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Rivers, Streams and Lakes

Climate change is resulting in shifts in temperature, precipitation, and seasonal streamflow regimes across North America, impacting water resources for plant, wildlife, and human communities. Learn more about what CASC scientists are doing to inform water resource and fisheries managers through the projects below.

Filter Total Items: 224

Does Less Ice Cover Lead to More Turbulent Overwinter Conditions on Great Lakes Fish Spawning Reefs?

Project Overview Declining winter ice cover in the Great Lakes can affect how winds and waves influence coldwater fish reproduction on reefs, as ice cover may shield fish from these forces. Researchers supported by this Midwest CASC project will measure water movement and ice cover in Lake Erie to model future scenarios, helping fishery managers in the region make habitat restoration and fish stoc
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Does Less Ice Cover Lead to More Turbulent Overwinter Conditions on Great Lakes Fish Spawning Reefs?

Project Overview Declining winter ice cover in the Great Lakes can affect how winds and waves influence coldwater fish reproduction on reefs, as ice cover may shield fish from these forces. Researchers supported by this Midwest CASC project will measure water movement and ice cover in Lake Erie to model future scenarios, helping fishery managers in the region make habitat restoration and fish stoc
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Ghuts, Grit, and Gills: Aquatic Data Synthesis for Climate Adaptation in the US Virgin Islands

The US Virgin Islands are vulnerable to sea level rise, intense storms, and unpredictable rainfall brought by climate change. These changes influence the health of freshwater streams (known as “ghuts”), sedimentation, erosion and water quality (“grit”), as well as aquatic communities and ecosystems (“gills”) that are unique to the islands and important for indigenous peoples’ heritage, local fishe
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Ghuts, Grit, and Gills: Aquatic Data Synthesis for Climate Adaptation in the US Virgin Islands

The US Virgin Islands are vulnerable to sea level rise, intense storms, and unpredictable rainfall brought by climate change. These changes influence the health of freshwater streams (known as “ghuts”), sedimentation, erosion and water quality (“grit”), as well as aquatic communities and ecosystems (“gills”) that are unique to the islands and important for indigenous peoples’ heritage, local fishe
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Identifying the Environmental Limits of Aquatic Species in Prairie Streams to Build Climate Resilience

Project Overview Climate change and human activities are threatening many sensitive aquatic species in prairie streams across the Great Plains region. Researchers supported by this North Central CASC project will combine and analyze data collected independently by Great Plains states to identify thresholds of environmental change that may lead to species loss and changes in aquatic communities. Th
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Identifying the Environmental Limits of Aquatic Species in Prairie Streams to Build Climate Resilience

Project Overview Climate change and human activities are threatening many sensitive aquatic species in prairie streams across the Great Plains region. Researchers supported by this North Central CASC project will combine and analyze data collected independently by Great Plains states to identify thresholds of environmental change that may lead to species loss and changes in aquatic communities. Th
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Leveraging Existing Data to Assess the Vulnerability of Native Salmonid Populations in the Greater Yellowstone Area

Project Overview: Native Yellowstone cutthroat trout and mountain whitefish in the Greater Yellowstone Ecosystem (GYA) are ecologically and socio-economically important species, but are threatened by drought, rising water temperatures, habitat loss, and non-native species. Researchers supported by this North Central CASC project will use climate data and extensive population records to assess the
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Leveraging Existing Data to Assess the Vulnerability of Native Salmonid Populations in the Greater Yellowstone Area

Project Overview: Native Yellowstone cutthroat trout and mountain whitefish in the Greater Yellowstone Ecosystem (GYA) are ecologically and socio-economically important species, but are threatened by drought, rising water temperatures, habitat loss, and non-native species. Researchers supported by this North Central CASC project will use climate data and extensive population records to assess the
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Mapping Community Experiences and Concerns Related to Drying Lakes in Arid Climates

Declining water levels in the Great Salt Lake are part of a larger trend of decreasing water availability in the Southwestern U.S. that presents significant challenges for people, animals, and ecosystems. One challenge is that as some lakes dry, newly exposed sediment containing heavy metals can become toxic dust that blows into populated areas. Increased air pollution and other effects of drying
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Mapping Community Experiences and Concerns Related to Drying Lakes in Arid Climates

Declining water levels in the Great Salt Lake are part of a larger trend of decreasing water availability in the Southwestern U.S. that presents significant challenges for people, animals, and ecosystems. One challenge is that as some lakes dry, newly exposed sediment containing heavy metals can become toxic dust that blows into populated areas. Increased air pollution and other effects of drying
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Small Prairie Stream Health Within Fort Berthold Indian Reservation

Project Overview The Fort Berthold Indian Reservation faces challenges in maintaining stream health due to recent extreme weather events, oil and gas development, and row crop expansion. Researchers supported by this North Central CASC project will assess how these changes affect stream health while providing career development for undergraduate researchers from Nueta Hidatsa Sahnish College (NHSC
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Small Prairie Stream Health Within Fort Berthold Indian Reservation

