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生物炭减少钨矿区稻田大米中镉的积累:生物炭类型和用量、水稻品种和污染水平的影响。

Biochar reduces cadmium accumulation in rice grains in a tungsten mining area-field experiment: effects of biochar type and dosage, rice variety, and pollution level.

机构信息

Zhejiang Key Laboratory of Recycling and Eco-treatment of Waste Biomass, Zhejiang University of Science and Technology, Hangzhou, 310023, China.

School of Landscape Architecture, Zhejiang A&F University, Lin'an, 311300, China.

出版信息

Environ Geochem Health. 2019 Feb;41(1):43-52. doi: 10.1007/s10653-018-0120-1. Epub 2018 Jun 8.

DOI:10.1007/s10653-018-0120-1
PMID:29948534
Abstract

Cadmium (Cd)-contaminated rice (Oryza sativa) in Southern China is a great threat to food security, and the paddy soil remediation is urgently needed to reduce Cd accumulation in rice. Application of biochar could effectively immobilize soil Cd and reduce Cd uptake by rice. Fields that were applied with soil treatments including control and 15 and 30 t ha each hickory nut shell-derived biochar (KC) or maize straw-derived biochar (MC), and grown with two rice varieties (hybrid rice and late japonica rice) were selected for this study. The long-term effect of biochars on decreasing Cd bioavailability in paddy soils was evaluated. The results showed when MC was applied at 15 t ha, DTPA-Cd (soil cadmium extracted by diethylenetriamine pentaacetic acid) was reduced by 20.0 and 34.5% in Field A (slightly Cd pollution) and B (moderately Cd pollution), respectively. In Field B, soil DTPA-Cd concentrations with application of 30 t ha biochars were all lower than that of 15 t ha biochar, but there were no significant differences between the two types of biochars. Cd concentration in rice grains and straws of hybrid rice are two times more than those of late japonica rice. Cd bio-concentration factor both of grains and straw was significantly increased by biochar application, which in Field A was higher than that in Field B. Our results suggest that biochars reduce Cd accumulation in rice grains by immobilizing soil Cd. KC has a higher potential in lowering Cd bioavailability than MC. Hybrid rice should be prohibited to cultivate in these areas.

摘要

中国南方地区受镉(Cd)污染的水稻对粮食安全构成了巨大威胁,迫切需要修复稻田以减少水稻对镉的积累。生物炭的应用可以有效地固定土壤中的镉,减少水稻对镉的吸收。本研究选择了施用包括对照和 15 和 30 t/公顷山核桃壳衍生生物炭(KC)或玉米秸秆衍生生物炭(MC)的土壤处理的田地,并种植了两种水稻品种(杂交水稻和晚粳稻)。评估了生物炭对降低稻田土壤中镉生物有效性的长期影响。结果表明,当 MC 施用量为 15 t/公顷时,A 田(轻度镉污染)和 B 田(中度镉污染)的 DTPA-Cd(二乙三胺五乙酸提取的土壤镉)分别降低了 20.0%和 34.5%。在 B 田,施用 30 t/公顷生物炭的土壤 DTPA-Cd 浓度均低于 15 t/公顷生物炭,但两种生物炭之间没有显著差异。杂交水稻的稻谷和稻草中的镉浓度是晚粳稻的两倍。施用生物炭后,稻谷和稻草的 Cd 生物浓缩系数均显著增加,A 田的增加幅度高于 B 田。研究结果表明,生物炭通过固定土壤中的镉来减少镉在水稻籽粒中的积累。KC 比 MC 更有潜力降低 Cd 的生物有效性。应禁止在这些地区种植杂交水稻。

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