacts of Drought and the Development of Decision Tools to Support Drought Preparedness Building Social and Ecological Resilience to Climate Change in Southwestern Colorado: Phase 1 Model-Based Scenario Planning to Inform Climate Change Adaptation in the Northern Great Plains Foundational Science Area: Helping People and Nature Adapt to Climate Change in the North Central U.S. Informing the Identification of Economically Effective Targets for Grassland Conservation in the Dakotas Predicting Future Forage Conditions for Elk and Mule Deer in Montana and Wyoming Supporting Tribal Climate Adaptation in the Northern Rockies and Northern Plains Region Potential Climate Impacts and Adaptation Strategies in the Great Plains Foundational Science Area Activities: Providing Relevant and Usable Climate Information to Resource Managers Foundational Science Area: Developing Climate Change Understanding and Resources for Adaptation in the North Central U.S. Continued Capacity Building in the North-Central U.S.: Tribal Engagement and PhenoCam Analysis Identifying Characteristics of Actionable Science for Drought Planning and Adaptation Climate-Driven Shifts in Prairie Pothole Wetlands: Assessing Future Impacts to Critical Waterfowl Habitats Characterizing Historic Streamflow to Support Drought Planning in the Upper Missouri River Basin Ecology and Management of Pinyon-Juniper Woodlands: State of the Science Developing a VisTrails Platform for Modeling Streamflow Hydrology and Projecting Climate Change Effects on Streamflow Synthesizing Climate Change Impacts on Wildlife Health and Identifying Adaptation Strategies