Warm temperature acclimation impacts metabolism of paralytic shellfish toxins from Alexandrium minutum in commercial oysters

© 2015 John Wiley & Sons Ltd. Species of Alexandrium produce potent neurotoxins termed paralytic shellfish toxins and are expanding their ranges worldwide, concurrent with increases in sea surface temperature. The metabolism of molluscs is temperature dependent, and increases in ocean temperatur...

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Main Authors:	Farrell, H, Seebacher, F, O'Connor, W, Zammit, A, Harwood, DT, Murray, S
Format:	Article in Journal/Newspaper
Language:	unknown
Published:	2015
Subjects:	Ecology Animals Dinoflagellida Marine Toxins Temperature Acclimatization Ploidies New South Wales Ostreidae Crassostrea Climate Change Crassostrea gigas
Online Access:	http://hdl.handle.net/10453/43561

id	ftunivtsydney:oai:opus.lib.uts.edu.au:10453/43561
record_format	openpolar
spelling	ftunivtsydney:oai:opus.lib.uts.edu.au:10453/43561 2023-05-15T15:58:58+02:00 Warm temperature acclimation impacts metabolism of paralytic shellfish toxins from Alexandrium minutum in commercial oysters Farrell, H Seebacher, F O'Connor, W Zammit, A Harwood, DT Murray, S 2015-01-01 application/pdf http://hdl.handle.net/10453/43561 unknown Global Change Biology 10.1111/gcb.12952 Global Change Biology, 2015, 21 (9), pp. 3402 - 3413 1354-1013 http://hdl.handle.net/10453/43561 Ecology Animals Dinoflagellida Marine Toxins Temperature Acclimatization Ploidies New South Wales Ostreidae Crassostrea Climate Change Journal Article 2015 ftunivtsydney 2022-03-13T13:39:07Z © 2015 John Wiley & Sons Ltd. Species of Alexandrium produce potent neurotoxins termed paralytic shellfish toxins and are expanding their ranges worldwide, concurrent with increases in sea surface temperature. The metabolism of molluscs is temperature dependent, and increases in ocean temperature may influence both the abundance and distribution of Alexandrium and the dynamics of toxin uptake and depuration in shellfish. Here, we conducted a large-scale study of the effect of temperature on the uptake and depuration of paralytic shellfish toxins in three commercial oysters (Saccostrea glomerata and diploid and triploid Crassostrea gigas, n = 252 per species/ploidy level). Oysters were acclimated to two constant temperatures, reflecting current and predicted climate scenarios (22 and 27 °C), and fed a diet including the paralytic shellfish toxin-producing species Alexandrium minutum. While the oysters fed on A. minutum in similar quantities, concentrations of the toxin analogue GTX1,4 were significantly lower in warm-acclimated S. glomerata and diploid C. gigas after 12 days. Following exposure to A. minutum, toxicity of triploid C. gigas was not affected by temperature. Generally, detoxification rates were reduced in warm-acclimated oysters. The routine metabolism of the oysters was not affected by the toxins, but a significant effect was found at a cellular level in diploid C. gigas. The increasing incidences of Alexandrium blooms worldwide are a challenge for shellfish food safety regulation. Our findings indicate that rising ocean temperatures may reduce paralytic shellfish toxin accumulation in two of the three oyster types; however, they may persist for longer periods in oyster tissue. Article in Journal/Newspaper Crassostrea gigas University of Technology Sydney: OPUS - Open Publications of UTS Scholars
institution	Open Polar
collection	University of Technology Sydney: OPUS - Open Publications of UTS Scholars
op_collection_id	ftunivtsydney
language	unknown
topic	Ecology Animals Dinoflagellida Marine Toxins Temperature Acclimatization Ploidies New South Wales Ostreidae Crassostrea Climate Change
spellingShingle	Ecology Animals Dinoflagellida Marine Toxins Temperature Acclimatization Ploidies New South Wales Ostreidae Crassostrea Climate Change Farrell, H Seebacher, F O'Connor, W Zammit, A Harwood, DT Murray, S Warm temperature acclimation impacts metabolism of paralytic shellfish toxins from Alexandrium minutum in commercial oysters
topic_facet	Ecology Animals Dinoflagellida Marine Toxins Temperature Acclimatization Ploidies New South Wales Ostreidae Crassostrea Climate Change
description	© 2015 John Wiley & Sons Ltd. Species of Alexandrium produce potent neurotoxins termed paralytic shellfish toxins and are expanding their ranges worldwide, concurrent with increases in sea surface temperature. The metabolism of molluscs is temperature dependent, and increases in ocean temperature may influence both the abundance and distribution of Alexandrium and the dynamics of toxin uptake and depuration in shellfish. Here, we conducted a large-scale study of the effect of temperature on the uptake and depuration of paralytic shellfish toxins in three commercial oysters (Saccostrea glomerata and diploid and triploid Crassostrea gigas, n = 252 per species/ploidy level). Oysters were acclimated to two constant temperatures, reflecting current and predicted climate scenarios (22 and 27 °C), and fed a diet including the paralytic shellfish toxin-producing species Alexandrium minutum. While the oysters fed on A. minutum in similar quantities, concentrations of the toxin analogue GTX1,4 were significantly lower in warm-acclimated S. glomerata and diploid C. gigas after 12 days. Following exposure to A. minutum, toxicity of triploid C. gigas was not affected by temperature. Generally, detoxification rates were reduced in warm-acclimated oysters. The routine metabolism of the oysters was not affected by the toxins, but a significant effect was found at a cellular level in diploid C. gigas. The increasing incidences of Alexandrium blooms worldwide are a challenge for shellfish food safety regulation. Our findings indicate that rising ocean temperatures may reduce paralytic shellfish toxin accumulation in two of the three oyster types; however, they may persist for longer periods in oyster tissue.
format	Article in Journal/Newspaper
author	Farrell, H Seebacher, F O'Connor, W Zammit, A Harwood, DT Murray, S
author_facet	Farrell, H Seebacher, F O'Connor, W Zammit, A Harwood, DT Murray, S
author_sort	Farrell, H
title	Warm temperature acclimation impacts metabolism of paralytic shellfish toxins from Alexandrium minutum in commercial oysters
title_short	Warm temperature acclimation impacts metabolism of paralytic shellfish toxins from Alexandrium minutum in commercial oysters
title_full	Warm temperature acclimation impacts metabolism of paralytic shellfish toxins from Alexandrium minutum in commercial oysters
title_fullStr	Warm temperature acclimation impacts metabolism of paralytic shellfish toxins from Alexandrium minutum in commercial oysters
title_full_unstemmed	Warm temperature acclimation impacts metabolism of paralytic shellfish toxins from Alexandrium minutum in commercial oysters
title_sort	warm temperature acclimation impacts metabolism of paralytic shellfish toxins from alexandrium minutum in commercial oysters
publishDate	2015
url	http://hdl.handle.net/10453/43561
genre	Crassostrea gigas
genre_facet	Crassostrea gigas
op_relation	Global Change Biology 10.1111/gcb.12952 Global Change Biology, 2015, 21 (9), pp. 3402 - 3413 1354-1013 http://hdl.handle.net/10453/43561
_version_	1766394749934108672

Warm temperature acclimation impacts metabolism of paralytic shellfish toxins from Alexandrium minutum in commercial oysters

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