Impact of climate change on arsenic concentrations in paddy rice and the associated dietary health risks in Asia: an experimental and modelling study
文献类型: 外文期刊
第一作者: Wang, Dongming
作者: Wang, Dongming;Shen, Ren Fang;Yan, Xiaoyuan;Zhang, Jiabao;Cai, Chuang;Shen, Min;Ma, Chuanqi;Zhou, Wei;Zhu, Chunwu;Kim, Brent F.;Nachman, Keeve E.;Kim, Brent F.;Nachman, Keeve E.;Chiger, Andrea A.;Kim, Brent F.;Nachman, Keeve E.;Chiger, Andrea A.;Nachman, Keeve E.;Nachman, Keeve E.;Herbstman, Julie;Loladze, Irakli;Zhao, Fang-Jie;Chen, Chuan;Gao, Axiang;Zhu, Yongguan;Li, Fangbai;Wang, Dongming;Shen, Ren Fang;Yan, Xiaoyuan;Zhang, Jiabao;Cai, Chuang;Song, Lian;Shen, Min;Ma, Chuanqi;Zhou, Wei;Wang, Yujun;Zhu, Chunwu;Jiang, Yu;Ding, Yanfeng;Sun, Jianqiang;Zhou, Wei;Navas-Acien, Ana;Ziska, Lewis H.
作者机构:
期刊名称:LANCET PLANETARY HEALTH ( 影响因子:21.6; 五年影响因子:27.1 )
ISSN:
年卷期: 2025 年 9 卷 5 期
页码:
收录情况: SCI
摘要: Background Rising global atmospheric carbon dioxide (CO2) concentrations and surface temperatures could negatively affect rice yields and nutritional quality; however, their effects on arsenic accumulation in paddy rice have not been assessed concurrently. We aimed to assess the impact of increases in CO2 and temperature (individually and in combination) on arsenic concentrations in rice, characterise soil properties that might influence arsenic uptake, and model the associated risks of cancer and other health outcomes due to increased arsenic exposure. Methods For this modelling study we performed in-situ multi-varietal trials using Free-Air CO2 Enrichment platforms with and without supplemental temperature to examine the bioaccumulation of arsenic in paddy rice and the underlying biogeochemical mechanisms from 2014 to 2023. We modelled dietary inorganic arsenic exposure and the associated risks of cancer and non-cancer health outcomes via rice consumption for seven of the leading rice-consuming countries in east and southeast Asia. Findings Concomitant increases in CO2 and temperature resulted in a synergistic increase of inorganic arsenic in rice grain. The observed increase is likely to be related to changes in soil biogeochemistry that favoured reduced arsenic species. Modelled consumption of rice under these conditions resulted in projected increases in inorganic arsenic exposure and lifetime cancer and health risks for multiple Asian countries by 2050. Interpretation Inorganic arsenic exposure and the associated health consequences might increase in rice grain grown in flooded systems with mid-century climate projections. The current assessment reinforces the urgent need for mitigation of arsenic exposure in rice relative to near-term climate change. Copyright (c) 2025 The Author(s). Published by Elsevier Ltd. This is an Open Access article under the CC BY-NC-ND 4.0 license.
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