Caixin Xue, Rui Liu, Zhuyuan Xia, Jin Jia, Bin Hu, Heinz Rennenberg
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引用次数: 0
Abstract
Both sulfur (S) supply and legume-rhizobium symbiosis can significantly contribute to enhancing the efficiency of phytoremediation of heavy metals (HMs). However, the regulatory mechanism determining the performance of legumes at lead (Pb) exposure have not been elucidated. Here, we cultivated black locust (Robinia pseudoacacia L.), a leguminous woody pioneer species at three S supply levels (i.e., deficient, moderate, and high S) with rhizobia inoculation and investigated the interaction of these treatments upon Pb exposure. Our results revealed that the root system of Robinia has a strong Pb accumulation and anti-oxidative capacity that protect the leaves from Pb toxicity. Compared with moderate S supply, high S supply significantly increased Pb accumulation in roots by promoting the synthesis of reduced S compounds (i.e., thiols, phytochelatin), and also strengthened the antioxidant system in leaves. Weakened defense at deficient S supply was indicated by enhanced oxidative damage. Rhizobia inoculation alleviated the oxidative damage of its Robinia host by immobilizing Pb to reduce its absorption by root cells. Together with enhanced Pb chelation in leaves, these mechanisms strengthen Pb detoxification in the Robinia-rhizobia symbiosis. Our results indicate that appropriate S supply can improve the defense of legume-rhizobia symbiosis against HM toxicity.
硫(S)供应和豆科植物-根瘤菌共生都能显著提高重金属(HMs)的植物修复效率。然而,决定豆科植物在铅(Pb)暴露下表现的调控机制尚未阐明。在此,我们将豆科木本先锋物种黑刺槐(Robinia pseudoacacia L.)与根瘤菌接种一起,在三种S供应水平(即缺S、中S和高S)下进行栽培,并研究了这些处理在铅暴露时的相互作用。我们的研究结果表明,刺槐根系具有很强的铅积累和抗氧化能力,能保护叶片免受铅的毒性。与中等S供应量相比,高S供应量通过促进还原型S化合物(即硫醇、植物螯合物)的合成,显著增加了根系的铅积累,同时也加强了叶片的抗氧化系统。在缺乏 S 供应的情况下,氧化损伤加剧,表明防御能力减弱。接种根瘤菌可固定铅,减少根细胞对铅的吸收,从而减轻刺槐宿主的氧化损伤。这些机制与叶片中增强的铅螯合作用一起,加强了刺槐-根瘤菌共生中的铅解毒作用。我们的研究结果表明,适当的 S 供应可提高豆科植物-根瘤菌共生体对 HM 毒性的防御能力。