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在低盐和高盐水平下生长的车前草的 CO2 同化、O2 释放和叶片 δ(13)C 值受盐度升高的影响。

Effect of increased salinity on CO2 assimilation, O 2 evolution and the δ (13)C values of leaves of Plantago maritima L. developed at low and high NaCl levels.

机构信息

Department of Botany, University of Toronto, M5S 1A1, Toronto, Ont, Canada.

出版信息

Planta. 1989 Jun;178(3):377-84. doi: 10.1007/BF00391865.

DOI:10.1007/BF00391865
PMID:24212904
Abstract

The effect of increased salinity on photosynthesis was studied in leaves of Plantago maritima L. that developed while plants were at low and high NaCl levels. In leaves that developed while plants were grown at 50 mol·m(-3), exposure to 200 and 350 mol·m(-3) NaCl resulted in reductions in net CO2 assimilation and stomatal conductance. The decline in CO2 assimilation in plants at 200 and 350 mol·m(-3) NaCl occurred almost exclusively at high intercellular CO2 concentrations. The initial slope of the CO2 assimilation-intercellular CO2 (A-C i) curve, determined after salinity was increased, was identical or very similar to that measured initially. In contrast to the reductions observed in CO2 assimilation, there were no significant differences in O2 evolution rates measured at 5% CO2 among leaves from plants exposed to higher salinity and plants remaining at low salinity.Leaves that developed while plants were at increased salinity levels also had significantly lower net CO2 assimilation rates than plants remaining at 50 mol·m(-3) NaCl. The lower CO2 assimilation rates in plants grown at 200 and 350 mol·m(-3) NaCl were a result of reduced stomatal conductance and low intercellular CO2 concentration. There were no significant differences among treatments for O2 evolution rates measured at high CO2 levels. The increased stomatal limitation of photosynthesis was confirmed by measurements of the (13)C/(12)C composition of leaf tissue. Water-use efficiency was increased in the plants grown at high salinity.

摘要

研究了在低盐(50mol·m(-3))和高盐(200 和 350mol·m(-3))条件下生长的车前草叶片中,盐度增加对光合作用的影响。暴露于 200 和 350mol·m(-3)NaCl 条件下,净 CO2 同化和气孔导度降低。在 200 和 350mol·m(-3)NaCl 条件下,植物叶片的 CO2 同化下降几乎完全发生在高胞间 CO2 浓度下。增加盐度后测定的 CO2 同化-胞间 CO2(A-C i)曲线的初始斜率与初始测定值相同或非常相似。与 CO2 同化的降低不同,在 5%CO2 下测定的 O2 释放速率在暴露于高盐度的叶片和仍处于低盐度的叶片之间没有显著差异。在高盐条件下生长的叶片的净 CO2 同化率也明显低于仍处于 50mol·m(-3)NaCl 条件下的叶片。在 200 和 350mol·m(-3)NaCl 下生长的植物的 CO2 同化率降低是由于气孔导度降低和胞间 CO2 浓度低所致。在高 CO2 水平下测定的 O2 释放速率在各处理之间没有显著差异。通过叶片组织的(13)C/(12)C 组成的测量,证实了光合作用的气孔限制增加。在高盐条件下生长的植物的水分利用效率增加。

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