Unlocking Biochar's Potential: Innovative Strategies for Sustainable Remediation of Heavy Metal Stress in Tobacco Plants.

IF 2.3 Q2 BIOLOGY

Scientifica Pub Date : 2025-01-06 eCollection Date: 2025-01-01 DOI:10.1155/sci5/6302968

Abdul Ghaffar Shar, Leyi Zhang, Anzhi Lu, Munib Ahmad, Muhammad Saqib, Sadam Hussain, Usman Zulfiqar, Pingping Wang, Lixin Zhang, Mehdi Rahimi

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引用次数: 0

Abstract

Tobacco, being a globally cultivated crop, holds significant social and economic importance. Tobacco plants are susceptible to the adverse effects of heavy metals (HMs), particularly cadmium (Cd), which hinders root development, disrupts water balance, and impedes nutrient absorption. Higher concentrations of HMs, especially Cd, naturally accumulate in tobacco leaves due to complex interactions within the plant-soil continuum. The uptake of Cd by plants from the soil is influenced by several factors, including soil type, pH, irrigation water quality, and the chemical composition of the metal involved. Different techniques, such as bioremediation, phytoremediation, and mycoremediation, have been employed to tackle the issue of HMs. The use of biochar offers a practical solution to mitigate this problem. With its large surface area and porous nature, biochar can effectively alleviate HMs contamination. Under biochar application, metal adsorption primarily occurs through physical adsorption, where metal ions are trapped within the pores of the biochar. Additionally, electrostatic attraction, in which negatively charged biochar surfaces attract positively charged metal ions, is another major mechanism of metal remediation facilitated by biochar. In this review, we documented, compiled, and interpreted novel and recent information on HMs stress on tobacco plants and explored biochar's role in alleviating HMs toxicity. By providing a comprehensive review of the persistent threat posed by Cd to tobacco crops and exploring biochar's potential as a remediation measure, this work aims to enhance our understanding of HMs stress in tobacco and contribute to the development of sustainable agricultural practices.

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释放生物炭的潜力：烟草植物重金属胁迫可持续修复的创新策略。

烟草作为一种全球种植的作物，具有重要的社会和经济意义。烟草植物容易受到重金属（hm）的不利影响，特别是镉（Cd），它阻碍根系发育，破坏水分平衡，阻碍养分吸收。由于植物-土壤连续体内部复杂的相互作用，较高浓度的有机质，特别是镉，在烟叶中自然积累。植物从土壤中吸收镉受到几个因素的影响，包括土壤类型、pH值、灌溉水质和所涉金属的化学成分。不同的技术，如生物修复、植物修复和真菌修复，已被用于解决HMs问题。生物炭的使用为缓解这一问题提供了一个实用的解决方案。生物炭具有较大的表面积和多孔性，可以有效缓解HMs污染。在生物炭应用中，金属吸附主要通过物理吸附发生，金属离子被捕获在生物炭的孔隙中。此外，带负电的生物炭表面吸引带正电的金属离子的静电吸引是生物炭促进金属修复的另一个主要机制。在这篇综述中，我们记录、汇编和解释了烟草植物中HMs胁迫的最新信息，并探讨了生物炭在减轻HMs毒性中的作用。通过全面回顾镉对烟草作物构成的持续威胁，并探索生物炭作为一种补救措施的潜力，本工作旨在增强我们对烟草中HMs胁迫的理解，并为可持续农业实践的发展做出贡献。

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

Scientifica BIOLOGY-

CiteScore

6.70

自引率

0.00%

发文量

审稿时长

21 weeks

期刊介绍： Scientifica is a peer-reviewed, Open Access journal that publishes research articles, review articles, and clinical studies covering a wide range of subjects in the life sciences, environmental sciences, health sciences, and medicine. The journal is divided into the 65 subject areas.