Project Overview The Fort Berthold Indian Reservation faces challenges in maintaining stream health due to recent extreme weather events, oil and gas development, and row crop expansion. Researchers supported by this North Central CASC project will assess how these changes affect stream health while providing career development for undergraduate researchers from Nueta Hidatsa Sahnish College (NHSC
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A Decision-Support Tool for Invasive Plant Management Under Fluctuating Great Lakes Water Levels

Water levels in the Great Lakes are fluctuating in ways that we have not seen in the past, with both historically low- and high-water levels occurring in the last decade. Expectations are that larger and more frequent water-level fluctuations will occur in response to climate change. The increased variability in lake levels has implications for the management of invasive plants found in the coasta
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A Decision-Support Tool for Invasive Plant Management Under Fluctuating Great Lakes Water Levels

Water levels in the Great Lakes are fluctuating in ways that we have not seen in the past, with both historically low- and high-water levels occurring in the last decade. Expectations are that larger and more frequent water-level fluctuations will occur in response to climate change. The increased variability in lake levels has implications for the management of invasive plants found in the coasta
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A Fresh Set of Tools: New Information for Managing Fisheries During Changes in River Discharge

The Bonnet Carré spillway (BCS) is a flood-control structure along the Lower Mississippi River designed to prevent flooding in the city of New Orleans by diverting excess water into the nearby Lake Pontchartrain estuary. Alarmingly, the BCS was opened as many times over the past decade (2011–2020) as it had been over the six prior decades combined (1951–2010), with devastating effects on the estua
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A Fresh Set of Tools: New Information for Managing Fisheries During Changes in River Discharge

The Bonnet Carré spillway (BCS) is a flood-control structure along the Lower Mississippi River designed to prevent flooding in the city of New Orleans by diverting excess water into the nearby Lake Pontchartrain estuary. Alarmingly, the BCS was opened as many times over the past decade (2011–2020) as it had been over the six prior decades combined (1951–2010), with devastating effects on the estua
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Climate Adaptation for Data-Limited Inland Fisheries

Inland fisheries have tremendous cultural, economic, and subsistence value. However, climate change brings new stresses to land-locked fisheries that raise novel challenges for resource managers. One fundamental challenge in inland fisheries is how to best assess and manage data-limited fisheries when resources are finite and uncertainty is pervasive. To address this challenge, we will use quantit
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Climate Adaptation for Data-Limited Inland Fisheries

Inland fisheries have tremendous cultural, economic, and subsistence value. However, climate change brings new stresses to land-locked fisheries that raise novel challenges for resource managers. One fundamental challenge in inland fisheries is how to best assess and manage data-limited fisheries when resources are finite and uncertainty is pervasive. To address this challenge, we will use quantit
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Developing a Rio Grande-Río Bravo Basin International Research Conference

Stretching almost 1,900 miles from Colorado to the Gulf of Mexico, the Rio Grande/Río Bravo Basin (RGB) supplies drinking water for more than 6 million people and irrigation for about 2 million acres of land. The river also supports habitat for many at-risk and endangered species. Because of its size and diverse ecosystem services, the RGB faces complex shared-management challenges that will requi
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Developing a Rio Grande-Río Bravo Basin International Research Conference

Stretching almost 1,900 miles from Colorado to the Gulf of Mexico, the Rio Grande/Río Bravo Basin (RGB) supplies drinking water for more than 6 million people and irrigation for about 2 million acres of land. The river also supports habitat for many at-risk and endangered species. Because of its size and diverse ecosystem services, the RGB faces complex shared-management challenges that will requi
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Forecasting the Future of Ongeim’l Tketau (Jellyfish Lake), Palau in a Changing Climate

Palau’s Jellyfish Lake, locally known as Ongeim’l Tketau (OTM), is an iconic tourism site and an important area of biodiversity. This landlocked marine lake is part of the Rock Island Southern Lagoon UNESCO World Heritage Site, representing an expression of Palauan national pride, and has brought in millions of dollars to the local Koror State economy. OTM is also home to the unique Golden jellyfi
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Forecasting the Future of Ongeim’l Tketau (Jellyfish Lake), Palau in a Changing Climate

Palau’s Jellyfish Lake, locally known as Ongeim’l Tketau (OTM), is an iconic tourism site and an important area of biodiversity. This landlocked marine lake is part of the Rock Island Southern Lagoon UNESCO World Heritage Site, representing an expression of Palauan national pride, and has brought in millions of dollars to the local Koror State economy. OTM is also home to the unique Golden jellyfi
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Groundwater and Stream Temperature Modeling to Assess the Effect of Warming Temperatures on Coldwater Fish

Cold-water fish species such as trout and salmon are highly valued components of many stream ecosystems in Michigan and the Great Lakes region and are sensitive to rising stream temperatures. For example, the timing of spawning and development rates of these species are affected by stream temperature from late fall through spring. Historically, stream temperature modeling has focused on air temper
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Groundwater and Stream Temperature Modeling to Assess the Effect of Warming Temperatures on Coldwater Fish

Cold-water fish species such as trout and salmon are highly valued components of many stream ecosystems in Michigan and the Great Lakes region and are sensitive to rising stream temperatures. For example, the timing of spawning and development rates of these species are affected by stream temperature from late fall through spring. Historically, stream temperature modeling has focused on air temper
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