摘要
我国是世界上已知面积最大的水源性高碘国家,碘的长期过量摄入对居民健康产生极大威胁。在不同的环境水文地质条件下,高碘地下水成因模式可概括为:埋藏溶解型、压密释放型和蒸发浓缩型。基于对高碘地下水成因机理的认识,我们利用大数据模型预测了全国高碘地下水赋存情况,发现其高风险区(p>0.5)约占国土面积的19.8%,且涵盖了全部已知的高碘地下水分布区。开展地下水系统中有机碘形态定量表征、碘的水文地球化学行为微观机理识别和迁移活化过程定量模拟研究,将深化对高碘地下水成因与分布规律的认识,为供水水质安全和预防水源性高碘甲肿提供重要的科学依据。
China has the largest occurrence of water-borne high iodine groundwater in the world. Long-term excessive iodine uptake has substantial negative effects on the health of local residents. Under different environmental hydrogeological conditions, the genetic types of high iodine groundwater include burial-dissolution type, compaction-release type, and evaporation-concentration type. Based on our understanding of the genesis of high iodine groundwater, big data models were employed to predict the nation-wide occurrence of high iodine groundwater in China. The high-risk area(p>0.5) of high iodine groundwater was found to account for 19.8% of China’s land area, covering the regions already known to have high iodine groundwater in their subsurface. Studies on the genesis and occurrence of high iodine groundwater, including characterization of organic iodine species in groundwater system, identification of the microscopic mechanisms affecting hydrogeochemical behaviors of iodine, and modeling of the processes controlling the iodine mobilization, will provide important scientific evidence to support the safe supply of water and prevention of water-borne hyperiodized goiter.
作者
王焰新
李俊霞
谢先军
WANG Yanxin;LI Junxia;XIE Xianjun(School of Environmental Studies,China University of Geosciences(Wuhan)/State Environmental Protection Key Laboratory of Source Apportionment and Control of Aquatic Pollution,Wuhan 430074,China)
出处
《地学前缘》
EI
CAS
CSCD
北大核心
2022年第3期1-10,共10页
Earth Science Frontiers
基金
国家自然科学基金项目(42042053,42020104005,42177067)。
