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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Bibliographic Details
Published in:Plants
Main Authors: Wenze Zhang, Lianghua He, Jiangqi Pan, Yuhong Zhou, Ruxiang Ge, Sufang Li, Yunyun Shi, Xinhua Chen, Yaoyao Chu
Format: Text
Language:English
Published: Multidisciplinary Digital Publishing Institute 2023
Subjects:
biochemical compositions
copper
growth
ocean acidification
photosynthetic characteristics
Saccharina japonica
Ocean acidification
Online Access:https://doi.org/10.3390/plants12051140
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spelling ftmdpi:oai:mdpi.com:/2223-7747/12/5/1140/ 2023-08-20T04:08:55+02:00 Response of Juvenile Saccharina japonica to the Combined Stressors of Elevated pCO2 and Excess Copper Wenze Zhang Lianghua He Jiangqi Pan Yuhong Zhou Ruxiang Ge Sufang Li Yunyun Shi Xinhua Chen Yaoyao Chu agris 2023-03-02 application/pdf https://doi.org/10.3390/plants12051140 EN eng Multidisciplinary Digital Publishing Institute Plant Response to Abiotic Stress and Climate Change https://dx.doi.org/10.3390/plants12051140 https://creativecommons.org/licenses/by/4.0/ Plants; Volume 12; Issue 5; Pages: 1140 biochemical compositions copper growth ocean acidification photosynthetic characteristics Saccharina japonica Text 2023 ftmdpi https://doi.org/10.3390/plants12051140 2023-08-01T09:05:02Z 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. Text Ocean acidification MDPI Open Access Publishing Plants 12 5 1140
institution Open Polar
collection MDPI Open Access Publishing
op_collection_id ftmdpi
language English
topic biochemical compositions
copper
growth
ocean acidification
photosynthetic characteristics
Saccharina japonica
spellingShingle biochemical compositions
copper
growth
ocean acidification
photosynthetic characteristics
Saccharina japonica
Wenze Zhang
Lianghua He
Jiangqi Pan
Yuhong Zhou
Ruxiang Ge
Sufang Li
Yunyun Shi
Xinhua Chen
Yaoyao Chu
Response of Juvenile Saccharina japonica to the Combined Stressors of Elevated pCO2 and Excess Copper
topic_facet biochemical compositions
copper
growth
ocean acidification
photosynthetic characteristics
Saccharina japonica
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.
format Text
author Wenze Zhang
Lianghua He
Jiangqi Pan
Yuhong Zhou
Ruxiang Ge
Sufang Li
Yunyun Shi
Xinhua Chen
Yaoyao Chu
author_facet Wenze Zhang
Lianghua He
Jiangqi Pan
Yuhong Zhou
Ruxiang Ge
Sufang Li
Yunyun Shi
Xinhua Chen
Yaoyao Chu
author_sort Wenze Zhang
title Response of Juvenile Saccharina japonica to the Combined Stressors of Elevated pCO2 and Excess Copper
title_short Response of Juvenile Saccharina japonica to the Combined Stressors of Elevated pCO2 and Excess Copper
title_full Response of Juvenile Saccharina japonica to the Combined Stressors of Elevated pCO2 and Excess Copper
title_fullStr Response of Juvenile Saccharina japonica to the Combined Stressors of Elevated pCO2 and Excess Copper
title_full_unstemmed Response of Juvenile Saccharina japonica to the Combined Stressors of Elevated pCO2 and Excess Copper
title_sort response of juvenile saccharina japonica to the combined stressors of elevated pco2 and excess copper
publisher Multidisciplinary Digital Publishing Institute
publishDate 2023
url https://doi.org/10.3390/plants12051140
op_coverage agris
genre Ocean acidification
genre_facet Ocean acidification
op_source Plants; Volume 12; Issue 5; Pages: 1140
op_relation Plant Response to Abiotic Stress and Climate Change
https://dx.doi.org/10.3390/plants12051140
op_rights https://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.3390/plants12051140
container_title Plants
container_volume 12
container_issue 5
container_start_page 1140
_version_ 1774721495747002368

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