Recycled Household Ash in Rice Paddies of Bangladesh for Sustainable Production of Rice Without Altering Grain Arsenic and Cadmium.

IF 4.5 3区 环境科学与生态学 Q1 WATER RESOURCES Exposure and Health Pub Date : 2024-01-01 Epub Date: 2023-02-09 DOI:10.1007/s12403-023-00539-y
Yogesh Gupta, Mahmud Hossain, M Rafiqul Islam, Md Moyeed Hasan Talukder, Md Atiqur Rahman Khokon, Mohammad Mahir Uddin, Humayun Kabir, Manus Carey, Kathryn Ralphs, Natalia Valadares de Moraes, Andrew A Meharg, Caroline Meharg
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Abstract

In Bangladesh most agronomic biomass (straw, husk, dried dung) is burnt for domestic cooking use. Consequently, the soil is continuously stripped of mineral nutrients and carbon (C) substrate. Here we investigate if recycling of household ash (ash) as fertilizer can sustainably improve soil fertility as well as minimise accumulation of toxic elements (As, Cd) in rice grain. Large scale field trials across two geographic regions (Barind, Madhupur) and two seasons (wet, dry) and with application of 3 fertiliser treatments (NPKS, ash, NPKS + ash) were conducted. At the end of each season, the impact of region*season*treatment on soil microbial comunities, rice yield, and grain quality (As, Cd, nutrient elements) was assessed. When compared to conventional field application rates of NPKS (control), application of ash boosted rice yield by circa. 20% in both regions during wet and dry season, with no effect on rice grain carcinogenic inorganic arsenic (iAs), dimethylarsonic acid (DMA) or cadmium (Cd), but with potential to increase zinc (Zn). For soil microbial communities, a significant region and season effect as well as correlation with elements in rice grain was observed, amongst these Cd, Zn, iAs and DMA. This study illustrates that application of ash can reduce the requirement for expensive chemical fertiliser, whilst at the same time increasing rice yield and maintaining grain quality, making farming in Bangladesh more sustainable and productive. The study also implies that the combined impact of region, season, and soil microbes determines accumulation of elements in rice grain.

Supplementary information: The online version contains supplementary material available at 10.1007/s12403-023-00539-y.

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孟加拉国稻田中回收的家庭灰在不改变谷物砷和镉的情况下可持续生产水稻
在孟加拉国,大多数农用生物质(稻草、谷壳、干粪)都被烧掉,用于家庭烹饪。因此,土壤中的矿物质养分和碳(C)基质不断流失。在此,我们研究了将家庭灰烬(草木灰)作为肥料回收利用是否能持续改善土壤肥力,并最大限度地减少有毒元素(砷、镉)在稻谷中的积累。我们在两个地区(巴林德、马德胡布尔)、两个季节(湿季、旱季)进行了大规模田间试验,并施用了三种肥料处理(NPKS、草木灰、NPKS + 草木灰)。每季结束时,评估地区*季节*处理对土壤微生物群落、水稻产量和谷物品质(砷、镉、营养元素)的影响。与 NPKS 的常规田间施用量(对照组)相比,在潮湿和干燥季节,施用草木灰可使水稻产量提高约 20%。对稻谷致癌物质无机砷(iAs)、二甲基胂酸(DMA)或镉(Cd)没有影响,但有可能增加锌(Zn)。在土壤微生物群落方面,观察到了显著的地区和季节效应,以及与稻谷中元素的相关性,其中包括镉、锌、砷和二甲基砷酸。这项研究表明,施用草木灰可以减少对昂贵化肥的需求,同时提高水稻产量并保持谷物质量,使孟加拉国的农业更具可持续性和生产力。这项研究还表明,地区、季节和土壤微生物的综合影响决定了元素在稻谷中的积累:在线版本包含补充材料,可查阅 10.1007/s12403-023-00539-y。
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来源期刊
Exposure and Health
Exposure and Health Environmental Science-Pollution
CiteScore
13.80
自引率
9.00%
发文量
71
期刊介绍: It is a multidisciplinary journal focused on global human health consequences of exposure to water pollution in natural and engineered environments. The journal provides a unique platform for scientists in this field to exchange ideas and share information on research for the solution of health effects of exposure to water pollution. Coverage encompasses Engineering sciences; Biogeochemical sciences; Health sciences; Exposure analysis and Epidemiology; Social sciences and public policy; Mathematical, numerical and statistical methods; Experimental, data collection and data analysis methods and more. Research topics include local, regional and global water pollution, exposure and health problems; health risk analysis of water pollution, methods of quantification and analysis of risk under uncertainty; aquatic biogeochemical processes in natural and engineered systems and health effects; analysis of pollution, exposure and health data; and more.
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