Distribution Characteristics and Source Analysis of Soil Heavy Metals in the Liaoyang—Dandong Region

AI Xiaojun; CHEN Zhansheng; HOU Hongxing; YUAN Guoli; XIA Rui; ZHAO Xiaofeng; GONG Cang; LI Ziqi; HUO Dong; LIU Jiufen

doi:10.15898/j.ykcs.202404070080

2024 Vol. 43, No. 5

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Article navigation > Rock and Mineral Analysis > 2024 > 43(5): 755-768

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AI Xiaojun, CHEN Zhansheng, HOU Hongxing, YUAN Guoli, XIA Rui, ZHAO Xiaofeng, GONG Cang, LI Ziqi, HUO Dong, LIU Jiufen. Distribution Characteristics and Source Analysis of Soil Heavy Metals in the Liaoyang—Dandong Region[J]. Rock and Mineral Analysis, 2024, 43(5): 755-768. doi: 10.15898/j.ykcs.202404070080

Citation:

AI Xiaojun, CHEN Zhansheng, HOU Hongxing, YUAN Guoli, XIA Rui, ZHAO Xiaofeng, GONG Cang, LI Ziqi, HUO Dong, LIU Jiufen. Distribution Characteristics and Source Analysis of Soil Heavy Metals in the Liaoyang—Dandong Region[J]. Rock and Mineral Analysis, 2024, 43(5): 755-768. doi: 10.15898/j.ykcs.202404070080

Distribution Characteristics and Source Analysis of Soil Heavy Metals in the Liaoyang—Dandong Region

1.
Center for Geophysical Survey, China Geological Survey, Langfang 065000, China
2.
Innovation Center of Earth Shallow Surface Exploration Technology, China Geological Survey, Langfang 065000, China
3.
Langfang Natural Resources Comprehensive Survey Center, China Geological Survey, Langfang 065000, China
4.
China University of Geosciences (Beijing), Beijing 100083, China
5.
Natural Resources Comprehensive Survey Command Center of China Geological Survey, Beijing 100055, China
6.
Key Laboratory of Coupling Process and Effect of Natural Resources Elements, Beijing 100055, China
7.
Civil-Military Integrated Geological Survey Center, China Geological Survey, Chengdu 611732, China

More Information

Corresponding author: LIU Jiufen, 13863858360@163.com

Received Date: 07 April 2024

Revised Date: 27 August 2024

Accepted Date: 31 August 2024

Publish Date: 30 September 2024

Abstract

Abstract

The Liaoyang—Dandong region is an important grain and cash crop production area in Liaoning Province. It is of great significance for monitoring the quality of black soil and studying the migration and transformation of heavy metals in soil to understand the distribution characteristics and sources of heavy metals in soil from 0 to 500cm. Soil samples were collected from different layers, and the contents of 8 heavy metal elements and Sc elements were determined. The average contents did not exceed the pollution risk screening value, Cd and Hg were obviously enriched in the surface soil, and Pb and Zn showed a certain enrichment trend. Cd, Hg, Pb and Zn in the surface soil were slightly polluted, the middle layer of soil was slightly polluted by Pb, and the deep layer of soil was not polluted. Pb, As, Co, Cu, Cr, Sc and Zn were affected mainly by natural background, Pb and Zn were affected slightly by local human factors, and Cd and Hg were affected significantly by human activities. In the future, it will be necessary to strengthen the monitoring of the enrichment trend of Hg, Cd, Pb and Zn elements in different plots. The BRIEF REPORT is available for this paper at http://www.ykcs.ac.cn/en/article/doi/10.15898/j.ykcs.202404070080.
- heavy metals /
- index of geoaccumulation /
- multivariate statistical analysis /
- source analysis /
- ICP-MS

