重金属污染土壤的植物修复:苋菜植物从营养贫乏的酸性基质中提取镉的能力

Challenges Pub Date : 2023-05-30 DOI:10.3390/challe14020028
Henrik Haller, Lesya Pronoza, M. Dyer, Maya Ahlgren, Louise Bergqvist, Ginnette Flores-Carmenate, A. Jonsson
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摘要

土壤污染对粮食安全、生态和人类健康构成威胁。镉是农业土壤中最常见的污染物之一,由于其对人体的毒性,是最危险的污染物之一。紫红花是镉和其他污染物的高蓄积物,它通常生长在亚洲和南美洲。相当数量的苋菜生长在不理想的条件下,包括营养贫乏的酸性土壤。本实验研究的目的是研究在180天的时间里,苋菜从营养贫乏的酸性底物中提取镉的能力,这些底物分别添加了不同浓度的镉(2和20 mg kg - 1 dw)。在20 mg Cd kg - 1 dw的培养基中生长的植物没有发育成成熟的植物,但在2 mg Cd kg - 1 dw的培养基中生长的植物通过积累到地上生物量中,从基质中提取了大量的Cd。4个测点茎部Cd含量为113 ~ 176 mg kg - 1,叶部Cd含量为64 ~ 94 mg kg - 1。随着时间的推移,其在植株中的浓度逐渐增加,在180 d后,茎部和叶片的浓度分别为176±45 mg kg - 1 dw和94±41 mg kg - 1 dw。90 d后植物的平均生物积累因子为86±15,120 d后为72±12,150 d后为105±37,180 d后为99±31,这证实了此前报道的苋属植物超积累Cd的能力。因此,苋属植物可以通过修复中度Cd污染土壤来改善生态和人类健康,即使在养分贫乏的酸性土壤中也是如此。
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Phytoremediation of Heavy-Metal-Contaminated Soils: Capacity of Amaranth Plants to Extract Cadmium from Nutrient-Poor, Acidic Substrates
Soil pollution is a threat to food security and ecological and human health. Cd is one of the most common pollutants in agricultural soil and, due its human toxicity, one of the most hazardous. Amaranth is a documented hyperaccumulator of Cd and other pollutants, and it is commonly grown in Asia and South America. A considerable amount of amaranth is grown in suboptimal conditions, including nutrient-poor acidic soils. The objective of this experimental study was to examine the capacity of Amaranthus hypochondriacus to extract Cd from a nutrient-poor, acidic substrate that was spiked with different concentrations of Cd (2 and 20 mg kg−1 dw) during a period of 180 days. The plants grown in the substrate that was spiked with 20 mg Cd kg−1 dw did not develop into mature plants, but the plants grown in substrate that was spiked with 2 mg Cd kg−1 dw extracted a significant amount of Cd from the substrate by accumulating it into the above-ground biomass. The Cd levels varied from 113 to 176 mg kg−1 in the stems at the four measuring points, and from 64 to 94 mg kg−1 in the leaves. The concentrations in the plants increased with time and reached a maximal concentration of 176 ± 45 mg kg−1 dw for stems and 94 ± 41 mg kg−1 dw for leaves after 180 days. The mean bioaccumulation factor in the plants was 86 ± 15 after 90 days, 72 ± 12 after 120 days, 105 ± 37 after 150 days, and 99 ± 31 after 180 days, which confirms the previously reported capacity of Amaranthus hypochondriacus to hyperaccumulate Cd. Amaranthus hypochondriacus may, thus, be used to improve ecological and human health by remediating moderately Cd-polluted soils, even in nutrient-poor acidic soils.
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