Effects of periodical drying and non-drying on nutrient content and desiccation tolerance of an intertidal Pyropia yezoensis strain subject to farming conditions

Aquaculture of Pyropia yezoensis is extending from shallow seawater to deep seawater in China where full-floating culture protocol is applicable. The current P. yezoensis cultivars come from intertidal parents and have been long subject to periodical drying (PD) culture protocols. To investigate whe...

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Published in	Journal of applied phycology Vol. 31; no. 3; pp. 1897 - 1906
Main Authors	Wang, Wen Jun, Li, Xiao Lei, Sun, Teng Qing, Liang, Zhou Rui, Liu, Fu Li, Sun, Xiu Tao, Wang, Fei Jiu
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.06.2019 Springer Nature B.V
Subjects	Amino acids Aquaculture Biomedical and Life Sciences Carotenoids Catalase China Chlorophyll Chlorophyll a Components Cultivars Cultivation Culture Dehydration Desiccants Desiccation drought tolerance Drying Ecology Eicosapentaenoic acid enzyme activity Farming fatty acid composition Fatty acids Floating Freshwater & Marine Ecology Life Sciences littoral zone Mineral nutrients Nutrient content Nutrient requirements Parents Peroxidase Photosystem II Phycocyanin Plant Physiology Plant Sciences Proteins Pyropia yezoensis Rehydration Seawater Superoxide dismutase Thalli thallus Water loss China Pigment Amino acid Desiccation Fatty acid Antioxidant enzyme Photosynthesis Malondialdehyde
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Abstract	Aquaculture of Pyropia yezoensis is extending from shallow seawater to deep seawater in China where full-floating culture protocol is applicable. The current P. yezoensis cultivars come from intertidal parents and have been long subject to periodical drying (PD) culture protocols. To investigate whether these cultivars acclimate to a full-floating non-drying (ND) culture protocol, an intertidal P. yezoensis cultivar was cultured with ND and PD protocols. It was found that protocols with and without PD affected dehydration tolerance and nutrient components differently during farming. The maximum quantum yield of PSII ( F v / F m ) of the thalli from both systems decreased during dehydration. During rehydration, F v / F m of the thalli from the PD system fully recovered after 70% relative water loss (RWL), whereas F v / F m of the thalli from the ND system failed to fully recover from 50% RWL. During dehydration, superoxide dismutase, peroxidase, and catalase activities in the thalli cultured with ND were much lower than those in the thalli from PD systems. Nevertheless, the activity of superoxide dismutase + peroxidase + catalase was similar in the fresh thalli from both systems. Compared to the PD system, the thalli from the ND system contained lower levels of soluble proteins, chlorophyll a , carotenoids, total fatty acids (FA), and C16:0 FA but higher levels of total amino acids (AA), delicious AA, unsaturated FA, and eicosapentaenoic acid. Contents of phycocyanin, allophycocyanin, and essential AA were similar in both systems. In summary, there were pros and cons of using either system for P. yezoensis cultivation. Diversified Pyropia culture protocols should be applied depending on seawater depth and requirements of varying nutrient components.
AbstractList	Aquaculture of Pyropia yezoensis is extending from shallow seawater to deep seawater in China where full-floating culture protocol is applicable. The current P. yezoensis cultivars come from intertidal parents and have been long subject to periodical drying (PD) culture protocols. To investigate whether these cultivars acclimate to a full-floating non-drying (ND) culture protocol, an intertidal P. yezoensis cultivar was cultured with ND and PD protocols. It was found that protocols with and without PD affected dehydration tolerance and nutrient components differently during farming. The maximum quantum yield of PSII (Fᵥ/Fₘ) of the thalli from both systems decreased during dehydration. During rehydration, Fᵥ/Fₘ of the thalli from the PD system fully recovered after 70% relative water loss (RWL), whereas Fᵥ/Fₘ of the thalli from the ND system failed to fully recover from 50% RWL. During dehydration, superoxide dismutase, peroxidase, and catalase activities in the thalli cultured with ND were much lower than those in the thalli from PD systems. Nevertheless, the activity of superoxide dismutase + peroxidase + catalase was similar in the fresh thalli from both systems. Compared to the PD system, the thalli from the ND system contained lower levels of soluble proteins, chlorophyll a, carotenoids, total fatty acids (FA), and C16:0 FA but higher levels of total amino acids (AA), delicious AA, unsaturated FA, and eicosapentaenoic acid. Contents of phycocyanin, allophycocyanin, and essential AA were similar in both systems. In summary, there were pros and cons of using either system for P. yezoensis cultivation. Diversified Pyropia culture protocols should be applied