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References

[1]	黄勇, 段续川, 袁国礼. 北京市延庆区土壤重金属元素地球化学特征及其来源分析[J]. 现代地质, 2022, 36(2): 634−644. doi: 10.19657/j.geoscience.1000-8527.2022.02.24 CrossRef Google Scholar Huang Y, Duan X C, Yuan G L. Geochemical characteristics and sources of heavy metals in soils of Yanqing District, Beijing[J]. Geoscience, 2022, 36(2): 634−644. doi: 10.19657/j.geoscience.1000-8527.2022.02.24 CrossRef Google Scholar
[2]	孙凯, 孙彬彬, 周国华, 等. 福建龙海土壤重金属含量特征及影响因素研究[J]. 现代地质, 2018, 32(6): 197−205. doi: 10.19657/j.geoscience.1000-8527.2018.06.18 CrossRef Google Scholar Sun K, Sun B B, Zhou G H, et al. Characteristics and influencing factors of heavy metals in soils of Longhai, Fujian[J]. Geoscience, 2018, 32(6): 197−205. doi: 10.19657/j.geoscience.1000-8527.2018.06.18 CrossRef Google Scholar
[3]	汤金来, 赵宽, 胡睿鑫, 等. 滁州市表层土壤重金属含量特征、源解析及污染评价[J]. 环境科学, 2023, 44(6): 3562−3572. Google Scholar Tang J L, Zhao K, Hu R X, et al. Characteristics, source analysis and pollution assessment of heavy metals in surface soil of Chuzhou[J]. Environmental Science, 2023, 44(6): 3562−3572. Google Scholar
[4]	宋运红, 杨凤超, 刘凯, 等. 三江平原耕地土壤重金属元素分布特征及影响因素的多元统计分析[J]. 物探与化探, 2022, 46(5): 1064−1075. doi: 10.11720/wtyht.2022.0048 CrossRef Google Scholar Song Y H, Yang F C, Liu K, et al. Multivariate statistical analysis of distribution characteristics and influencing factors of heavy metal elements in cultivated soil in Sanjiang Plain[J]. Geophysical and Geochemical Exploration, 2022, 46(5): 1064−1075. doi: 10.11720/wtyht.2022.0048 CrossRef Google Scholar
[5]	姚晓峰, 杨建锋, 左力艳, 等. 地表基质的内涵辨析与调查思路[J]. 地质通报, 2022, 41(12): 2097−2105. doi: 10.12097/j.issn.1671-2552.2022.12.002 CrossRef Google Scholar Yao X F, Yang J F, Zuo L Y, et al. Connotation analysis and investigation of surface matrix[J]. Geological Bulletin of China, 2022, 41(12): 2097−2105. doi: 10.12097/j.issn.1671-2552.2022.12.002 CrossRef Google Scholar
[6]	Yuan G L, Sun T H, Han P, et al. Environmental geochemical mapping and multivariate geostatistical analysis of heavy metals in topsoils of a closed steel smelter: Capital iron & steel factory, Beijing, China[J]. Journal of Geochemical Exploration, 2013, 130(1): 15−21. doi: 10.1016/j.gexplo.2013.02.010 CrossRef Google Scholar
[7]	Wang A T, Wang Q, Li J, et al. Geo-statistical and multivariate analyses of potentially toxic elements’ distribution in the soil of Hainan Island (China): A comparison between the topsoil and subsoil at a regional scale[J]. Journal of Geochemical Exploration, 2019, 197: 48−59. doi: 10.1016/j.gexplo.2018.11.008 CrossRef Google Scholar
[8]	王诚煜, 李玉超, 于成广, 等. 葫芦岛东北部土壤重金属分布特征及来源解析[J]. 中国环境科学, 2021, 41(11): 5227−5236. doi: 10.19674/j.cnki.issn1000-6923.20210608.007 CrossRef Google Scholar Wang C Y, Li Y C, Yu C G, et al. Distribution characteristics and sources of heavy metals in soil of Northeast Huludao[J]. China Environmental Science, 2021, 41(11): 5227−5236. doi: 10.19674/j.cnki.issn1000-6923.20210608.007 CrossRef Google Scholar
