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Response of Juvenile Saccharina japonica to the Combined Stressors of Elevated pCO2 and Excess Copper

Coastal macroalgae may be subjected to global and local environmental stressors, such as ocean acidification and heavy-metal pollution. We investigated the growth, photosynthetic characteristics, and biochemical compositions of juvenile sporophytes of Saccharina japonica cultivated at two pCO2 level...

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Published in:	Plants (Basel) 2023-03, Vol.12 (5), p.1140
Main Authors:	Zhang, Wenze, He, Lianghua, Pan, Jiangqi, Zhou, Yuhong, Ge, Ruxiang, Li, Sufang, Shi, Yunyun, Chen, Xinhua, Chu, Yaoyao
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Language:	English
Subjects:	Acidification Algae biochemical compositions Carbohydrates Carbon Carbon dioxide Chlorophyll Copper Electron transfer Environmental changes Environmental stress growth Growth rate Heavy metals Low level Marine pollution Ocean acidification Photochemicals Photosynthesis photosynthetic characteristics Physiology Saccharina japonica Seawater Sporophytes
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creator	Zhang, Wenze He, Lianghua Pan, Jiangqi Zhou, Yuhong Ge, Ruxiang Li, Sufang Shi, Yunyun Chen, Xinhua Chu, Yaoyao
description	Coastal macroalgae may be subjected to global and local environmental stressors, such as ocean acidification and heavy-metal pollution. We investigated the growth, photosynthetic characteristics, and biochemical compositions of juvenile sporophytes of Saccharina japonica cultivated at two pCO2 levels (400 and 1000 ppmv) and four copper concentrations (natural seawater, control; 0.2 μM, low level; 0.5 μM, medium level; and 1 μM, high level) to better understand how macroalgae respond to ongoing environmental changes. The results showed that the responses of juvenile S. japonica to copper concentrations depended on the pCO2 level. Under the 400 ppmv condition, medium and high copper concentrations significantly decreased the relative growth rate (RGR) and non-photochemical quenching (NPQ) but increased the relative electron transfer rate (rETR) and chlorophyll a (Chl a), chlorophyll c (Chl c), carotenoid (Car), and soluble carbohydrate contents. At 1000 ppmv, however, none of the parameters had significant differences between the different copper concentrations. Our data suggest that excess copper may inhibit the growth of juvenile sporophytes of S. japonica, but this negative effect could be alleviated by CO2-induced ocean acidification.
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subjects	Acidification Algae biochemical compositions Carbohydrates Carbon Carbon dioxide Chlorophyll Copper Electron transfer Environmental changes Environmental stress growth Growth rate Heavy metals Low level Marine pollution Ocean acidification Photochemicals Photosynthesis photosynthetic characteristics Physiology Saccharina japonica Seawater Sporophytes
title	Response of Juvenile Saccharina japonica to the Combined Stressors of Elevated pCO2 and Excess Copper
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