Heavy Metal Interactions Impact Tropical Native Grass in Iron-Rich Environments

ACS Sustainable Resource Management Pub Date : 2025-04-16 DOI:10.1021/acssusresmgt.4c0037510.1021/acssusresmgt.4c00375

Rui Tarciso Barbosa Junior*, Camilla O. Rios, Tiago M. Barroso Ferreira and Eduardo G. Pereira*,

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Abstract

Anthropogenic actions are driving environmental degradation, emphasizing the need for remediation strategies. The species Paspalum densum (Poaceae) has demonstrated resistance to excess iron (Fe) in mining-degraded environments, though these areas may also contain high concentrations of chromium (Cr) and cadmium (Cd). The capacity of P. densum to accumulate Cr and Cd (Fe-rich media) was examined. P. densum exhibited high Cd absorption, whereas Cr negatively affected the photosynthetic rate, stomatal conductance, and transpiration and biomass, with decreases of 83.3%, 74.4%, and 25.3%, respectively. Combined exposure to excess Cr, Cd, and Fe resulted in severe effects. Although the use of P. densum is effective for Cd-contaminated iron-rich sites, interactions with Cr disrupt its metabolic stability.

Heavy metal interactions could impact the tolerance capability of a phytoremediator species. This study reveals that excessive Cr uptake interacting with Cd and Fe hinders the physiological responses of a tropical native grass used for mining-site rehabilitation.

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重金属相互作用对富铁环境中热带原生草的影响

人为活动正在推动环境退化，强调需要采取补救战略。雀稗（禾科）在采矿退化的环境中表现出对过量铁（Fe）的抗性，尽管这些地区也可能含有高浓度的铬（Cr）和镉（Cd）。研究了小檗积累Cr和Cd（富铁介质）的能力。对Cd的吸收较高，而Cr对光合速率、气孔导度、蒸腾和生物量的影响分别为83.3%、74.4%和25.3%。同时暴露于过量的铬、镉和铁会导致严重的后果。虽然貂草对cd污染的富铁位点有效，但与Cr的相互作用破坏了其代谢稳定性。重金属相互作用会影响植物修复物种的耐受性。该研究揭示了过量的Cr吸收与Cd和Fe相互作用阻碍了用于采矿场地恢复的热带原生草的生理反应。

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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ACS Sustainable Resource Management

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