O. Evrard, Thomas Chalaux-Clergue, Pierre-Alexis Chaboche, Y. Wakiyama, Y. Thiry
{"title":"日本福岛难返回区重新开放初期土壤和景观净化后的研究和管理挑战","authors":"O. Evrard, Thomas Chalaux-Clergue, Pierre-Alexis Chaboche, Y. Wakiyama, Y. Thiry","doi":"10.5194/soil-9-479-2023","DOIUrl":null,"url":null,"abstract":"Abstract. Twelve years after the nuclear accident that occurred at the\nFukushima Dai-ichi Nuclear Power Plant (FDNPP) in March 2011, radiocesium\ncontamination (with a large dominance of 137Cs, with a 30-year\nhalf-life) remains a major concern in various municipalities of north-eastern\nJapan. The Japanese authorities completed an unprecedented soil\ndecontamination programme in residential and cultivated areas affected by\nthe main radioactive plume (8953 km2). They implemented a\ncomplex remediation programme scheme to remediate soils that are fundamental\nto life on Earth, relying on different decision rules depending on the waste\ntype, its contamination level and its region of origin, after delineating\ndifferent zones exposed to contrasted radiation rates. The central objective\nwas not to expose local inhabitants to radioactive doses exceeding 1 mSv yr−1 in addition to the natural levels. At the onset of the full\nreopening of the Difficult-to-Return Zone (DTRZ) in spring 2023, the current review\nprovides an update of a previous synthesis published in 2019\n(Evrard et al., 2019). Although this ambitious soil remediation\nand reconstruction programme has almost been completed in the 12 municipalities\nof Fukushima Prefecture in which an evacuation order was imposed in at least\none neighbourhood in 2011, from the 147 443 inhabitants who lived there\nbefore the accident, only 29.9 % of them had returned by 2020. Waste\ngenerated by decontamination and tsunami cleaning/demolition work is planned\nto have been fully transported to (interim) storage facilities by the end of\n2023. The cost of the operations conducted between 2011 and 2020 for the\nso-called “nuclear recovery” operations (including decontamination) was\nestimated by the Board of Audit of Japan in 2023 as JPY 6122.3 billion\n(∼ EUR 44 billion). Decontamination of cropland was shown to\nhave impacted soil fertility, and potassium fertilisation is recommended to\nlimit the transfer of residual radiocesium to new crops. In forests that\ncover 71 % of the surface area of Fukushima Prefecture and that were\nnot targeted by remediation, radiocesium is now found in the upper mineral\nlayer of the soil in a quasi-equilibrium state. Nevertheless, 137Cs\nconcentrations in forest products (including wood for heating and\nconstruction, wild plants, wildlife game, mushrooms) often keep exceeding\nthe threshold values authorised in Japan, which prohibits their exploitation\nin the area affected by the main plume. Radionuclides from forests were shown\nto be exported in dissolved and particle-bound forms to downstream river\nsystems and floodplains, although multiple monitoring records showed the\ncontinuous decrease in radiocesium concentrations in both river water and\nsediment across the main plume between 2011 and 2021. Fish contamination is now\ngenerally found to be below the threshold limits although reputational damage\nremains a major concern for local fishing communities. The remobilisation of\nradiocesium from sediment accumulated in reservoirs of the region is also of\npotential concern as it may lead to secondary contamination of fish or\nirrigation waters supplied to decontaminated fields. Overall, this synthesis\ndemonstrates the need to continue monitoring post-accidental radiocesium\ntransfer in these environments and to keep sharing data in order to refine\nour predictive understanding of radiocesium mobility and consolidate the\ntools available to model contaminant transfer in ecosystems. In forests in\nparticular, novel countermeasures and wood uses remain to be developed and\ntested. Furthermore, the hydrologic connectivity between soils under\ndifferent ecosystems greatly influences long-term radiocesium\ntransport. The consequences of extreme phenomena (e.g. typhoons, forest\nfires) that may become more frequent in the future as a result of global\nchange in these contaminated environments should be further anticipated.