[9]	王建明, 施泽明, 郑培佳, 等. 四川铅锌冶炼工业区周边土壤重金属地球化学特征及源解析[J]. 地球与环境, 2023, 51(3): 287−298. doi: 10.14050/j.cnki.1672-9250.2022.050.083 CrossRef Google Scholar Wang J M, Shi Z M, Zheng P J, et al. Geochemical characteristics and source apportionment of heavy metals in soil around Sichuan lead-zinc smelting industrial zone[J]. Earth and Environment, 2023, 51(3): 287−298. doi: 10.14050/j.cnki.1672-9250.2022.050.083 CrossRef Google Scholar
[10]	Zhu Y, An Y F, Li X Y, et al. Geochemical characteristics and health risks of heavy metals in agricultural soils and crops from a coal mining area in Anhui Province, China[J]. Environmental Research, 2023, 241(1): 117670−117680. doi: 10.1016/j.envres,2023.117670 CrossRef Google Scholar
[11]	Xia F, Zhao Z F, Niu X, et al. Integrated pollution analysis, pollution area identification and source apportionment of heavy metal contamination in agricultural soil[J]. Journal of Hazardous Materials, 2024, 465(3): 133215.1−133215.10. doi: 10.1016/j.jhazmat.2023.133215 CrossRef Google Scholar
[12]	匡荟芬, 胡春华, 吴根林, 等. 结合主成分分析法(PCA)和正定矩阵因子分解法(PMF)的鄱阳湖丰水期表层沉积物重金属源解析[J]. 湖泊科学, 2019, 32(4): 964−976. doi: 10.18307/2020.0406 CrossRef Google Scholar Kuang H F, Hu C H, Wu G L, et al. Analysis of heavy metal sources in surface sediments of Poyang Lake in wet period by combining principal component analysis (PCA) and positive definite matrix factorization (PMF)[J]. Lake Science, 2019, 32(4): 964−976. doi: 10.18307/2020.0406 CrossRef Google Scholar
[13]	汪春鹏, 尤建功, 孙浩, 等. 辽阳市土壤重金属含量特征及潜在风险评价[J]. 地质通报, 2021, 40(10): 1680−1687. doi: 10.12097/j.issn.1671-2552.2021.10.010 CrossRef Google Scholar Wang C P, You J G, Sun H, et al. Characteristics and potential risk assessment of soil heavy metal content in Liaoyang City[J]. Geological Bulletin, 2021, 40(10): 1680−1687. doi: 10.12097/j.issn.1671-2552.2021.10.010 CrossRef Google Scholar
[14]	丁宇雪, 初禹, 金晶泽, 等. 东北地区自然资源监测与黑土退化研究[M]. 武汉: 中国地质大学出版社, 2021: 199−205. Google Scholar Ding Y X, Chu Y, Jin J Z, et al. Study on natural resources monitoring and degradation of black soil in Northeast China[M]. Wuhan: China University of Geosciences Press, 2021: 199−205. Google Scholar
[15]	Wu B, Li L L, Guo S H, et al. Source apportionment of heavy metals in the soil at the regional scale based on soil-forming processes[J]. Journal of Hazardous Materials, 2023, 448(1): 130910−130915. doi: 10.2139/ssrn.4091461 CrossRef Google Scholar
[16]	赵秀芳, 张永帅, 冯爱平, 等. 山东安丘地区农业土壤重金属元素地球化学特征及环境评价[J]. 物探与化探, 2020, 44(6): 1446−1454. Google Scholar Zhao X F, Zhang Y S, Feng A P, et al. characteristics and environmental evaluation of heavy metal elements in agricultural soils in Anqiu, Shandong Province[J]. Geophysical and Chemical Exploration, 2020, 44(6): 1446−1454. Google Scholar
[17]	Hou S N, Na Z, Lin T. Effect of soil pH and organic matter content on heavy metals availability in maize (Zea mays L. ) rhizospheric soil of non-ferrous metals smelting area[J]. Environmental Monitoring and Assessment, 2019, 10(191): 1−10. doi: 10.1007/s10661-019-7793-5 CrossRef Google Scholar
