Invasion risk to the United States from Arapaima spp. hinges on climate suitability
Fish in the South American genus Arapaima Müller, 1843 (hereafter referred to as arapaimas) have attracted interest for commercial aquaculture development thanks to their rapid growth rate and high market value. However, management agencies in the United States have expressed concerns about importin...
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| Published in | Aquaculture Environment Interactions Vol. 16; pp. 175 - 188 |
|---|---|
| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
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Inter-Research Science Center
13.06.2024
Inter-Research |
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| Abstract | Fish in the South American genus
Arapaima
Müller, 1843 (hereafter referred to as arapaimas) have attracted interest for commercial aquaculture development thanks to their rapid growth rate and high market value. However, management agencies in the United States have expressed concerns about importing and culturing arapaimas due to records of non-native establishment in certain other countries where arapaimas were released or escaped from captivity. We used the Freshwater Fish Injurious Species Risk Assessment Model (FISRAM) to estimate the probability that arapaimas would be injurious (able to cause harm) to native ecosystems, humans, or the economy of the contiguous United States. Risk assessment model inputs were elicited from arapaima experts around the world. Model results were sensitive to the estimation of climate suitability for arapaimas within the contiguous United States, with predicted probability of injuriousness ranging from 0.784 down to 0.321 with different climate suitability inputs. Expert assessors predicted that competition and predation on native species would be the most likely mechanism of impact and expressed a high degree of uncertainty about potential for impacts from pathogens and parasites. We concluded that due to the cold sensitivity of these tropically adapted fish, establishment within the contiguous United States would be highly restricted geographically, limiting potential impacts if introduced outside climatically suitable areas. Existing regulations already mitigate risk of escape from aquaculture in areas where establishment is plausible, but further research into arapaima parasites and pathogens would help reduce uncertainties and suggest opportunities to enhance biosecurity measures if needed. |
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| AbstractList | Fish in the South American genus Arapaima Müller, 1843 (hereafter referred to as arapaimas) have attracted interest for commercial aquaculture development thanks to their rapid growth rate and high market value. However, management agencies in the United States have expressed concerns about importing and culturing arapaimas due to records of non-native establishment in certain other countries where arapaimas were released or escaped from captivity. We used the Freshwater Fish Injurious Species Risk Assessment Model (FISRAM) to estimate the probability that arapaimas would be injurious (able to cause harm) to native ecosystems, humans, or the economy of the contiguous United States. Risk assessment model inputs were elicited from arapaima experts around the world. Model results were sensitive to the estimation of climate suitability for arapaimas within the contiguous United States, with predicted probability of injuriousness ranging from 0.784 down to 0.321 with different climate suitability inputs. Expert assessors predicted that competition and predation on native species would be the most likely mechanism of impact and expressed a high degree of uncertainty about potential for impacts from pathogens and parasites. We concluded that due to the cold sensitivity of these tropically adapted fish, establishment within the contiguous United States would be highly restricted geographically, limiting potential impacts if introduced outside climatically suitable areas. Existing regulations already mitigate risk of escape from aquaculture in areas where establishment is plausible, but further research into arapaima parasites and pathogens would help reduce uncertainties and suggest opportunities to enhance biosecurity measures if needed. Fish in the South American genus Arapaima Müller, 1843 (hereafter referred to as arapaimas) have attracted interest for commercial aquaculture development thanks to their rapid growth rate and high market value. However, management agencies in the United States have expressed concerns about importing and culturing arapaimas due to records of non-native establishment in certain other countries where arapaimas were released or escaped from captivity. We used the Freshwater Fish Injurious Species Risk Assessment Model (FISRAM) to estimate the probability that arapaimas would be injurious (able to cause harm) to native ecosystems, humans, or the economy of the contiguous United States. Risk assessment model inputs were elicited from arapaima experts around the world. Model results were sensitive to the estimation of climate suitability for arapaimas within the contiguous United States, with predicted probability of injuriousness ranging from 0.784 down to 0.321 with different climate suitability inputs. Expert assessors predicted that competition and predation on native species would be the most likely mechanism of impact and expressed a high degree of uncertainty about potential for impacts from pathogens and parasites. We concluded that due to the cold sensitivity of these tropically adapted fish, establishment within the contiguous United States would be highly restricted geographically, limiting potential impacts if introduced outside climatically suitable areas. Existing regulations already mitigate risk of escape from aquaculture in areas where establishment is plausible, but further research into arapaima parasites and pathogens would help reduce uncertainties and suggest opportunities to enhance biosecurity measures if needed. |
| Author | Stewart, D Magalhães, ALB Castello, L Doria, CRC Watson, C Patoka, J Wyman-Grothem, K Catâneo, DTBS |
| Author_xml | – sequence: 1 givenname: K surname: Wyman-Grothem fullname: Wyman-Grothem, K organization: US Fish and Wildlife Service, Fish and Aquatic Conservation Program, Bloomington, Minnesota 55437, USA – sequence: 2 givenname: L surname: Castello fullname: Castello, L organization: Department of Fish & Wildlife Conservation, Virginia Polytechnic Institute and State University, Blacksburg, Virginia 24061, USA – sequence: 3 givenname: DTBS surname: Catâneo fullname: Catâneo, DTBS organization: Graduate Program in Biodiversity and Biotechnology - BIONORTE, Ichthyology and Fisheries Laboratory, Federal University of Rondônia, Porto Velho 76801-974, Brazil – sequence: 4 givenname: CRC surname: Doria fullname: Doria, CRC organization: Graduate Program in Biodiversity and Biotechnology - BIONORTE, Ichthyology and Fisheries Laboratory, Federal University of Rondônia, Porto Velho 76801-974, Brazil – sequence: 5 givenname: ALB surname: Magalhães fullname: Magalhães, ALB organization: Graduate Program in Ecology of Tropical Biomes, Federal University of Ouro Preto, Ouro Preto, Minas Gerais 35.400-000, Brazil – sequence: 6 givenname: J surname: Patoka fullname: Patoka, J organization: Department of Zoology and Fisheries, Faculty of Agrobiology, Food and Natural Resources, Czech University of Life Sciences Prague, 165 00 Prague - Suchdol, Czech Republic, Department of Preschool & Primary Education, Faculty of Education, Jan Evangelista Purkyně University in Ústí nad Labem, Pasteurova 1, 400 96 Ústí nad Labem, Czech Republic – sequence: 7 givenname: D surname: Stewart fullname: Stewart, D organization: Department of Environmental Biology, College of Environmental Science and Forestry, State University of New York, Syracuse, New York 13210, USA – sequence: 8 givenname: C surname: Watson fullname: Watson, C organization: University of Florida/IFAS Tropical Aquaculture Laboratory, Ruskin, Florida 33570, USA |
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Arapaima
Müller, 1843 (hereafter referred to as arapaimas) have attracted interest for commercial aquaculture development... Fish in the South American genus Arapaima Müller, 1843 (hereafter referred to as arapaimas) have attracted interest for commercial aquaculture development... |
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| SubjectTerms | Aquaculture Aquaculture development Aquaculture enterprises Arapaima Biosecurity Captivity Climate Climate prediction Fish Freshwater Freshwater ecosystems Freshwater fish Freshwater fishes Growth rate Indigenous species Injury prevention Inland water environment Interspecific relationships Introduced species Market value Native organisms Parasites Pathogens Predation Risk assessment Risk reduction Sensitivity analysis Uncertainty |
| Title | Invasion risk to the United States from Arapaima spp. hinges on climate suitability |
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