提高了紫花苜蓿对镉污染土壤和气温升高共存环境的适应性。

improved the adaptability of alfalfa ( L.) to the coexistence of cadmium-polluted soils and elevated air temperature.

作者信息

Gao Yun-Feng, Jia Xia, Zhao Yong-Hua, Ding Xiao-Yi, Zhang Chun-Yan, Feng Xiao-Juan

机构信息

Shaanxi Key Laboratory of Land Consolidation, School of Land Engineering, Chang'an University, Xi'an, China.

Key Laboratory of Subsurface Hydrology and Ecological Effects in Arid Region of Ministry of Education, School of Water and Environment, Chang'an University, Xi'an, China.

出版信息

Front Plant Sci. 2023 Mar 9;14:1064732. doi: 10.3389/fpls.2023.1064732. eCollection 2023.

DOI:10.3389/fpls.2023.1064732

PMID:36968359

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10033771/

Abstract

The coexistence of heavy metal-polluted soils and global warming poses serious threats to plants. Many studies indicate that arbuscular mycorrhizal fungi (AMF) can enhance the resistance of plants to adverse environments such as heavy metals and high temperature. However, few studies are carried out to explore the regulation of AMF on the adaptability of plants to the coexistence of heavy metals and elevated temperature (ET). Here, we investigated the regulation of on the adaptability of alfalfa ( L.) to the coexistence of cadmium (Cd)-polluted soils and ET. significantly enhanced total chlorophyll and carbon (C) content in the shoots by 15.6% and 3.0%, respectively, and Cd, nitrogen (N), and phosphorus (P) uptake by the roots by 63.3%, 28.9%, and 85.2%, respectively, under Cd + ET. significantly increased ascorbate peroxidase activity, peroxidase (POD) gene expression, and soluble proteins content in the shoots by 13.4%, 130.3%, and 33.8%, respectively, and significantly decreased ascorbic acid (AsA), phytochelatins (PCs), and malondialdehyde (MDA) contents by 7.4%, 23.2%, and 6.5%, respectively, under ET + Cd. Additionally, colonization led to significant increases in POD (13.0%) and catalase (46.5%) activities, -superoxide dismutase gene expression (33.5%), and MDA (6.6%), glutathione (22.2%), AsA (10.3%), cysteine (101.0%), PCs (13.8%), soluble sugars (17.5%), and proteins (43.4%) contents in the roots and carotenoids (23.2%) under ET + Cd. Cadmium, C, N, colonization rate, and chlorophyll significantly influenced shoots defenses and Cd, C, N, P, colonization rate, and sulfur significantly affected root defenses. In conclusion, obviously improved the defense capacity of alfalfa under ET + Cd. The results could improve our understanding of the regulation of AMF on the adaptability of plants to the coexistence of heavy metals and global warming and phytoremediation of heavy metal-polluted sites under global warming scenarios.

摘要

重金属污染土壤与全球变暖的并存对植物构成了严重威胁。许多研究表明，丛枝菌根真菌（AMF）可以增强植物对重金属和高温等不利环境的抗性。然而，很少有研究探讨AMF对植物适应重金属与高温并存（ET）情况的调控作用。在此，我们研究了AMF对紫花苜蓿（Medicago sativa L.）适应镉（Cd）污染土壤与ET并存情况的调控作用。在Cd + ET条件下，AMF分别使地上部总叶绿素和碳（C）含量显著提高了15.6%和3.0%，使根部对Cd、氮（N）和磷（P）的吸收分别显著增加了63.3%、28.9%和85.2%。在ET + Cd条件下，AMF使地上部抗坏血酸过氧化物酶活性、过氧化物酶（POD）基因表达和可溶性蛋白含量分别显著提高了13.4%、130.3%和33.8%，并使抗坏血酸（AsA）、植物螯合肽（PCs）和丙二醛（MDA）含量分别显著降低了7.4%、23.2%和6.5%。此外，在ET + Cd条件下，AMF定殖导致根部POD（13.0%）和过氧化氢酶（46.5%）活性、超氧化物歧化酶基因表达（33.5%）以及MDA（6.6%）、谷胱甘肽（22.2%）、AsA（10.3%）、半胱氨酸（101.0%）、PCs（13.8%）、可溶性糖（17.5%）和蛋白质（43.4%）含量以及类胡萝卜素（23.2%）显著增加。镉、C、N、AMF定殖率和叶绿素显著影响地上部防御，而镉、C、N、P、AMF定殖率和硫显著影响根部防御。总之，AMF明显提高了ET + Cd条件下紫花苜蓿的防御能力。这些结果有助于我们理解AMF对植物适应重金属与全球变暖并存情况的调控作用以及全球变暖情景下重金属污染场地的植物修复。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f9a/10033771/a9a85d9bbfeb/fpls-14-1064732-g001.jpg

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提高了紫花苜蓿对镉污染土壤和气温升高共存环境的适应性。

improved the adaptability of alfalfa ( L.) to the coexistence of cadmium-polluted soils and elevated air temperature.

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