depending on seawater depth and requirements of varying nutrient components. Aquaculture of Pyropia yezoensis is extending from shallow seawater to deep seawater in China where full-floating culture protocol is applicable. The current P. yezoensis cultivars come from intertidal parents and have been long subject to periodical drying (PD) culture protocols. To investigate whether these cultivars acclimate to a full-floating non-drying (ND) culture protocol, an intertidal P. yezoensis cultivar was cultured with ND and PD protocols. It was found that protocols with and without PD affected dehydration tolerance and nutrient components differently during farming. The maximum quantum yield of PSII ( F v / F m ) of the thalli from both systems decreased during dehydration. During rehydration, F v / F m of the thalli from the PD system fully recovered after 70% relative water loss (RWL), whereas F v / F m of the thalli from the ND system failed to fully recover from 50% RWL. During dehydration, superoxide dismutase, peroxidase, and catalase activities in the thalli cultured with ND were much lower than those in the thalli from PD systems. Nevertheless, the activity of superoxide dismutase + peroxidase + catalase was similar in the fresh thalli from both systems. Compared to the PD system, the thalli from the ND system contained lower levels of soluble proteins, chlorophyll a , carotenoids, total fatty acids (FA), and C16:0 FA but higher levels of total amino acids (AA), delicious AA, unsaturated FA, and eicosapentaenoic acid. Contents of phycocyanin, allophycocyanin, and essential AA were similar in both systems. In summary, there were pros and cons of using either system for P. yezoensis cultivation. Diversified Pyropia culture protocols should be applied depending on seawater depth and requirements of varying nutrient components. Aquaculture of Pyropia yezoensis is extending from shallow seawater to deep seawater in China where full-floating culture protocol is applicable. The current P. yezoensis cultivars come from intertidal parents and have been long subject to periodical drying (PD) culture protocols. To investigate whether these cultivars acclimate to a full-floating non-drying (ND) culture protocol, an intertidal P. yezoensis cultivar was cultured with ND and PD protocols. It was found that protocols with and without PD affected dehydration tolerance and nutrient components differently during farming. The maximum quantum yield of PSII (Fv/Fm) of the thalli from both systems decreased during dehydration. During rehydration, Fv/Fm of the thalli from the PD system fully recovered after 70% relative water loss (RWL), whereas Fv/Fm of the thalli from the ND system failed to fully recover from 50% RWL. During dehydration, superoxide dismutase, peroxidase, and catalase activities in the thalli cultured with ND were much lower than those in the thalli from PD systems. Nevertheless, the activity of superoxide dismutase + peroxidase + catalase was similar in the fresh thalli from both systems. Compared to the PD system, the thalli from the ND system contained lower levels of soluble proteins, chlorophyll a, carotenoids, total fatty acids (FA), and C16:0 FA but higher levels of total amino acids (AA), delicious AA, unsaturated FA, and eicosapentaenoic acid. Contents of phycocyanin, allophycocyanin, and essential AA were similar in both systems. In summary, there were pros and cons of using either system for P. yezoensis cultivation. Diversified Pyropia culture protocols should be applied depending on seawater depth and requirements of varying nutrient components.
Author	Sun, Xiu Tao Liu, Fu Li Sun, Teng Qing Liang, Zhou Rui Wang, Wen Jun Wang, Fei Jiu Li, Xiao Lei
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Snippet	Aquaculture of Pyropia yezoensis is extending from shallow seawater to deep seawater in China where full-floating culture protocol is applicable. The current... Aquaculture of Pyropia yezoensis is extending from shallow seawater to deep seawater in China where full-floating culture protocol is applicable. The current...
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SubjectTerms	Amino acids Aquaculture Biomedical and Life Sciences Carotenoids Catalase China Chlorophyll Chlorophyll a Components Cultivars Cultivation Culture Dehydration Desiccants Desiccation drought tolerance Drying Ecology Eicosapentaenoic acid enzyme activity Farming fatty acid composition Fatty acids Floating Freshwater & Marine Ecology Life Sciences littoral zone Mineral nutrients Nutrient content Nutrient requirements Parents Peroxidase Photosystem II Phycocyanin Plant Physiology Plant Sciences Proteins Pyropia yezoensis Rehydration Seawater Superoxide dismutase Thalli thallus Water loss
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Title	Effects of periodical drying and non-drying on nutrient content and desiccation tolerance of an intertidal Pyropia yezoensis strain subject to farming conditions
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