发电厂粉煤灰对环境、作物根、芽、胚乳和作物产量中重金属积累的影响

Biswajit Paul, Sancharini Sen, Palash Pan, Nandan Bhattacharyya
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引用次数: 0

摘要

燃煤发电站产生的粉煤灰的处理给环境带来了巨大挑战,尤其是在印度西孟加拉邦科拉哈特热电站等火力发电厂附近。因此,2022 年至 2023 年,西孟加拉邦 PanskuraBanamali 学院动物学系开展了一项研究,研究粉煤灰污染对电厂 5 公里半径范围内的土壤、水和农作物的影响。研究人员通过 AAS 分析了土壤、水、嫩枝、根和水稻胚乳中的铜、铁、铅、锌和锰等重金属。通过测量平均芽长、平均种茎长、平均每茎种子数和平均每茎胚乳干重,确定了不同浓度的粉煤灰对作物产量的影响。植物表现出铜、锌和锰的过度积累,而铅和铁则表现出中等程度的转移。使用粉煤灰栽培的水稻在 1%浓度下表现出最佳生长状态,与 5%的浓度相似,但浓度越高,产量越低。未来的研究应重点关注植物金属吸收、植物修复和生物修复,以有效缓解粉煤灰污染,同时强调全面调查。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impact of power plant fly ash on heavy metal accumulation in the environment, crop root, shoot, endosperm and crop yield
The disposal of fly ash from coal-fired power stations poses significant environmental challenges, particularly near thermal power plants like the Kolaghat Thermal Power Station in West Bengal, India. Therefore, a study was conducted in 2022 – 2023 at the Department of Zoology, PanskuraBanamali College, West Bengal to study the impact of fly ash contamination on soil, water, and crops within a 5km radius of the plant. Heavy metals such as Cu, Fe, Pb, Zn, and Mn were analysedthrough AAS in soil, water, shoot, root, and rice endosperm.The bioabsorption coefficient, bioconcentration factor, and translocation factor for heavy metalbioaccumulation were examined. The impact of different concentrations of fly ash on crop yield was determined by measuring the mean shoot length, mean seed stalk length, mean number of seeds per stalk, and mean dry weight of endosperm per stalk.The study revealed the highest heavy metal concentrations in soil, with Fe, Mn, Cu, Zn, and Pb being the most abundant. Plants exhibited hyper-accumulation of Cu, Zn, and Mn, while Pb and Fe showed moderate translocation. Rice grown with fly ash showed optimal growth at 1% concentration, similar to 5%, but higher concentrations reduced yield. Future research should focus on plant metal absorption, phytoremediation, and bioremediation for effective mitigation of fly ash contamination, emphasizing thorough investigations.
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