HgCl2短时处理对蚕豆叶片光合作用的效应

Effect of HgCl_2 Short Time Treatment on Photosynthesis in Broad Bean Leaves

以不同浓度HgCl2溶液涂抹蚕豆(Vicia faba L.)叶片30min后,测定进入叶片组织的汞含量、叶片的气体交换和叶绿素荧光。随着外施HgCl2溶液浓度的增大,进入叶片组织的汞含量增加。当HgCl2溶液浓度高于10mgL-1时,处理显著抑制蚕豆叶片的净光合速率(Pn)和表观光合量子效率(AQY),且随着浓度增加,抑制程度也加强。同时,HgCl2溶液处理能够显著降低PSⅡ光量子产量(△F/Fm')和表观光合电子传递速率(ETR),增加叶片的叶绿素荧光非光化学猝灭(NPQ)。结果表明,低浓度HgCl2短时间处理导致蚕豆叶片Pn降低的主要原因是由于HgCl2抑制了光合电子传递过程。

Mercury pollution is a major environmental problem. Unlike most heavy metals, plants uptake mercury primarily through leaves rather than the root system. Most of the mercury existed as complexes of Hg^2＋, which could cause the inhibition of photosynthesis as well as plant growth in higher plants. Since photosynthesis is very sensitive to heavy metals in higher plants, green algae and cyanobacteria, the inhibition of photosynthesis by Hg^2＋ had been examined in CO2 fixation and photosystems activities. However, in most of the researches, Hg^2＋ solutions were applied in vitro or not directly on plant leaves, the mechanism of inhibition on photosynthesis by Hg^2＋ is still in controversy. In order to discover its effect on leaf photosynthesis, HgCl2 solutions were applied to intact broad bean （Viciafaba L.） leaves. In the experiment, Hg^2＋ contents in intact broad bean leaves were determined after 30 min treatment with different concentrations of HgCl2 solution. And leaf gas exchange and chlorophyll fluorescence were measured under a definite light intensity and CO2 concentration. The results showed that the Hg content in leaves increased with the increase of treated Hg concentrations at the range from 0.5 mg L^-1 to 2 000 mg L^-1. When the applied HgCl2 concentration was 0.5 mg L^-1, the increase of leaf mercury content compared with that of control was less than 20%. If the applied HgCl2 increased to 500 mg L^-1, Hg content in leaves was about 800% of control. Meanwhile, leaf net photosynthetic rate （Pn） was unaffected at the treated HgCl2 concentrations from 0.5 mg L^-1 to 5.0 mg L^-1, and gradually decreased with the increase of treated Hg concentrations from 10 mg L^-1 to 2 000 mg L^-1. The inhibition of leaf＇s Pn was about 36% after 2000 mg L^-1 HgCl2 treatment. The results suggested that broad bean could absorb mercury solution through the leaves and thus lead to the inhibition of leaf photosynthetic activities.