[18]	Ali I, Khan I M, Khan M J, et al. Exploring geochemical assessment and spatial distribution of heavy metals in soils of Southern KP, Pakistan: Employing multivariate analysis[J]. International Journal of Environmental Analytical Chemistry, 2020, 17(102): 1−15. doi: 10.1080/03067319.2020.1804894 CrossRef Google Scholar
[19]	赵岩, 郭常来, 崔健, 等. 辽宁省锦州市北镇农业区土壤重金属分布特征、生态风险评价及源解析[J/OL]. 中国地质(2023-03-14 ).https://kns.cnki.net/kcms/detail/11.1167.P.20230313.1251.002.html. Google Scholar Zhao Y, Guo C L, Cui J, et al. Distribution characteristics, ecological risk assessment and source analysis of soil heavy metals in Beizhen agricultural area, Jinzhou City, Liaoning Province[J/OL]. Geology in China (2023-03-14).https://kns.cnki.net/kcms/detail/11.1167.P.20230313.1251.002.html. Google Scholar
[20]	刘玖芬, 赵晓峰, 侯红星, 等. 地表基质调查分层及分层测试指标体系设计与构建[J]. 岩矿测试, 2024, 43(1): 16−29. doi: 10.15898/j.ykcs.202310080157 CrossRef Google Scholar Liu J F, Zhao X F, Hou H X, et al. The surface of the substrate layered and layered testing index system design and construction[J]. Rock and Mineral Analysis, 2024, 43(1): 16−29. doi: 10.15898/j.ykcs.202310080157 CrossRef Google Scholar
[21]	赵君, 饶竹, 王鹏, 等. 黑龙江讷河市富锗土壤地球化学特征及影响因素浅析[J]. 岩矿测试, 2022, 9(4): 642−651. doi: 10.3969/j.issn.0254-5357.2022.4.ykcs202204013 CrossRef Google Scholar Zhao J, Rao Z, Wang P, et al. Heilongjiang nehe rich germanium soil geochemical characteristics and influencing factors of analyses[J]. Rock and Mineral Analysis, 2022, 9(4): 642−651. doi: 10.3969/j.issn.0254-5357.2022.4.ykcs202204013 CrossRef Google Scholar
[22]	赵恒谦, 常仁强, 金倩, 等. 河北西石门铁矿区土壤重金属污染空间分析及风险评价[J]. 岩矿测试, 2023, 42(2): 371−382. doi: 10.15898/j.carolcarrollnki.11-2131/td.,202203290066 CrossRef Google Scholar Zhao H Q, Chang R Q, Jin Q, et al. Hebei westone door iron mining area of soil heavy metal pollution of spatial analysis and risk evaluation[J]. Rock and Mineral Analysis, 2023, 42(2): 371−382. doi: 10.15898/j.carolcarrollnki.11-2131/td.,202203290066 CrossRef Google Scholar
[23]	Williams A J, Antoine J. Evaluation of the elemental pollution status of Jamaican surface sediments using enrichment factor, geoaccumulation index, ecological risk and potential ecological risk index[J]. Marine Pollution Bulletin, 2020, 157: 111288. Google Scholar
[24]	陈泽华, 焦思, 余爱华, 等. 土壤重金属污染评价方法探析——以南京市为例[J]. 森林工程, 2019, 36(3): 28−36. doi: 10.16270/j.cnki.slgc.2020.03.005 CrossRef Google Scholar Chen Z H, Jiao S, Yu A H, et al. Evaluation methods of soil heavy metal pollution: A case study of Nanjing[J]. Forest Engineering, 2019, 36(3): 28−36. doi: 10.16270/j.cnki.slgc.2020.03.005 CrossRef Google Scholar
[25]	Bing H J, Wu Y H, Zhou J, et al. Historical trends of anthropogenic metals in Eastern Tibetan Plateauas reconstructed from alpine lake sediments over the last century[J]. Chemosphere, 2016, 148: 211−219. doi: 10.1016/j.chemosphere.2016.01.042 CrossRef Google Scholar
[26]	张宪依, 庞成宝, 王安婷, 等. 海南岛表层及深层土壤重金属分布特征及源解析[J]. 现代地质, 2020, 34(5): 970−978. Google Scholar Zhang X Y, Pang C B, Wang A T, et al. Distribution and source analysis of heavy metals in surface and deep soil of Hainan Island[J]. Geoscience, 2020, 34(5): 970−978. Google Scholar
