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Land transformations occurring from energy development and agrarian use have altered the natural connectivity of fish communities inhabiting prairie waterways. The nation’s prairie waterways are obstructed by thousands of barriers that include road culverts, irrigation diversions, and dams. Connectivity is essential for the long term viability of aquatic species. One of the most promising adaptive management strategies for addressing impacts to aquatic systems by climate change and other landscape stressors is increasing connectivity. The purpose of this research is to characterize swimming abilities of three northern plains fish species; the sauger, the longnose dace, and the fathead minnow. The results of the...
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Streams across the world are highly fragmented due to the presence of in-stream barriers (e.g., dams and stream-road crossings), many of which restrict or block fish passage. Retrofitting or replacing these structures is a high priority for restoring habitat connectivity for native fishes and other aquatic organisms in the Pacific Northwest. The task of restoring habitat connectivity for problematic stream-road crossings is daunting given the many thousands of barriers that are present and the massive financial investments required. Further, the potential risks to road infrastructure from flooding, debris flows, and climate change will need to be addressed to ensure the best allocation of resources. In this study,...
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This report provides a final update of work performed for the period beginning December 20, 2010 and ending December 31, 2012. The report describes two umbrella projects: (1) to improve fish passage and landscape connectivity for native species and 2) to determine the thermal effects on fish species sensitive to climate change. The work was performed through a partnership led by the Western Transportation Institute at Montana State University and the Bozeman Fish Technology Center (BFTC) of the United States Fish and Wildlife Service. The report is divided into five chapters that provide details on accomplishments to meet specific objectives outlined in our proposal during the period. Several of the projects that...
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The Oregon Fish Passage Barrier Data Standard (OFPBDS) dataset contains barriers to fish passage in Oregon watercourses. Barriers include the following types of natural or artificial structures: bridges, cascades, culverts, dams, debris jams, fords, natural falls, tide gates, and weirs. The OFPBDS dataset does not include structures which are not associated with in-stream features (such as dikes, levees or berms). Barriers are structures which do, or potentially may, impede fish movement and migration. Barriers can be known to cause complete or partial blockage to fish passage, or they can be completely passable, or they may have an unknown passage status. The third publication of the OFPBDS dataset (Version 3)...
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Conservation planning aims to optimize outcomes for select species or ecosystems by directing resources toward high-return sites. The possibility that local benefits might be increased by directing resources beyond the focal area is rarely considered. We present a case study of restoring river connectivity for migratory fish of the Great Lakes Basin by removing dams and road crossings within municipal jurisdictions versus their broader watersheds. We found that greater river connectivity could often be achieved by considering both intra-jurisdictional and extra-jurisdictional barriers. Focusing on jurisdictional barriers alone generally forfeited <20 (median = 0%) of habitat gains for those who value solely habitat...
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Ecological connectivity between the Great Lakes and their tributaries is widely impaired, and many agencies and organizations are currently investing in restoring these connections to enhance target fish and wildlife populations. To assist in targeting these investments, we have been developing spatial data on the location and attributes of barriers (dams and road-stream crossings) and fish breeding habitat throughout the Great Lakes basin to analyze the optimum strategy for enhancing connectivity and restoring fish migrations. The proposed work will result in guidance for barrier restoration at scales from individual watersheds to the entire basin, refine methodologies for spatial analysis of barriers, and provide...
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Our goal was to predict road culvert passability, as defined by culvert outlet drop and outlet water velocity, for three fish swimming groups using remotely collected environmental variables that have been shown to influence the passability of road culverts.We generated four boosted regression tree models, one for road culvert outlet drop and one each for the three culvert outlet water velocities, and predicted the probability of impassable road culverts on low-order streams based on the models. Independent variables in the modelsincluded the upstream area draining to the culvert, slope at the culvert, stream segment gradient and stream reach gradient.Gradient of the stream segment was the most important predictor...
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Objectives: 1. To make in-stream structures that were placed into Muddy Creek for stream reclamation passable to fish while still maintain the purpose and function of the original structure. 2. To reconnect 50 miles of contiguous stream habitat for BLM sensitive fishes including the Colorado River cutthroat troat, bluehead sucker, flannelmouth sucker, and roundtail chub. Background: Muddy Creek is the only system in Wyoming where viable populations of BLM sensitive Colorado River cutthroat trout, bluehead sucker, flannelmouth sucker, and roundtail chub coexist. Bluehead sucker, flannelmouth sucker, and roundtail chub populations have declined by about 50% range-wide and although Muddy Creek has the largest population...
