A quantitative assessment of the behavior of metallic elements in urban soils exposed to industrial dusts near Dunkirk (Northern France)

IF 5.8 2区 农林科学 Q1 SOIL SCIENCE
Soil Pub Date : 2024-10-14 DOI:10.5194/egusphere-2024-1875
Marine Casetta, Sylvie Philippe, Lucie Courcot, David Dumoulin, Gabriel Billon, François Baudin, Françoise Henry, Michaël Hermoso, Jacinthe Caillaud
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Abstract

Abstract. In urban and industrialized areas, soil contamination and degradation caused by the deposition of industrial dusts may pose significant health and environmental risks. This problem relates to the vertical mobility and bioavailability of Potentially Toxic Elements (PTE). This study investigates the fate of PTE brought by industrial dusts in urban soils located in the Dunkerque agglomeration, one of the most industrialized areas of France. Four soil short cores were collected in the city of Gravelines (Dunkerque agglomeration) following a gradient from the industrial emitters to the deposition site. The soil cores were cut into discrete 1-cm-sections to study their PTE concentrations (using ICP-AES/MS analyses). Single HCl extraction was performed to evaluate the mobility of PTE in soils and to discuss their specific behavior according to the current soil parameters. For this purpose, the main soil parameters were identified (grain-size distribution, mineralogy, pH, CEC, TOC, calcium carbonates and water contents) in addition to the soil chemical composition (XRF, ICP-AES/MS analyses). The studied soils revealed globally low absorbent capacities for pollutants (CEC averaging 5.3 meq/100g), partially counterbalanced by the buffering effect of calcium carbonates (contents ranging from 8 % to 30 %). We highlighted minor (1<EF<3) to moderately severe (5<EF<10) Enrichment Factors in industrial PTE (Cr, Ni, Mo, Mn, Cd, Zn), in the first 3 centimeters of the soils located near the industrial emitters. The contamination profiles of these soils are concordant with atmospheric inputs of metallurgical dust. Using a relatively strong leaching reagent (HCl 1M), we estimated a low vertical mobility for Cr, Ni and Mo (average leached ratios <25 %) in soils, suggesting that these industrial PTE mainly occur in refractory phases (natural or anthropogenic). Mn, Cd and Zn, related to industrial and/or urban sources, present a higher mobility (average leached ratios > 60 % for Mn and Cd, and averaging 44 % for Zn). Our study points out the stability of industrial PTE in soils under current physicochemical conditions (calcareous soils with a slightly basic pH of 7.8). In this context, the monitoring of industrial PTE in these urban soils is highly recommended, considering (1) the presence of allotment gardens in the vicinity of the emitters and (2) the potential evolution of soil conditions as a result of increased flooding events.
对敦刻尔克(法国北部)附近受工业粉尘影响的城市土壤中金属元素的行为进行定量评估
摘要在城市和工业化地区,工业粉尘沉积造成的土壤污染和退化可能对健康和环境构成重大风险。这一问题与潜在有毒元素(PTE)的垂直迁移性和生物利用率有关。本研究调查了法国工业化程度最高的地区之一敦刻尔克城市群的城市土壤中工业粉尘带来的 PTE 的归宿。研究人员在格拉夫林市(敦刻尔克城市群)采集了四块土壤短岩芯,这些岩芯从工业排放口到沉积地点呈梯度分布。将土芯切成 1 厘米的不连续切片,以研究其 PTE 浓度(使用 ICP-AES/MS 分析)。为了评估 PTE 在土壤中的流动性,并根据当前的土壤参数讨论其特定行为,进行了单次盐酸萃取。为此,除了土壤化学成分(XRF、ICP-AES/MS 分析)外,还确定了主要的土壤参数(粒度分布、矿物学、pH 值、CEC、总有机碳、碳酸钙和水含量)。所研究的土壤对污染物的吸收能力普遍较低(CEC 平均为 5.3 meq/100g),碳酸钙(含量从 8% 到 30% 不等)的缓冲作用部分抵消了这一影响。我们强调了工业排放口附近前 3 厘米土壤中轻微(1<EF<3)到中度严重(5<EF<10)的工业 PTE(铬、镍、钼、锰、镉、锌)富集因子。这些土壤的污染特征与大气中的冶金粉尘输入相一致。使用相对较强的浸出试剂(1M 盐酸),我们估计铬、镍和钼在土壤中的垂直迁移率较低(平均浸出率为 25%),这表明这些工业 PTE 主要存在于难熔相(天然或人为)中。与工业和/或城市来源有关的锰、镉和锌的流动性较高(锰和镉的平均沥滤率为 60%,锌的平均沥滤率为 44%)。我们的研究表明,在当前的物理化学条件下(pH 值为 7.8 的微碱性石灰质土壤),工业 PTE 在土壤中具有稳定性。在这种情况下,考虑到 (1) 排放口附近有配给园,以及 (2) 土壤条件可能因洪水事件增加而发生变化,我们强烈建议对这些城市土壤中的工业 PTE 进行监测。
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来源期刊
Soil
Soil Agricultural and Biological Sciences-Soil Science
CiteScore
10.80
自引率
2.90%
发文量
44
审稿时长
30 weeks
期刊介绍: SOIL is an international scientific journal dedicated to the publication and discussion of high-quality research in the field of soil system sciences. SOIL is at the interface between the atmosphere, lithosphere, hydrosphere, and biosphere. SOIL publishes scientific research that contributes to understanding the soil system and its interaction with humans and the entire Earth system. The scope of the journal includes all topics that fall within the study of soil science as a discipline, with an emphasis on studies that integrate soil science with other sciences (hydrology, agronomy, socio-economics, health sciences, atmospheric sciences, etc.).
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