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Significant efforts are underway to translate improved understanding of how climate change is altering ecosystems into practical actions for sustaining ecosystem functions and benefits. We explore this transition in California, where adaptation and mitigation are advancing relatively rapidly, through four case studies that span large spatial domains and encompass diverse ecological systems, institutions, ownerships, and policies. The case studies demonstrate the context specificity of societal efforts to adapt ecosystems to climate change and involve applications of diverse scientific tools (e.g., scenario analyses, downscaled climate projections, ecological and connectivity models) tailored to specific planning...
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Clouds often come in contact with vegetation (often named fogs) within a certain elevation range on Hawaiʻi’s mountains. Propelled by strong winds, cloud droplets are driven onto the stems and leaves of plants where they are deposited. Some of the water that accumulates on the plants in this way drips to the ground, adding additional water over and above the water supplied by rainfall. Prior observations show that the amount of cloud water intercepted by vegetation is substantial, but also quite variable from place to place. It is, therefore, important to create a map for the complex spatial patterns of cloud water interception (CWI) in Hawaiʻi. In this project, we proposed to create the CWI map at 0.8-km resolution...
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On Hawai‘i’s mountains, cloud droplets, propelled by strong winds, are deposited on plants, where they accumulate and drip to the ground, adding water over and above that supplied by rainfall. Prior studies show that the amount of intercepted cloud water is substantial, and variable from place to place. Estimates of the spatial patterns of cloud water interception (CWI), the fog-related effects on plants, and the contributions of fog to groundwater recharge and surface water flows are needed to better understand the water cycle and predict effects of climate change on water supply and ecosystems. We will make measurements of fog, wind, fog interception, soil moisture, and fog effects on plant water use and plant...
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Droughts in the Hawaiian Islands can enhance wildfire risk, diminish freshwater resources, and devastate threatened and endangered species on land and in nearshore ecosystems. During periods of drought, cloud-water interception, or fog drip (the process by which water droplets accumulate on the leaves and branches of plants and then drip to the ground) in Hawai‘i’s rain forests may play an important role in providing moisture for plants, reducing wildfire risk within the fog zone, and contributing to groundwater recharge (the process by which water moves downward from the surface through the ground to the groundwater table) that sustains water flow in streams during dry periods. Estimates of the changes in water...
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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 estuary’s valuable fisheries. Because the BCS was rarely used in the past, there is little science-based guidance for state agencies to consult when trying to manage these events. In light of the unprecedented increase in BCS operation, this project will conduct research to understand (1) how opening the BCS affects Lake Pontchartrain...
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Recent extreme floods on the Mississippi and Missouri Rivers have motivated decision-makers and resource managers to expaned floodplain conservation lands. Within Missouri, there are more than 85,000 acres of public conservation lands in large-river floodplains. Floodplain lands are highly dynamic and challenging to manage, particularly climatic conditions change. These lands have the potential to provide valuable ecosystem services, like wildlife habitat, nutrient processing, carbon sequestration, and flood-water storage, that produce economic values in terms of recreational spending, improved water quality, and decreased flood hazards. However, floodplain managers may need tools to help them understand changing...
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Within large-river ecosystems, floodplains serve a variety of important ecological functions. A recent survey of 80 managers of floodplain conservation lands along the Upper and Middle Mississippi and Lower Missouri Rivers in the central United States found that the most critical information needed to improve floodplain management centered on metrics for characterizing depth, extent, frequency, duration, and timing of inundation. These metrics can be delivered to managers efficiently through cloud-based interactive maps. To calculate these metrics, we interpolated an existing one-dimensional HEC-RAS hydraulic model for the Lower Missouri River, which simulated water surface elevations at cross sections spaced (<1...
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As the predicted impacts of climate change are becoming more apparent, natural resource managers are faced with the task of developing climate adaptation plans. These managers need state-of-the-art, scientifically based information upon which to base these management plans and decisions consistently across California and the Great Basin. This project applies historical, current, and projected climate data to a regional water model to examine water availability, biodiversity, and conservation. Analysis of this climate and hydrology data is expected to help managers understand areas in the region and landscape where the effects of climate change are expected to be the most profound. The study also addresses how the...
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There is a growing movement within natural resource management to view wildlife health as a cumulative outcome of many different factors, rather than simply the absence of disease. This inclusive understanding of health opens the door to management options that are more creative than traditional techniques aimed at preventing or mitigating pathogens. The public health field uses a related concept known as the “health gradient” that suggests that the ease or difficulty with which an individual successfully fends off various health hazards depends on external determinants-of-health, such as income, education, and surrounding community. This perspective facilitates a harm reduction strategy that emphasizes actions...
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The Edwards Aquifer in south-central Texas provides water resources to more than 2 million people and is home to eight federally listed threatened and endangered species that are dependent on spring flow from the aquifer for survival. Recent results from global climate models indicate that over the next several decades increases in annual average temperatures and evapotranspiration are likely in this semi-arid region. Decision makers and water resource planners need to have a robust scientific understanding of the impacts of future climate conditions on the Edwards Aquifer system to assess future management strategies needed to maintain water availability and ensure adequate spring flow for protected species....
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Salt marshes are grassy wetlands that form along sheltered coastlines. These areas provide crucial habitats for many species of birds and other animals, in addition to recreational activities and economic opportunities. Marshes also protect the coast from storms and filter runoff from the landscape, ensuring cleaner and healthier coastal waters. As climate change causes sea levels to rise salt marshes are at risk of being drowned out if they are unable to grow quickly enough to stay above the rising tides. In order to build elevation and endure sea level rise, marshes trap sediment from tidal waters, which accumulates over time to build a platform that marsh grass can grow on. Along exposed coasts, humans have...