[27]	Gao L, Wang Z W, Shan J J, et al. Aquatic environ mental changes and anthropogenic activities reflected by the sedi-mentary records of the Shima River, Southern China[J]. Environmental Pollution, 2017, 224(5): 70−81. doi: 10.1016/j.envpol.2016.12.056 CrossRef Google Scholar
[28]	刘兴旺, 苗万里. 基于多元统计和地统计分析法的县域土壤重金属源解析[C]//中国土壤学会土壤环境专业委员会第十九次会议暨农田土壤污染与修复研讨会, 2017. Google Scholar Liu X W, Miao W L. Analysis of heavy metal sources in county soil based on multivariate statistics and geostatistical analysis[C]//The 19th Meeting of the Soil Environment Professional Committee of the Chinese Soil Society and the Symposium on Agricultural Soil Pollution and Remediation, 2017. Google Scholar
[29]	Duan X C, Yu H R, Ye T R, et al. Geostatistical mapping and quantitative source apportionment of potentially toxic elements in top- and sub-soils: A case of suburban area in Beijing, China[J]. Ecological Indicators, 2020, 112(5): 106085.1−106085.11. doi: 10.1016/j.ecolind.2020.106085 CrossRef Google Scholar
[30]	Xia R, Zhang S Q, Li J, et al. Spatial distribution and quantitative identification of contributions for nutrient and beneficial elements in top- and sub-soil of Huairou District of Beijing, China[J]. Ecological Indicators, 2023, 154: 110853. doi: 10.1016/j.ecolind.2023.110853 CrossRef Google Scholar
[31]	臧传子, 温汉辉, 蔡立梅, 等. 广东省揭阳市土壤铅的空间分布特征及影响因素[J]. 现代地质, 2019, 35(5): 1425−1432. doi: 10.19657/j.geoscience.1000-8527.2021.24 CrossRef Google Scholar Zang C Z, Wen H H, Cai L M, et al. Spatial distribution characteristics and influencing factors of soil lead in Jieyang City, Guangdong Province[J]. Geoscience, 2019, 35(5): 1425−1432. doi: 10.19657/j.geoscience.1000-8527.2021.24 CrossRef Google Scholar
[32]	刘忆莹, 裴久渤, 汪景宽. 东北典型黑土区耕地有机质与pH的空间分布规律及其相互关系[J]. 农业资源与环境学报, 2019, 36(6): 738−743. Google Scholar Liu Y Y, Pei J B, Wang J K. Spatial distribution and relationship between organic matter and pH in the typical black soil region of Northeast China[J]. Journal of Agricultural Resources and Environment, 2019, 36(6): 738−743. Google Scholar
[33]	Liu N T, Cai X Y, Jia L Y, et al. Quantifying mercury distribution and source contribution in surface soil of Qinghai—Tibetan Plateau using mercury isotopes, environmental science & technology[J]. 2023, 57(14): 5903–5912. Google Scholar
[34]	Ma Z W, Chen K, Li Z Y, et al. Heavy metals in soils and road dusts in the mining areas of Western Suzhou, China: A preliminary identification of contaminated sites[J]. Journal of Soils and Sediments, 2016, 16: 204−214. doi: 10.1007/s11368-015-1208-1 CrossRef Google Scholar
[35]	裴小龙, 祝晓松, 冯欣, 等. 基于自然资源统一管理的地表基质模型、分类及调查研究[J/OL].地质通报(2024-06-06). https://link.cnki.net/urlid/11.4648.P.20240605.1410.004. Google Scholar Pei X L, Zhu X S, Feng X, et al. Based on unity of natural resources management of surface matrix model, classification and investigation[J/OL]. Geological Bulletin (2024-06-06). https://link.cnki.net/urlid/11.4648.P.20240605.1410.004. Google Scholar