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Transactions of the American Fisheries Society Volume 127, 1998 - Issue 6
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Article

Rates of Gain and Loss of Heat Tolerance in Channel Catfish

Wayne A. Bennett University of West Florida, Department of Biology, 11000 University Parkway, Pensacola, Florida, 32514-5751, USA
,
Robert W. McCauley Wilfrid Laurier University, Department of Biology, Waterloo, Ontario, N2L 3C5, Canada
&
Thomas L. Beitinger University of North Texas, Department of Biological Sciences, Post Office Box 5218, Denton, Texas, 76203, USA
Pages 1051-1058 | Received 18 Aug 1997, Accepted 24 Mar 1998, Published online: 09 Jan 2011

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Read on this site (2)

Heather A. Stewart & Peter J. Allen. (2014) Critical Thermal Maxima of Two Geographic Strains of Channel and Hybrid Catfish. North American Journal of Aquaculture 76:2, pages 104-111.
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MichaelB. Arnold, EugeneL. Torrans & PeterJ. Allen. (2013) Influences of Cyclic, High Temperatures on Juvenile Channel Catfish Growth and Feeding. North American Journal of Aquaculture 75:1, pages 77-84.
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Articles from other publishers (22)

Madison Conte, Derek Felipe de Campos & John Eme. (2023) Effective practices for thermal tolerance polygon experiments using mottled catfish Corydoras paleatus. Journal of Thermal Biology 115, pages 103616.
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Erin M.C. Stewart, Vince R. Frasca, Chris C. Wilson & Graham D. Raby. (2023) Short-term acclimation dynamics in a coldwater fish. Journal of Thermal Biology 112, pages 103482.
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Andrea J. Morash. 2023. Reference Module in Life Sciences. Reference Module in Life Sciences.
Anurak Khieokhajonkhet, Suthipat Sangphrom, Niran Aeksiri, Pattaraporn Tatsapong, Kunlayaphat Wuthijaree & Gen Kaneko. (2022) Effects of long-term exposure to high temperature on growth performance, chemical composition, hematological and histological changes, and physiological responses in hybrid catfish [♂Clarias gariepinus (Burchell, 1822) ×♀C. macrocephalus (Günther, 1864)]. Journal of Thermal Biology 105, pages 103226.
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Matthew J.H. Gilbert, Olivia A. Adams & Anthony P. Farrell. (2022) A sudden change of heart: Warm acclimation can produce a rapid adjustment of maximum heart rate and cardiac thermal sensitivity in rainbow trout. Current Research in Physiology 5, pages 179-183.
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Anupam Pandey, Manchi Rajesh, Pratibha Baral, Debajit Sarma, Priyanka H. Tripathi, Md Shahbaz Akhtar, Alexander Ciji, Maneesh Kumar Dubey, Veena Pande, Prakash Sharma & Biju Sam Kamalam. (2021) Concurrent changes in thermal tolerance thresholds and cellular heat stress response reveals novel molecular signatures and markers of high temperature acclimation in rainbow trout. Journal of Thermal Biology 102, pages 103124.
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Brittany BardJames D. Kieffer. (2019) The effects of repeat acute thermal stress on the critical thermal maximum (CTmax) and physiology of juvenile shortnose sturgeon ( Acipenser brevirostrum ) . Canadian Journal of Zoology 97:6, pages 567-572.
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Tao Zhou, Zihao Yuan, Suxu Tan, Yulin Jin, Yujia Yang, Huitong Shi, Wenwen Wang, Donghong Niu, Lei Gao, Wansheng Jiang, Dongya Gao & Zhanjiang Liu. (2018) A Review of Molecular Responses of Catfish to Bacterial Diseases and Abiotic Stresses. Frontiers in Physiology 9.
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Alex R. Gunderson, Michael E. Dillon & Jonathon H. Stillman. (2017) Estimating the benefits of plasticity in ectotherm heat tolerance under natural thermal variability. Functional Ecology 31:8, pages 1529-1539.
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Heather A Stewart, Brian Bosworth, Lora Petrie-Hanson, James A Martin & Peter J Allen. (2015) Effects of chronic upper temperature regimes on growth of two geographical strains of channel and hybrid catfish. Aquaculture Research 46:10, pages 2407-2417.
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Nann A. Fangue, Martin A. Wunderly, Theresa F. Dabruzzi & Wayne A. Bennett. (2014) Asymmetric Thermal Acclimation Responses Allow Sheepshead Minnow Cyprinodon variegatus to Cope with Rapidly Changing Temperatures . Physiological and Biochemical Zoology 87:6, pages 805-816.
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Yueyang ZhangJames D. Kieffer. (2014) Critical thermal maximum (CT max ) and hematology of shortnose sturgeons ( Acipenser brevirostrum ) acclimated to three temperatures . Canadian Journal of Zoology 92:3, pages 215-221.
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Theresa F. Dabruzzi, Wayne A. Bennett, Jodie L. Rummer & Nann A. Fangue. (2012) Juvenile Ribbontail Stingray, Taeniura lymma (Forsskål, 1775) (Chondrichthyes, Dasyatidae), demonstrate a unique suite of physiological adaptations to survive hyperthermic nursery conditions. Hydrobiologia 701:1, pages 37-49.
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Kevin T. Bilyk & Arthur L. Devries. (2011) Heat tolerance of the secondarily temperate Antarctic notothenioid, Notothenia angustata . Antarctic Science 24:2, pages 165-172.
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Kevin T. Bilyk & Arthur L. DeVries. (2011) Heat tolerance and its plasticity in Antarctic fishes. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology 158:4, pages 382-390.
Crossref
T.L. Beitinger & W.I. Lutterschmidt. 2011. Encyclopedia of Fish Physiology. Encyclopedia of Fish Physiology 1695 1702 .
J. N. Fries & J. R. Gibson. (2010) Critical Thermal Maxima of Captive-Bred Devils River Minnows (Dionda diaboli). The Southwestern Naturalist 55:4, pages 544-550.
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B. N. Tiffany, L. A. Enzor & W. A. Bennett. (2010) Responses of skilletfish Gobiesox strumosus to high temperature and low oxygen stress . Journal of Fish Biology 76:3, pages 556-563.
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Rishikesh S. Dalvi, Asim K. Pal, Lalchand R. Tiwari, Tilak Das & Kartik Baruah. (2009) Thermal tolerance and oxygen consumption rates of the catfish Horabagrus brachysoma (Günther) acclimated to different temperatures. Aquaculture 295:1-2, pages 116-119.
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Estela Pérez, Fernando Dı́az & Sonia Espina. (2003) Thermoregulatory behavior and critical thermal limits of the angelfish Pterophyllum scalare (Lichtenstein) (Pisces: Cichlidae). Journal of Thermal Biology 28:8, pages 531-537.
Crossref
Thomas L. Beitinger, Wayne A. Bennett & Robert W. McCauley. (2000) Temperature Tolerances of North American Freshwater Fishes Exposed to Dynamic Changes in Temperature. Environmental Biology of Fishes 58:3, pages 237-275.
Crossref
Thomas L. Beitinger & Wayne A. Bennett. (2000) Quantification of the Role of Acclimation Temperature in Temperature Tolerance of Fishes. Environmental Biology of Fishes 58:3, pages 277-288.
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