\n","PeriodicalId":22015,"journal":{"name":"Soil Science","volume":"1 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2023-09-06","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"Research and management challenges following soil and landscape decontamination at the onset of the reopening of the Difficult-to-Return Zone, Fukushima (Japan)\",\"authors\":\"O. Evrard, Thomas Chalaux-Clergue, Pierre-Alexis Chaboche, Y. Wakiyama, Y. Thiry\",\"doi\":\"10.5194/soil-9-479-2023\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Abstract. Twelve years after the nuclear accident that occurred at the\\nFukushima Dai-ichi Nuclear Power Plant (FDNPP) in March 2011, radiocesium\\ncontamination (with a large dominance of 137Cs, with a 30-year\\nhalf-life) remains a major concern in various municipalities of north-eastern\\nJapan. The Japanese authorities completed an unprecedented soil\\ndecontamination programme in residential and cultivated areas affected by\\nthe main radioactive plume (8953 km2). They implemented a\\ncomplex remediation programme scheme to remediate soils that are fundamental\\nto life on Earth, relying on different decision rules depending on the waste\\ntype, its contamination level and its region of origin, after delineating\\ndifferent zones exposed to contrasted radiation rates. The central objective\\nwas not to expose local inhabitants to radioactive doses exceeding 1 mSv yr−1 in addition to the natural levels. At the onset of the full\\nreopening of the Difficult-to-Return Zone (DTRZ) in spring 2023, the current review\\nprovides an update of a previous synthesis published in 2019\\n(Evrard et al., 2019). Although this ambitious soil remediation\\nand reconstruction programme has almost been completed in the 12 municipalities\\nof Fukushima Prefecture in which an evacuation order was imposed in at least\\none neighbourhood in 2011, from the 147 443 inhabitants who lived there\\nbefore the accident, only 29.9 % of them had returned by 2020. Waste\\ngenerated by decontamination and tsunami cleaning/demolition work is planned\\nto have been fully transported to (interim) storage facilities by the end of\\n2023. The cost of the operations conducted between 2011 and 2020 for the\\nso-called “nuclear recovery” operations (including decontamination) was\\nestimated by the Board of Audit of Japan in 2023 as JPY 6122.3 billion\\n(∼ EUR 44 billion). Decontamination of cropland was shown to\\nhave impacted soil fertility, and potassium fertilisation is recommended to\\nlimit the transfer of residual radiocesium to new crops. In forests that\\ncover 71 % of the surface area of Fukushima Prefecture and that were\\nnot targeted by remediation, radiocesium is now found in the upper mineral\\nlayer of the soil in a quasi-equilibrium state. Nevertheless, 137Cs\\nconcentrations in forest products (including wood for heating and\\nconstruction, wild plants, wildlife game, mushrooms) often keep exceeding\\nthe threshold values authorised in Japan, which prohibits their exploitation\\nin the area affected by the main plume. Radionuclides from forests were shown\\nto be exported in dissolved and particle-bound forms to downstream river\\nsystems and floodplains, although multiple monitoring records showed the\\ncontinuous decrease in radiocesium concentrations in both river water and\\nsediment across the main plume between 2011 and 2021. Fish contamination is now\\ngenerally found to be below the threshold limits although reputational damage\\nremains a major concern for local fishing communities. The remobilisation of\\nradiocesium from sediment accumulated in reservoirs of the region is also of\\npotential concern as it may lead to secondary contamination of fish or\\nirrigation waters supplied to decontaminated fields. Overall, this synthesis\\ndemonstrates the need to continue monitoring post-accidental radiocesium\\ntransfer in these environments and to keep sharing data in order to refine\\nour predictive understanding of radiocesium mobility and consolidate the\\ntools available to model contaminant transfer in ecosystems. In forests in\\nparticular, novel countermeasures and wood uses remain to be developed and\\ntested. Furthermore, the hydrologic connectivity between soils under\\ndifferent ecosystems greatly influences long-term radiocesium\\ntransport. 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引用次数: 1
摘要
摘要2011年3月福岛第一核电站(FDNPP)发生核事故12年后,放射性污染(主要是137Cs,半衰期为30年)仍然是日本东北部许多城市的主要问题。日本当局在受主要放射性羽流影响的住宅和耕地地区(8953平方公里)完成了一项前所未有的土壤净化计划。他们实施了一项复杂的修复计划来修复土壤,土壤是地球上生命的基础,在划定了暴露于对比辐射率的不同区域之后,根据废物类型、污染程度和来源地区的不同,他们采用了不同的决策规则。中心目标是不使当地居民暴露在超过自然水平1毫西弗/年- 1的放射性剂量下。在2023年春季难以返回区(DTRZ)全面重新开放的开始,当前的综述提供了2019年发表的先前综合的更新(Evrard et al., 2019)。尽管这个雄心勃勃的土壤修复和重建计划在福岛县的12个市(2011年至少有一个社区被下令撤离)几乎已经完成,但到2020年,事故发生前居住在那里的147443名居民中,只有29.9%的人返回了家园。除污和海啸清理/拆除工作产生的废物计划在2023年底前全部运送到(临时)储存设施。据2023年日本审计委员会估计,2011年至2020年期间进行的所谓“核回收”操作(包括去污)的成本为61223亿日元(约440亿欧元)。农田去污已被证明影响了土壤肥力,钾肥被建议限制残留放射性元素向新作物的转移。在覆盖福岛县71%地表面积的森林中,并不是修复的目标,现在在土壤的上层矿物层中发现了放射性,处于准平衡状态。然而,森林产品(包括取暖和建筑用木材、野生植物、野生动物、蘑菇)中的铯浓度经常超过日本规定的阈值,日本禁止在受主要烟羽影响的地区开采这些产品。来自森林的放射性核素以溶解和颗粒结合的形式输出到下游河流系统和洪泛平原,尽管多个监测记录显示,在2011年至2021年期间,主要羽流的河水和沉积物中的放射性核素浓度持续下降。尽管声誉损害仍然是当地渔业社区主要关注的问题,但鱼类污染现在普遍低于阈值限制。该地区水库沉积物中放射性元素的再活化也是一个潜在的问题,因为它可能导致鱼类或供应给净化农田的灌溉用水受到二次污染。总的来说,这一综合表明需要继续监测这些环境中事故后的放射性转移,并保持数据共享,以改进对放射性迁移的预测性理解,并巩固可用的工具来模拟生态系统中的污染物转移。特别是在森林方面,新的对策和木材利用仍有待发展和试验。此外,不同生态系统下土壤的水文连通性对放射性元素的长期迁移影响很大。应进一步预测由于全球变化在这些受污染环境中可能变得更加频繁的极端现象(例如台风、森林火灾)的后果。
