Impacts of seasonal temperatures, ocean warming and marine heatwaves on the nutritional quality of eastern school prawns (Metapenaeus macleayi)

Ocean warming and marine heatwaves significantly alter environmental conditions in marine and estuarine environments. Despite their potential global importance for nutrient security and human health, it is not well understood how thermal impacts could alter the nutritional quality of harvested marin...

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Veröffentlicht in:	The Science of the total environment 2023-06, Vol.876, p.162778-162778, Article 162778
Hauptverfasser:	Shalders, Tanika C., Champion, Curtis, Coleman, Melinda A., Butcherine, Peter, Broadhurst, Matt K., Mead, Bryan, Benkendorff, Kirsten
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Sprache:	eng
Schlagworte:	Animals Climate Change Ecosystem Fatty Acids Global Warming Humans Lipidomics Metabolomics Nutrients Nutritive Value Oceans and Seas Penaeid Penaeidae Schools Seafood quality Seasons Seawater Temperature
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creator	Shalders, Tanika C. Champion, Curtis Coleman, Melinda A. Butcherine, Peter Broadhurst, Matt K. Mead, Bryan Benkendorff, Kirsten
description	Ocean warming and marine heatwaves significantly alter environmental conditions in marine and estuarine environments. Despite their potential global importance for nutrient security and human health, it is not well understood how thermal impacts could alter the nutritional quality of harvested marine resources. We tested whether short-term experimental exposure to seasonal temperatures, projected ocean-warming temperatures, and marine heatwaves affected the nutritional quality of the eastern school prawn (Metapenaeus macleayi). In addition, we tested whether nutritional quality was affected by the duration of exposure to warm temperatures. We show the nutritional quality of M. macleayi is likely to be resilient to short- (28 d), but not longer-term (56 d) exposure to warming temperatures. The proximate, fatty acid and metabolite compositions of M. macleayi were unchanged after 28 d exposure to simulated ocean warming and marine heatwaves. The ocean-warming scenario did, however, show potential for elevated sulphur, iron and silver levels after 28 d. Decreasing saturation of fatty acids in M. macleayi after 28 d exposure to cooler temperatures indicates homeoviscous adaptation to seasonal changes. We found that 11 % of measured response variables were significantly different between 28 and 56 d when exposed to the same treatment, indicating the duration of exposure time and time of sampling are critical when measuring this species' nutritional response. Further, we found that future acute warming events could reduce harvestable biomass, despite survivors retaining their nutritional quality. Developing a combined knowledge of the variability in seafood nutrient content with shifts in the availability of harvested seafood is crucial for understanding seafood-derived nutrient security in a changing climate. [Display omitted] •Ocean temperatures can influence the nutritional profile of prawns.•Prawns are resilient to acute temperature changes but not long-term warming.•Warming increased the bioaccumulation of metals iron and silver.•11 % of nutritional responses were significantly altered with exposure time.•Acute warming events may reduce the harvestable biomass of eastern school prawns.