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Ecological connectivity between the Great Lakes and their tributaries is widely impaired, and many agencies and organizations are currently investing in restoring these connections to enhance target fish and wildlife populations. To assist in targeting these investments, we have been developing spatial data on the location and attributes of barriers (dams and road-stream crossings) and fish breeding habitat throughout the Great Lakes basin to analyze the optimum strategy for enhancing connectivity and restoring fish migrations. The proposed work will result in guidance for barrier restoration at scales from individual watersheds to the entire basin, refine methodologies for spatial analysis of barriers, and provide...
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A key challenge in aquatic restoration efforts is documenting locations where ecological connectivity is disrupted in water bodies that are dammed or crossed by roads (road crossings). To prioritize actions aimed at restoring connectivity, we argue that there is a need for systematic inventories of these potential barriers at regional and national scales. Here, we address this limitation for the North American Great Lakes basin by compiling the best available spatial data on the locations of dams and road crossings. Our spatial database documents 38 times as many road crossings as dams in the Great Lakes basin, and case studies indicate that, on average, only 36% of road crossings in the area are fully passable...
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Migration barriers and resulting habitat fragmentation are a major conservationconcern for freshwater fishes. Characterizing the swimming abilities of fish is vital forfishway design and identifying potential movement barriers. The objective of this studywas to assess the swimming performance of two of the most widely distributed prairiefishes, the large-bodied, large river sauger Sander Canadensis, and the small-bodied,small stream longnose dace Rhinichthys cataractae. Swimming performance for bothspecies was assessed using a variety of metrics (passage success, maximum ascentdistance, maximum sprint speed) in an open channel flume over a range of velocities(sauger, 51, 80, 93 cm/; dace, 39, 64, 78, and 90 cm/s),...
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In many large ecosystems, conservation projects are selected by a diverse set of actors operating independently at spatial scales ranging from local to international. Although small-scale decision making can leverage local expert knowledge, it also may be an inefficient means of achieving large-scale objectives if piecemeal efforts are poorly coordinated. Here, we assess the value of coordinating efforts in both space and time to maximize the restoration of aquatic ecosystem connectivity. Habitat fragmentation is a leading driver of declining biodiversity and ecosystem services in rivers worldwide, and we simultaneously evaluate optimal barrier removal strategies for 661 tributary rivers of the Laurentian Great...
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Due to anthropogenic activities and large stochastic events within the drainage, Gooseberry Creek no longer has a population of CRC above a man made Gabion structure. Gooseberry Creek is a small tributary and cannot support a large population of CRC to persist without connectivity to Trout Creek and Sage Creek. When passage is provided through the structures, approximately 1.5 miles of Gooseberry Creek will be available for CRC and other native fish for spawning, rearing and other life history needs. This project is part of an ongoing effort to improve aquatic and riparian habitat within the Greater Little Mountain area to increase the range of the native Colorado River cutthroat (CRC) trout. The Gooseberry Fish...
    map background search result map search result map Oregon Fish Passage Barriers Re-establishing ecological connectivity between the Great Lakes and their tributaries: Prioritization in a complex system Muddy Creek Sheet Piling Modification Gooseberry Creek Fish Passage Project Maintaining migratory pathways of imperiled Large River and Small Stream Fishes in the Face of Climate Change and Energy Development Where the Stream Meets the Road: Prioritizing Culvert Replacement for Fish Passage - Thesis Book Chapter 12: Conservation of Migratory Fishes in Freshwater Ecosystems Publication: Restoring aquatic ecosystem connectivity requires expanding inventories of both dams and road crossings Publication: Predicting road culvert passability for migratory fishes Publication: Local-Scale Benefits of River Connectivity Restoration Planning Beyond Jurisdictional Boundaries Publication: Enhancing ecosystem restoration efficiency through spatial and temporal coordination Fish Passage in Plains and Prairie Waterways report Relationships among swimming performance, behavior, water velocity, temperature, and body size for Sager and longnose dace Gooseberry Creek Fish Passage Project Where the Stream Meets the Road: Prioritizing Culvert Replacement for Fish Passage - Thesis Muddy Creek Sheet Piling Modification Oregon Fish Passage Barriers Maintaining migratory pathways of imperiled Large River and Small Stream Fishes in the Face of Climate Change and Energy Development Fish Passage in Plains and Prairie Waterways report Relationships among swimming performance, behavior, water velocity, temperature, and body size for Sager and longnose dace Re-establishing ecological connectivity between the Great Lakes and their tributaries: Prioritization in a complex system Book Chapter 12: Conservation of Migratory Fishes in Freshwater Ecosystems Publication: Restoring aquatic ecosystem connectivity requires expanding inventories of both dams and road crossings Publication: Predicting road culvert passability for migratory fishes Publication: Local-Scale Benefits of River Connectivity Restoration Planning Beyond Jurisdictional Boundaries Publication: Enhancing ecosystem restoration efficiency through spatial and temporal coordination