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These files include downscaled projections of decadal average monthly snow-day fraction ("fs", units = percent probability from 1 – 100) for each month of the decades from 2010-2019 to 2090-2099 at 771 x 771 m spatial resolution. Each file represents a decadal average monthly mean. Output is available for the CCSM4, GFDL-CM3, GISS-E2-R, IPSL-CM5A-LR, and MRI-CGCM3 models and three emissions scenarios (RCP 4.5, RCP 6.0 and RCP 8.5). These snow-day fraction estimates were produced by applying equations relating decadal average monthly temperature to snow-day fraction to downscaled decadal average monthly temperature. Separate equations were used to model the relationship between decadal monthly average temperature...
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The City and Borough of Juneau, Alaska has the highest urban avalanche danger in the U.S., with regular impacts to people, property, critical infrastructure, and natural resources. Avalanche hazard zones occur over a large area extending from downtown Juneau to the Snettisham power plant 50 km to the south, the Kensington Mine 60 km to the north, and the Eaglecrest Ski area 6 km to the west. Developing a better understanding of avalanches and the processes leading to avalanche formation in the Juneau area is critical. This information would greatly aid local and regional efforts to forecast avalanches and update avalanche hazard maps, including the risk to transportation, utility, and mining corridors. An important...
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UIEF_wind Summary: Within the Flat Creek Unit of the University of Idaho Experimental Forest (UIEF) near Moscow, ID, 30-minute snow depth and meteorological data were collected at seven locations across the Lawler Landing site (elevation 880 m) from February to May of WY 2008. A 70 m north-south oriented transect of 5 snow depth sensors was deployed to record sub-daily snow depth, with co-located meteorological instruments. The sensors traversed a 40 m long elliptical forest gap and the adjacent forest in both directions. The locations were the same as those used previously to quantify how shortwave and longwave radiation vary across a forest gap [Lawler and Link, 2011]. Two additional snow depth sensors and meteorological...
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Managing water resources in arid regions is increasingly important in the face of more frequent droughts and desertification that is occurring with climate change. These challenges of climate change intersect with potential environmental contamination from naturally occurring sources and legacy human activity (such as mining) and create a need for sustainable land and water management planning solutions. This project aims to help create sustainability plans by involving and training the community and by making water resource data accessible and available. The project is a collaboration between the University of Arizona Indigenous Resilience Center, the Southwest Research Information Center, and local communities...
map background search result map search result map Using Climate and Water Models to Examine Future Water Availability and Biodiversity in California and the Great Basin Science to Inform Management of Floodplain Conservation Lands in a Changing World Cloud Water Interception in Hawai‘i - Part 1: Understanding the Impact of Fog on Groundwater and Ecosystems and Future Changes to these Processes Cloud Water Interception in Hawaiʻi - Part 2: Mapping Current and Future Exchange of Water Between Clouds and Vegetation in Hawaiʻi's Mountains Smoothed snow depth data, location, raw data with headers, and associated metadata for University of Idaho Experimental Forest Lawler Landing site Effects of Drought on Soil Moisture and Water Resources in Hawai‘i Science to Inform Management of Floodplain Conservation Lands under Non-Stationary Conditions From Public Hazard to Key Drivers of Landscape Change: Understanding the Role of Avalanches in Southeast Alaska Assessing the Impact of Changing Water Resources on Migratory Bird Health and Management in the Central Flyway Assessing Future Climate Impacts on Threatened and Endangered Groundwater Dependent Species in the Edwards Aquifer Region Using a Novel Hybrid Artificial Intelligence Framework Effects of Urban Coastal Armoring on Salt Marsh Sediment Supplies and Resilience to Climate Change A Fresh Set of Tools: New Information for Managing Fisheries During Changes in River Discharge Cultivating Water Resilience with Indigenous Peoples in Arid Lands Smoothed snow depth data, location, raw data with headers, and associated metadata for University of Idaho Experimental Forest Lawler Landing site Cultivating Water Resilience with Indigenous Peoples in Arid Lands From Public Hazard to Key Drivers of Landscape Change: Understanding the Role of Avalanches in Southeast Alaska A Fresh Set of Tools: New Information for Managing Fisheries During Changes in River Discharge Science to Inform Management of Floodplain Conservation Lands under Non-Stationary Conditions Effects of Drought on Soil Moisture and Water Resources in Hawai‘i Cloud Water Interception in Hawai‘i - Part 1: Understanding the Impact of Fog on Groundwater and Ecosystems and Future Changes to these Processes Cloud Water Interception in Hawaiʻi - Part 2: Mapping Current and Future Exchange of Water Between Clouds and Vegetation in Hawaiʻi's Mountains Effects of Urban Coastal Armoring on Salt Marsh Sediment Supplies and Resilience to Climate Change Assessing Future Climate Impacts on Threatened and Endangered Groundwater Dependent Species in the Edwards Aquifer Region Using a Novel Hybrid Artificial Intelligence Framework Science to Inform Management of Floodplain Conservation Lands in a Changing World Using Climate and Water Models to Examine Future Water Availability and Biodiversity in California and the Great Basin Assessing the Impact of Changing Water Resources on Migratory Bird Health and Management in the Central Flyway