Distribution of exchangeable cobalt in low-land rice cultivated soils in Sri Lanka as affected by the differences in climate, soil and water source

Ceylon Journal of Science Pub Date : 2024-02-13 DOI:10.4038/cjs.v53i1.8344

T. Weerasooriya, D. Dissanayake, M. Ariyaratne, U. Rathnayake, H. Kadupitiya, R. Chandrajith, L. Suriyagoda

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Abstract

Cobalt (Co) is considered a beneficial element for plants. However, when soils contain excessive amounts of Co, it could cause phytotoxicity. Despite this, the current status of Co in Sri Lankan rice-cultivated soils is not known. Therefore, this study was conducted to (i) determine the distribution of exchangeable Co concentration, and (ii) examine the interactive effects of climatic zone (CZ), agro-climatic zone (ACZ), soil order, water source, and their interactions in determining exchangeable Co concentration in lowland rice fields in Sri Lanka. A total of 8,292 soil samples representing six ACZs, six soil orders, and three water sources were collected using a stratified random sampling approach. Cobalt was extracted in 0.01 M CaCl2 and measured using Inductively Coupled Plasma Mass Spectrophotometry. Exchangeable Co concentration ranged between 0.03-2,409 μg kg−1 with a mean value of 185.9 μg kg−1. Over 77.5% of the soil samples tested were Co deficient, i.e. <250 μg kg−1. Samples collected from the Intermediate zone, particularly Intermediate zone Mid country, had higher Co concentration than that reported in other ACZs (p<0.05). Among the soil orders, Histosols had higher (232 μg kg−1) and Vertisols had lower (91 μg kg−1) Co concentrations (p<0.05). Moreover, Co concentration was negatively correlated with soil pH (r=−0.3391, p<0.0001) and rice crop productivity (r=−0.1512, p<0.0001). Although exchangeable Co concentration in rice cultivated soils was low, it is important to implement strategies such as proper waste management, treatment of industrial effluents, and the use of safer and more sustainable practices in the chemical and mining industries to minimize further accumulation of Co exceeding the critical limit (i.e. 30 - 40 mg Co kg−1 rice grain), and to ensure the safety of rice production in situations where geological and anthropogenic activities can increase soil exchangeable Co concentration.

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斯里兰卡低地水稻种植土壤中可交换钴的分布受气候、土壤和水源差异的影响

钴（Co）被认为是对植物有益的元素。然而，如果土壤中含有过量的钴，就会对植物造成毒性。尽管如此，斯里兰卡水稻种植土壤中的钴含量现状仍不得而知。因此，本研究的目的是：(i) 确定斯里兰卡低地稻田中可交换钴浓度的分布情况；(ii) 研究气候区（CZ）、农业气候区（ACZ）、土壤顺序、水源及其相互作用对可交换钴浓度的影响。采用分层随机抽样方法，共收集了 8292 份土壤样本，分别代表六个农业气候区、六个土壤等级和三种水源。钴在 0.01 M CaCl2 中提取，并使用电感耦合等离子体质谱仪进行测量。可交换钴的浓度范围为 0.03-2,409 μg kg-1，平均值为 185.9 μg kg-1。超过 77.5% 的测试土壤样本缺钴，即小于 250 μg kg-1。从中间带，尤其是中间带中部采集的样本中，钴的浓度高于其他 ACZ（p<0.05）。在各土壤类型中，组群土壤的钴浓度较高（232 微克/千克-1），而垂直土壤的钴浓度较低（91 微克/千克-1）（p<0.05）。此外，钴浓度与土壤 pH 值（r=-0.3391，p<0.0001）和水稻作物产量（r=-0.1512，p<0.0001）呈负相关。虽然水稻种植土壤中的可交换钴浓度较低，但在地质和人为活动会增加土壤中可交换钴浓度的情况下，实施适当的废物管理、工业废水处理以及在化工和采矿业中使用更安全、更可持续的方法等策略，以最大限度地减少超过临界极限（即 30 - 40 毫克 Co kg-1 稻谷）的钴进一步积累，并确保水稻生产的安全是非常重要的。

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

Ceylon Journal of Science

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0.00%

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审稿时长

15 weeks