Research and management challenges following soil and landscape decontamination at the onset of the reopening of the Difficult-to-Return Zone, Fukushima (Japan)
Abstract. Twelve years after the nuclear accident that occurred at the
Fukushima Dai-ichi Nuclear Power Plant (FDNPP) in March 2011, radiocesium
contamination (with a large dominance of 137Cs, with a 30-year
half-life) remains a major concern in various municipalities of north-eastern
Japan. The Japanese authorities completed an unprecedented soil
decontamination programme in residential and cultivated areas affected by
the main radioactive plume (8953 km2). They implemented a
complex remediation programme scheme to remediate soils that are fundamental
to life on Earth, relying on different decision rules depending on the waste
type, its contamination level and its region of origin, after delineating
different zones exposed to contrasted radiation rates. The central objective
was not to expose local inhabitants to radioactive doses exceeding 1 mSv yr−1 in addition to the natural levels. At the onset of the full
reopening of the Difficult-to-Return Zone (DTRZ) in spring 2023, the current review
provides an update of a previous synthesis published in 2019
(Evrard et al., 2019). Although this ambitious soil remediation
and reconstruction programme has almost been completed in the 12 municipalities
of Fukushima Prefecture in which an evacuation order was imposed in at least
one neighbourhood in 2011, from the 147 443 inhabitants who lived there
before the accident, only 29.9 % of them had returned by 2020. Waste
generated by decontamination and tsunami cleaning/demolition work is planned
to have been fully transported to (interim) storage facilities by the end of
2023. The cost of the operations conducted between 2011 and 2020 for the
so-called “nuclear recovery” operations (including decontamination) was
estimated by the Board of Audit of Japan in 2023 as JPY 6122.3 billion
(∼ EUR 44 billion). Decontamination of cropland was shown to
have impacted soil fertility, and potassium fertilisation is recommended to
limit the transfer of residual radiocesium to new crops. In forests that
cover 71 % of the surface area of Fukushima Prefecture and that were
not targeted by remediation, radiocesium is now found in the upper mineral
layer of the soil in a quasi-equilibrium state. Nevertheless, 137Cs
concentrations in forest products (including wood for heating and
construction, wild plants, wildlife game, mushrooms) often keep exceeding
the threshold values authorised in Japan, which prohibits their exploitation
in the area affected by the main plume. Radionuclides from forests were shown
to be exported in dissolved and particle-bound forms to downstream river
systems and floodplains, although multiple monitoring records showed the
continuous decrease in radiocesium concentrations in both river water and
sediment across the main plume between 2011 and 2021. Fish contamination is now
generally found to be below the threshold limits although reputational damage
remains a major concern for local fishing communities. The remobilisation of
radiocesium from sediment accumulated in reservoirs of the region is also of
potential concern as it may lead to secondary contamination of fish or
irrigation waters supplied to decontaminated fields. Overall, this synthesis
demonstrates the need to continue monitoring post-accidental radiocesium
transfer in these environments and to keep sharing data in order to refine
our predictive understanding of radiocesium mobility and consolidate the
tools available to model contaminant transfer in ecosystems. In forests in
particular, novel countermeasures and wood uses remain to be developed and
tested. Furthermore, the hydrologic connectivity between soils under
different ecosystems greatly influences long-term radiocesium
transport. The consequences of extreme phenomena (e.g. typhoons, forest
fires) that may become more frequent in the future as a result of global
change in these contaminated environments should be further anticipated.
期刊介绍:
Cessation.Soil Science satisfies the professional needs of all scientists and laboratory personnel involved in soil and plant research by publishing primary research reports and critical reviews of basic and applied soil science, especially as it relates to soil and plant studies and general environmental soil science.
Each month, Soil Science presents authoritative research articles from an impressive array of discipline: soil chemistry and biochemistry, physics, fertility and nutrition, soil genesis and morphology, soil microbiology and mineralogy. Of immediate relevance to soil scientists-both industrial and academic-this unique publication also has long-range value for agronomists and environmental scientists.