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Effect of CO2 enrichment on photosynthetic characteristics in the leaves of Heritiera littoralis seedlings under salinity treatment |
XIAO Shihong, ZHANG Weiqiang, HUANG Fangfang, GAN Xianhua, CAI Jian, ZHU Ziwei |
Guangdong Provincial Key Laboratory of Silviculture, Protection and Utilization/Guangdong Academy of Forestry, 510520, Guangzhou, China |
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Abstract [Background] Heritiera littoralis is an endangered semi mangrove tree species. Recently, the community structure, biological characteristics, medicinal value, fruit characteristics and germination technology and genetic diversity of H. littoralis have mainly been analyzed by scholars, but the high CO2 concentration on photosynthetic characteristics in the leaves of H. littoralis seedlings under salinity treatment has been less investigated. It is important to explore the effects of elevated CO2 on photosynthesis characteristics in H. littoralis under salinity treatment, which is essential to provide references for the application of H. littoralis to the vegetation restoration in coastal areas. [Methods] 1-year-old H. littoralis seedlings were used for comparison test in the green house of Guangdong Academy of Forestry in Guangzhou. Salinity treatment was simulated using salt solution concentration gradients of 0 (CK) and 2.5% (salinity treatment) at different CO2 concentration (400, 600 and 800 μmol/mol). There were 16 repeats in each concentration, thus totally 96 pots. After 60 days, photosynthetic physiological parameters were measured by LI-6800 photosynthesis instrument (LI-COR, USA). Then modified rectangular hyperbolic model was adopted to fit the photosynthesis light-response curves at different CO2 concentration and CO2 response curves of H. littoralis leaves of salinity treatment. [Results] 1) After the experiment treatment, with the increase of CO2 concentration, net photosynthetic rate (Pn), maximum net photosynthetic rate (Pnmax), apparent quantum yield (AQY), light saturation point (LSP), dark respiration rate (Rd), water use efficiency (WUE) and intercellular CO2 concentration (Ci) in the leaves of H. littoralis seedlings increased, while light compensation point (LCP), transpiration rate (Tr) and stomatal conductance (Gs) decreased. 2) At the same CO2 concentration, Pn, Pnmax, AQY, LSP, LCP, Rd, Tr and Gs under salinity treatment were lower than those under control, while the difference of WUE and Ci between the two treatment groups were not significant. 3) With the increase of photosynthetic active radiation (PAR), Tr and Gs showed an increasing trend, WUE increased first and then decreased slowly, while Ci decreased linearly and then reached a steady state. 4) Maximum carboxylation rate (Vcmax), maximum rate of electron transport (Jmax), triose-phosphate utilization efficiency (TPU), Pnmax, initial carboxylation efficiency (CE) and photorespiration rate (RP) under salinity treatment were lower than those under control, while CO2 saturation point (Cisat) and CO2 compensation point (Γ) showed an opposite trend. 5) Tr and Gs decreased with the increase of CO2 concentration, while WUE and Ci presented linear increase. [Conclusions] The increase of CO2 concentration promotes the increase of Pn, Pnmax, AQY, LSP, Rd, WUE and Ci. Higher CO2 concentration in the environment can increase the photosynthetic efficiency of H. littoralis leaves, especially when the light intensity is high. The salt stress can reduce the photosynthetic rate of H. littoralis leaves significantly. The results of this research indicate that the increase of CO2 concentration promotes the growth of H. littoralis seedling, while salinity treatment inhibits its growth.
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Received: 02 September 2019
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