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Transactions of the American Fisheries Society Volume 128, 1999 - Issue 5
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Effects of Ambient Water Quality on the Endangered Lost River Sucker in Upper Klamath Lake, Oregon

Barbara A. Martin U.S. Geological Survey, Biological Resources Division, Western Fisheries Research Center, Dixon Duty Station, 6924 Tremont Road, Dixon, California, 95620, USA
&
Michael K. Saiki U.S. Geological Survey, Biological Resources Division, Western Fisheries Research Center, Dixon Duty Station, 6924 Tremont Road, Dixon, California, 95620, USA
Pages 953-961 | Received 16 Mar 1998, Accepted 11 Nov 1998, Published online: 09 Jan 2011

Citations (14)

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Read on this site (3)

SummerM. Burdick, HeatherA. Hendrixson & ScottP. VanderKooi. (2008) Age-0 Lost River Sucker and Shortnose Sucker Nearshore Habitat Use in Upper Klamath Lake, Oregon: A Patch Occupancy Approach. Transactions of the American Fisheries Society 137:2, pages 417-430.
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MarkR. Terwilliger, DouglasF. Markle & Jacob Kann. (2003) Associations between Water Quality and Daily Growth of Juvenile Shortnose and Lost River Suckers in Upper Klamath Lake, Oregon. Transactions of the American Fisheries Society 132:4, pages 691-708.
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JosephS. Meyer & JamesA. Hansen. (2002) Subchronic Toxicity of Low Dissolved Oxygen Concentrations, Elevated pH, and Elevated Ammonia Concentrations to Lost River Suckers. Transactions of the American Fisheries Society 131:4, pages 656-666.
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Articles from other publishers (11)

Barbara A. Martin, Summer M. Burdick, Rachael K. Paul-Wilson & Ryan J. Bart. (2023) Validating a Nonlethal Method of Aging Endangered Juvenile Lost River and Shortnose Suckers. Journal of Fish and Wildlife Management 14:1, pages 121-134.
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Julie L. Day, Ron Barnes, Darrick Weissenfluh, J. Kirk Groves & Kent Russell. (2021) Successful Collection and Captive Rearing of Wild-Spawned Larval Klamath Suckers. Journal of Fish and Wildlife Management 12:1, pages 216-222.
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Summer M. Burdick, David A. Hewitt, Barbara A. Martin, Liam Schenk & Stewart A. Rounds. (2020) Effects of harmful algal blooms and associated water-quality on endangered Lost River and shortnose suckers. Harmful Algae 97, pages 101847.
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Summer M. Burdick, Danielle M. Hereford, Carla M. Conway, Nathan V. Banet, Rachel Powers, Barbara A. Martin & Diane G. Elliott. (2020) Mortality of Endangered Juvenile Lost River Suckers Associated with Cyanobacteria Blooms in Mesocosms in Upper Klamath Lake, Oregon. Transactions of the American Fisheries Society 149:3, pages 245-265.
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Michael Dettinger, Bradley Udall & Aris Georgakakos. (2015) Western water and climate change. Ecological Applications 25:8, pages 2069-2093.
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Nicole Flint, Michael R. Crossland & Richard G. Pearson. (2015) Sublethal effects of fluctuating hypoxia on juvenile tropical Australian freshwater fish. Marine and Freshwater Research 66:4, pages 293.
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Allison A. Oliver, Randy A. Dahlgren & Michael L. Deas. (2014) The upside-down river: Reservoirs, algal blooms, and tributaries affect temporal and spatial patterns in nitrogen and phosphorus in the Klamath River, USA. Journal of Hydrology 519, pages 164-176.
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James S. Kuwabara, Brent R. Topping, James L. Carter, Tamara M. Wood, Jason M. Cameron, Jessica R. Asbill‐Case & Rick A. Carlson. (2012) Changes in benthic nutrient sources within a wetland after hydrologic reconnection. Environmental Toxicology and Chemistry 31:9, pages 1995-2013.
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Nicole Flint, Richard G. Pearson & Michael R. Crossland. (2012) Use of aquatic plants to create fluctuating hypoxia in an experimental environment. Marine and Freshwater Research 63:4, pages 351.
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Josh E. Rasmussen. (2011) Status of Lost River Sucker and Shortnose Sucker. Western North American Naturalist 71:4, pages 442-455.
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Michael S. Cooperman & Douglas F. Markle. (2004) Abundance, size, and feeding success of larval shortnose suckers and Lost River suckers from different habitats of the littoral zone of Upper Klamath Lake. Environmental Biology of Fishes 71:4, pages 365-377.
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