|Table of Contents|

Risk Assessment and Source of Soil Heavy Metals in the Typical Agricultural Areas of Qinghai Province, China(PDF)

《地球科学与环境学报》[ISSN:1672-6561/CN:61-1423/P]

Issue:
2024年第06期
Page:
816-831
Research Field:
环境与可持续发展
Publishing date:

Info

Title:
Risk Assessment and Source of Soil Heavy Metals in the Typical Agricultural Areas of Qinghai Province, China
Author(s):
LIU Zu-yan12 JIAO Ju-ying12* LI Jian-jun1 CHENG Yu-zhuo2 CAO Xue23 CHEN Tong-de14 ZHANG Zhi-xin15 ZHANG He-xin2
(1. State Key Laboratory of Soil Erosion and Dryland Farming on the Loess Plateau/College of Soil and Water Conservation Science and Engineering(Institute of Soil and Water Conservation), Northwest A&F University, Yangling 712100, Shaanxi, China; 2. Institute of Soil and Water Conservation, Chinese Academy of Sciences and Ministry of Water Resources, Yangling 712100, Shaanxi, China; 3. School of Geographical Sciences, China West Normal University, Nanchong 637009, Sichuan, China; 4. School of Politics and Public Administration, Qinghai Minzu University, Xining 810007, Qinghai, China; 5. Chayu Human Resources and Social Security Bureau, Chayu 860600, Xizang, China)
Keywords:
soil heavy metal cultivated land pollution degree potential ecological risk principal component analysis source analysis Qinghai
PACS:
X53
DOI:
10.19814/j.jese.2024.06029
Abstract:
The accumulation of heavy metals in soil not only causes serious ecological and environmental problems, but also migrates to the human body through the food chain, posing a direct or indirect threat to human health. In order to understand the status of heavy metal pollution in cultivated soil in Qinghai province and promote the healthy development of local agriculture, the cultivated soil in Hehuang Valley and Qaidam Basin were taken as the research object. A total of 84 samples of cultivated soil(0-20 cm)were collected, and the soil pH and the contents of five heavy metal elements, including Cu, Pb, Cr, Zn and Cd, were determined. Single factor pollution index, geo-accumulation index, Nemerow comprehensive pollution index and potential ecological risk index were used to evaluate the heavy metal pollution degree and ecological risk of the surface soil in the study area. Correlation analysis and principal component analysis were used to identify the sources of five heavy metals in cultivated soil. The results show that ① compared with the soil environmental background value of Qinghai province, only the average content of Cd in the cultivated soil of Hehuang Valley and Qaidam Basin is higher than the background value, but all the samples do not exceed the screening value of soil pollution risk of agricultural land; in Hehuang Valley and Qaidam Basin, the coefficient of variation of Cd content is the highest, reaching 40.87% and 40.07%, respectively, and the other four heavy metals are all lower than 30.00%; the contents of Cu, Pb and Zn are not significantly different between the two areas, the content of Cr in Hehuang Valley is significantly higher than that in Qaidam Basin, but the content of Cd is significantly lower than that in Qaidam Basin. ② According to Nemerow comprehensive pollution index and comprehensive potential ecological risk evaluation, the cultivated soil in Hehuang Valley and Qaidam Basin is at a clean level, and the comprehensive potential ecological risk is low; according to the single potential ecological risk index, the potential ecological risk of Cd is high and reaches the medium risk level in the two areas, which is the main heavy metal element constituting the potential ecological risk of cultivated soil. ③ In Hehuang Valley, Cu, Zn and Cd are mainly affected by agricultural activities such as fertilizer application and pesticides, while Pb and Cr are mainly affected by soil parent material; in Qaidam Basin, Cu and Zn are mainly affected by the weathering of parent minerals and soil erosion, while Pb, Cr and Cd are mainly affected by agricultural production and management. In summary, although the five heavy metals in the cultivated soil of Hehuang Valley and Qaidam Basin do not pose a threat to the quality of crops and human health, the impact of human activities on the accumulation of heavy metals in soil cannot be ignored, especially the impact of the use of agricultural fertilizer on the accumulation of Cd, so as to prevent soil pollution in cultivated land.

