Pyropia yezoensis can utilize CO2 in the air during moderate dehydration

Pyropia yezoensis, an intertidal seaweed, experiences regular dehydration and rehydration with the tides. In this study, the responses of P. yezoensis to dehydration and rehydration under high and low CO2 concentrations ((600-700)×10^-6 and (40-80)×10^-6, named Group I and Group II respectively) wer...

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Published inChinese journal of oceanology and limnology Vol. 32; no. 2; pp. 358 - 364
Main Author 周伟 何林文 杨芳 林阿朋 张宝玉 牛建峰 王广策
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer-Verlag 01.03.2014
Springer Berlin Heidelberg
Springer Nature B.V
Subjects
air
Algae
Biology
Carbon dioxide
Carbon dioxide concentration
Dehydration
Earth and Environmental Science
Earth Sciences
macroalgae
Moisture content
Oceanography
Photosynthesis
Photosystem I
Photosystem II
protein content
Pyropia yezoensis
Rehydration
Ribulose-bisphosphate carboxylase
Rubisco活性
Seaweeds
Thalli
thallus
Tidal waves
tides
Water content
二氧化碳浓度
光系统II
循环电子传递
条斑紫菜
水利用
环境空气
菌体形态
photosystem II quantum yield
dehydration
photosystem I quantum yield
cyclic electron flow
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Summary:Pyropia yezoensis, an intertidal seaweed, experiences regular dehydration and rehydration with the tides. In this study, the responses of P. yezoensis to dehydration and rehydration under high and low CO2 concentrations ((600-700)×10^-6 and (40-80)×10^-6, named Group I and Group II respectively) were investigated. The thalli of Group I had a significantly higher effective photosystem II quantum yield than the thalli of Group II at 71% absolute water content (AWC). There was little difference between thalli morphology, total Rubisco activity and total protein content at 100% and 71% AWC, which might be the basis for the normal performance of photosynthesis during moderate dehydration. A higher effective photosystem I quantum yield was observed in the thalli subjected to a low CO2 concentration during moderate dehydration, which might be caused by the enhancement of cyclic electron flow. These results suggested that P. yezoensis can directly utilize COz in ambient air during moderate dehydration.
Bibliography:Pyropia yezoensis, an intertidal seaweed, experiences regular dehydration and rehydration with the tides. In this study, the responses of P. yezoensis to dehydration and rehydration under high and low CO2 concentrations ((600-700)×10^-6 and (40-80)×10^-6, named Group I and Group II respectively) were investigated. The thalli of Group I had a significantly higher effective photosystem II quantum yield than the thalli of Group II at 71% absolute water content (AWC). There was little difference between thalli morphology, total Rubisco activity and total protein content at 100% and 71% AWC, which might be the basis for the normal performance of photosynthesis during moderate dehydration. A higher effective photosystem I quantum yield was observed in the thalli subjected to a low CO2 concentration during moderate dehydration, which might be caused by the enhancement of cyclic electron flow. These results suggested that P. yezoensis can directly utilize COz in ambient air during moderate dehydration.
Pyropia yezoensis; dehydration; photosystem II quantum yield; photosystem I quantum yield; cyclic electron flow
37-1150/P
http://dx.doi.org/10.1007/s00343-014-3093-7
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
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ISSN:0254-4059
2096-5508
1993-5005
2523-3521
DOI:10.1007/s00343-014-3093-7