Plasticity of photorespiratory carbon concentration mechanism in Sedobassia sedoides(Pall.)Freitag&G.Kadereit under elevated CO2 concentration and salinity

Zulfira RAKHMANKULOVA ¹Elena SHUYSKAYA ¹Maria PROKOFIEVA ¹Kristina TODERICH ²Pavel VORONIN¹

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作者信息

1. Timiryazev Institute of Plant Physiology,Russian Academy of Sciences,Moscow 127276,Russia
2. Graduate School of Bioresources,Mie University,1577 Kurimamachiya,Tsu 514-8507,Japan
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Abstract

Rising atmospheric CO2(carbon dioxide)concentrations and salinization are manifestations of climate change that affect plant growth and productivity.Species with an intermediate C3-C4 type of photosynthesis live in a wide range of precipitation,temperature,and soil quality,but are more often found in warm and dry habitats.One of the intermediate C3-C4 photosynthetic type is C2 photosynthesis with a carbon concentration mechanism(CCM)that reassimilates CO2 released via photorespiration.However,the ecological significance under which C2 photosynthesis has advantages over C3 and C4 plants remains largely unexplored.Salt tolerance and functioning of CCM were studied in plants from two populations(P1 and P2)of Sedobassia sedoides(Pall.)Freitag&G.Kadereit Asch.species with C2 photosynthesis exposed to 4 d and 10 d salinity(200 mM NaCl)at ambient(785.7 mg/m3,aCO2)and elevated(1571.4 mg/m3,eCO2)CO2.On the fourth day of salinity,an increase in Na+content,activity catalase,and superoxide dismutase was observed in both populations.P2 plants showed an increase in proline content and a decrease in photosynthetic enzyme content:rubisco,phosphoenolpyruvate carboxylase(PEPC),and glycine decarboxylase(GDC),which indicated a weakening of C2 and C4 characteristics under salinity.Treatment under 10 d salinity led to an increased Na+content and activity of cyclic electron flow around photosystem I(PSI CEF),a decreased content of K+and GDC in both populations.P1 plants showed greater salt tolerance,which was assessed by the degree of reduction in photosynthetic enzyme content,PSI CEF activity,and changes in relative growth rate(RGR).Differences between populations were evident under the combination of eCO2 and salinity.Under long-term salinity and eCO2,more salt-tolerant P1 plants had a higher dry biomass(DW),which was positively correlated with PSI CEF activity.In less salt-tolerant P2 plants,DW correlated with transpiration and dark respiration.Thus,S.sedoides showed a high degree of photosynthetic plasticity under the influence of salinity and eCO2 through strengthening(P1 plants)and weakening C4 characteristics(P2 plants).

Key words

photosystems Ⅰ and Ⅱ/carbon-concentrating mechanism/glycine decarboxylase/rubisco/phosphoenolpyruvate carboxylase(PEPC)/cyclic electron flow/salinity stress/drylands

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基金项目

Science and Technology Research Partnership for Sustainable Development(SATREPS)()

Japan Science and Technology Agency(JPMJSA2001)

state assignment of Ministry of Science and Higher Education of the Russian Federation(122042700044-6)

出版年

2024

干旱区科学

中国科学院新疆生态与地理研究所,科学出版社

干旱区科学

CSTPCD

影响因子：1.743

ISSN：1674-6767

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