doi_str_mv	10.1016/j.scitotenv.2023.162778
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Despite their potential global importance for nutrient security and human health, it is not well understood how thermal impacts could alter the nutritional quality of harvested marine resources. We tested whether short-term experimental exposure to seasonal temperatures, projected ocean-warming temperatures, and marine heatwaves affected the nutritional quality of the eastern school prawn (Metapenaeus macleayi). In addition, we tested whether nutritional quality was affected by the duration of exposure to warm temperatures. We show the nutritional quality of M. macleayi is likely to be resilient to short- (28 d), but not longer-term (56 d) exposure to warming temperatures. The proximate, fatty acid and metabolite compositions of M. macleayi were unchanged after 28 d exposure to simulated ocean warming and marine heatwaves. The ocean-warming scenario did, however, show potential for elevated sulphur, iron and silver levels after 28 d. Decreasing saturation of fatty acids in M. macleayi after 28 d exposure to cooler temperatures indicates homeoviscous adaptation to seasonal changes. We found that 11 % of measured response variables were significantly different between 28 and 56 d when exposed to the same treatment, indicating the duration of exposure time and time of sampling are critical when measuring this species' nutritional response. Further, we found that future acute warming events could reduce harvestable biomass, despite survivors retaining their nutritional quality. Developing a combined knowledge of the variability in seafood nutrient content with shifts in the availability of harvested seafood is crucial for understanding seafood-derived nutrient security in a changing climate. [Display omitted] •Ocean temperatures can influence the nutritional profile of prawns.•Prawns are resilient to acute temperature changes but not long-term warming.•Warming increased the bioaccumulation of metals iron and silver.•11 % of nutritional responses were significantly altered with exposure time.•Acute warming events may reduce the harvestable biomass of eastern school prawns.</description><identifier>ISSN: 0048-9697</identifier><identifier>EISSN: 1879-1026</identifier><identifier>DOI: 10.1016/j.scitotenv.2023.162778</identifier><identifier>PMID: 36906039</identifier><language>eng</language><publisher>Netherlands: Elsevier B.V</publisher><subject>Animals ; Climate Change ; Ecosystem ; Fatty Acids ; Global Warming ; Humans ; Lipidomics ; Metabolomics ; Nutrients ; Nutritive Value ; Oceans and Seas ; Penaeid ; Penaeidae ; Schools ; Seafood quality ; Seasons ; Seawater ; Temperature</subject><ispartof>The Science of the total environment, 2023-06, Vol.876, p.162778-162778, Article 162778</ispartof><rights>2023 The Authors</rights><rights>Copyright © 2023 The Authors. 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Decreasing saturation of fatty acids in M. macleayi after 28 d exposure to cooler temperatures indicates homeoviscous adaptation to seasonal changes. We found that 11 % of measured response variables were significantly different between 28 and 56 d when exposed to the same treatment, indicating the duration of exposure time and time of sampling are critical when measuring this species' nutritional response. Further, we found that future acute warming events could reduce harvestable biomass, despite survivors retaining their nutritional quality. Developing a combined knowledge of the variability in seafood nutrient content with shifts in the availability of harvested seafood is crucial for understanding seafood-derived nutrient security in a changing climate. 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Despite their potential global importance for nutrient security and human health, it is not well understood how thermal impacts could alter the nutritional quality of harvested marine resources. We tested whether short-term experimental exposure to seasonal temperatures, projected ocean-warming temperatures, and marine heatwaves affected the nutritional quality of the eastern school prawn (Metapenaeus macleayi). In addition, we tested whether nutritional quality was affected by the duration of exposure to warm temperatures. We show the nutritional quality of M. macleayi is likely to be resilient to short- (28 d), but not longer-term (56 d) exposure to warming temperatures. The proximate, fatty acid and metabolite compositions of M. macleayi were unchanged after 28 d exposure to simulated ocean warming and marine heatwaves. The ocean-warming scenario did, however, show potential for elevated sulphur, iron and silver levels after 28 d. Decreasing saturation of fatty acids in M. macleayi after 28 d exposure to cooler temperatures indicates homeoviscous adaptation to seasonal changes. We found that 11 % of measured response variables were significantly different between 28 and 56 d when exposed to the same treatment, indicating the duration of exposure time and time of sampling are critical when measuring this species' nutritional response. Further, we found that future acute warming events could reduce harvestable biomass, despite survivors retaining their nutritional quality. Developing a combined knowledge of the variability in seafood nutrient content with shifts in the availability of harvested seafood is crucial for understanding seafood-derived nutrient security in a changing climate. 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subjects	Animals Climate Change Ecosystem Fatty Acids Global Warming Humans Lipidomics Metabolomics Nutrients Nutritive Value Oceans and Seas Penaeid Penaeidae Schools Seafood quality Seasons Seawater Temperature
title	Impacts of seasonal temperatures, ocean warming and marine heatwaves on the nutritional quality of eastern school prawns (Metapenaeus macleayi)
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