Department of Plant Protection, Rural Engineering, and Soils, School of Engineering, São Paulo State University, SP, 15385-000, Ilha Solteira, Brazil.
School of Agricultural and Veterinarian Sciences, São Paulo State University, Via de acesso Prof. Paulo Donato Castellane, s/n, Jaboticabal, SP, 14884-900, Brazil.
Environ Monit Assess. 2021 Dec 10;194(1):20. doi: 10.1007/s10661-021-09655-1.
With its accumulation in upland rice, cadmium (Cd) can easily enter the human food chain, which poses a global health threat considering nearly half of the human population depends on rice as a staple food source. A study was conducted to (1) evaluate Cd accumulation by rice cultivars, grown in Cd-polluted Tropical Oxisols, with different levels of Cd tolerance; (2) quantify Cd transfer from soil to rice shoots and grain; and (3) estimate daily Cd intake by humans. Three rice cultivars, characterized by low (Cateto Seda-CS), medium (BRSMG Talento-BT), and high (BRSMG Caravera-BC) Cd uptake capacity, were investigated. Rice cultivars were exposed to increasing soil Cd concentrations (0.0, 0.7, 1.3, 3.9, 7.8, and 11.7 mg kg). Analysis was performed on soil, shoots, and grain. Shoot biomass and grain yield decreased with increasing Cd supply, suggesting the following Cd tolerance: CS > BT > BC. Cadmium concentrations in shoots and grain increased when exposed to Cd. Only CS did not exceed the maximum Cd limit permitted in food (0.40 mg kg), when rates up to 1.3 mg kg of Cd were applied to soil. Considering daily rice consumption levels in Brazil, Cd intake often exceeds maximum tolerable levels. Continuous monitoring of soil Cd concentrations is a pivotal step in avoiding hazards to humans. Such monitoring is important on a global scale since outside of Asia, Brazil is the leading rice-producing and rice-consuming country.
在旱地水稻中积累的镉 (Cd) 很容易进入人类食物链,考虑到近一半的人口依赖水稻作为主食,这对全球健康构成了威胁。本研究旨在:(1) 评估在不同 Cd 耐受水平的 Cd 污染热带氧化土中生长的不同水稻品种对 Cd 的积累情况;(2) 量化 Cd 从土壤向水稻茎叶和籽粒的转移;(3) 估算人类每日 Cd 摄入量。研究选用三种 Cd 吸收能力不同的水稻品种,低 Cd 吸收型(Cateto Seda-CS)、中 Cd 吸收型(BRSMG Talento-BT)和高 Cd 吸收型(BRSMG Caravera-BC)。水稻品种暴露于不同 Cd 浓度的土壤(0.0、0.7、1.3、3.9、7.8 和 11.7 mg kg-1)中。对土壤、茎叶和籽粒进行了分析。随着 Cd 供应的增加,茎叶生物量和籽粒产量下降,表明 Cd 耐性为:CS > BT > BC。暴露于 Cd 时,茎叶和籽粒中的 Cd 浓度增加。只有 CS 未超过食品中允许的最大 Cd 限量(0.40 mg kg-1),当土壤中 Cd 用量高达 1.3 mg kg-1 时。考虑到巴西的日常大米消费水平,Cd 摄入量经常超过最大耐受水平。持续监测土壤 Cd 浓度是避免对人类造成危害的关键步骤。这种监测在全球范围内很重要,因为除了亚洲,巴西是主要的稻米生产国和消费国。
