Effects of exogenous jasmonic acid on growth and physiological indices of alfalfa under chromium stress.

IF 3.4 4区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES

International Journal of Phytoremediation Pub Date : 2025-07-11 DOI:10.1080/15226514.2025.2527936

Changfeng Liu, Huaixin Wu, Ye Wang, Xinmei Song, Chunyun Jia

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引用次数: 0

Abstract

Soil contamination by heavy metals is increasingly severe, particularly in eastern Inner Mongolia, China, where chromite mining has resulted in significant environmental issues due to heavy metal residues. Alfalfa, a common forage crop in the region, is considered an effective crop for remediating heavy metal contamination. However, the effectiveness of alfalfa alone in this context is limited. Jasmonic acid (JA), as a major phytohormone, plays an important role in regulating various physiological processes in plants; therefore, in this study, JA was added to remediate chromium contamination synergistically with alfalfa. The objective of this study was to investigate the synergistic effects of JA in combination with alfalfa for the remediation of Cr contamination. Specifically, the functional role of JA in modulating alfalfa growth and physiological responses under different Cr concentrations (1, 10, and 30 mg/L) was elucidated. JA application significantly reduced Cr accumulation in alfalfa seedlings by 49.70-87.37%, with mitigation efficacy dependent on Cr stress intensity: at 1 mg/L Cr, (0.1-1 μM) JA reduced the inhibitory effects on roots and stems by 74.86% and 270.91%, respectively. At 10 mg/L Cr, (0.5-1 μM) JA inhibited oxidative damage and reduced the levels of H₂O₂ and O₂^- by 61.19% and 14.91%, respectively. For 30 mg/L Cr, 0.5 μM JA maximized total chlorophyll synthesis (2.03-fold increase) and root cell viability (36.76%) while reducing MDA accumulation by 48.27%. Cluster analysis indicated that JA concentrations between 0.1-1 μM were most effective in alleviating 1 mg/L Cr stress, while 0.5-1 μM JA optimally mitigated the effects under 10 mg/L Cr stress, and 0.5 μM JA was most beneficial under 30 mg/L Cr stress. JA was found to be essential for maintaining normal metabolic functions and alleviating Cr-induced damage in alfalfa. This study highlights the potential of jasmonic acid as an effective agent for mitigating chromium stress in alfalfa and advances the understanding of its role in plant stress physiology. These findings provide valuable insights for improving crop resilience in heavy metal-contaminated environments. Future research should focus on the broader application of JA in different plant species and under different environmental stress conditions.

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外源茉莉酸对铬胁迫下紫花苜蓿生长及生理指标的影响。

土壤重金属污染日益严重，特别是内蒙古东部地区的铬铁矿开采造成了严重的重金属污染。苜蓿是该地区常见的饲料作物，被认为是修复重金属污染的有效作物。然而，在这种情况下，紫花苜蓿单独的有效性是有限的。茉莉酸（Jasmonic acid， JA）是一种重要的植物激素，在调节植物的各种生理过程中起着重要作用；因此，本研究添加茉莉酸与苜蓿协同修复铬污染。本研究的目的是探讨茉莉酸与紫花苜蓿联合使用对铬污染的协同修复作用。研究了不同Cr浓度（1、10和30 mg/L）下JA对紫花苜蓿生长和生理反应的调控作用。施用茉莉酸显著降低了紫花苜蓿幼苗中Cr的积累量，减少幅度为49.70 ~ 87.37%，缓解效果与Cr胁迫强度有关：在1 mg/L Cr浓度下，（0.1 ~ 1 μM）茉莉酸对根和茎的抑制作用分别降低了74.86%和270.91%。在10 mg/L Cr条件下，（0.5-1 μM） JA抑制氧化损伤，H2O2和O2-水平分别降低61.19%和14.91%。当Cr浓度为30 mg/L时，0.5 μM JA可使叶绿素合成总量增加2.03倍，使根细胞活力增加36.76%，MDA积累减少48.27%。聚类分析表明，0.1 ~ 1 μM的JA对1 mg/L Cr胁迫的缓解效果最好，0.5 ~ 1 μM的JA对10 mg/L Cr胁迫的缓解效果最好，0.5 μM的JA对30 mg/L Cr胁迫的缓解效果最好。JA对维持紫花苜蓿正常代谢功能和减轻cr诱导的损伤至关重要。本研究强调了茉莉酸作为缓解紫花苜蓿铬胁迫的有效药剂的潜力，并促进了对其在植物胁迫生理中的作用的认识。这些发现为提高重金属污染环境下作物的抗逆性提供了有价值的见解。未来的研究应侧重于JA在不同植物种类和不同环境胁迫条件下的更广泛应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Phytoremediation 环境科学-环境科学

CiteScore

7.60

自引率

5.40%

发文量

145

审稿时长

3.4 months

期刊介绍： The International Journal of Phytoremediation (IJP) is the first journal devoted to the publication of laboratory and field research describing the use of plant systems to solve environmental problems by enabling the remediation of soil, water, and air quality and by restoring ecosystem services in managed landscapes. Traditional phytoremediation has largely focused on soil and groundwater clean-up of hazardous contaminants. Phytotechnology expands this umbrella to include many of the natural resource management challenges we face in cities, on farms, and other landscapes more integrated with daily public activities. Wetlands that treat wastewater, rain gardens that treat stormwater, poplar tree plantings that contain pollutants, urban tree canopies that treat air pollution, and specialized plants that treat decommissioned mine sites are just a few examples of phytotechnologies.