References:

[1] LIN H,WANG Z W,LIU C J,et al.Technologies for Removing Heavy Metal from Contaminated Soils on Farmland:A Review[J].Chemosphere,2022,305:135457.
[2] KONG F J,CHEN Y C,HUANG L,et al.Human Health Risk Visualization of Potentially Toxic Elements in Farmland Soil:A Combined Method of Sour-ce and Probability[J].Ecotoxicology and Environmen-tal Safety,2021,211:111922.
[3] JING G H,WANG W X,CHEN Z K,et al.Ecological Risks of Heavy Metals in Soil Under Different Cultivation Systems in Northwest China[J].Agriculture,Ecosystems & Environment,2023,348:108428.
[4] LI J,LI X,WANG C,et al.Pollution Characteristics and Probabilistic Risk Assessment of Heavy Metal-(loid)s in Agricultural Soils Across the Yellow River Basin,China[J].Ecological Indicators,2024,167:112676.
[5] ZHENG X J,LIN H J,DU D L,et al.Remediation of Heavy Metals Polluted Soil Environment:A Critical Review on Biological Approaches[J].Ecotoxicology and Environmental Safety,2024,284:116883.
[6] ZHANG H X,PU M,LI H M,et al.Progress and Prospects for Remediation of Soil Potentially Toxic Elements Pollution:A State-of-the-art Review[J].Environmental Technology & Innovation,2024,35:103-703.
[7] NDE S C,FELICITE O M,ARUWAJOYE G S,et al.A Meta-analysis and Experimental Survey of Heavy Me-tals Pollution in Agricultural Soils[J].Journal of Tra-ce Elements and Minerals,2024,9:100180.
[8] 环境保护部,国土资源部.全国土壤污染状况调查公报[R].北京:环境保护部,2014.
Ministry of Environmental Protection,Ministry of Land and Resources.Bulletin of National Soil Pollution Survey[R].Beijing:Ministry of Environmental Protection,2014.
[9] 陈雅丽,翁莉萍,马 杰,等.近十年中国土壤重金属污染源解析研究进展[J].农业环境科学学报,2019,38(10):2219-2238.
CHEN Ya-li,WENG Li-ping,MA Jie,et al.Review on the Last Ten Years of Research on Source Identification of Heavy Metal Pollution in Soils[J].Journal of Agro-environment Science,2019,38(10):2219-2238.
[10] 段 健,徐 勇,孙晓一.青藏高原粮食生产、消费及安全风险格局变化[J].自然资源学报,2019,34(4):673-688.
DUAN Jian,XU Yong,SUN Xiao-yi.Spatial Patterns and Their Changes of Grain Production,Grain Consumption and Grain Security in the Tibetan Plateau[J].Journal of Natural Resources,2019,34(4):673-688.
[11] 杨 安,王小霞,邢文聪,等.青海省河流和湖泊表层沉积物及其周边土壤重金属的来源与风险评估[J].天津师范大学学报(自然科学版),2020,40(6):44-53.
YANG An,WANG Xiao-xia,XING Wen-cong,et al.Source and Risk Evaluation of Heavy Metals in Surface Sediments of Rivers,Lakes and Their Surrounding Soils in Qinghai Province[J].Journal of Tianjin Normal University(Natural Science Edition),2020,40(6):44-53.
[12] 沈 骁,姬丙艳,田兴元,等.青海东部地区土壤重金属污染评价[J].物探与化探,2014,38(6):1246-1251.
SHEN Xiao,JI Bing-yan,TIAN Xing-yuan,et al.The Evaluation of Heavy Metals Pollution in Soil of Eastern Qinghai[J].Geophysical and Geochemical Exploration,2014,38(6):1246-1251.
[13] 尹 芳,封 凯,尹翠景,等.青海典型工业区耕地土壤重金属评价及源解析[J].中国环境科学,2021,41(11):5217-5226.
YIN Fang,FENG Kai,YIN Cui-jing,et al.Evaluation and Source Analysis of Heavy Metal in Cultivated Soil Around Typical Industrial District of Qinghai Pro-vince[J].China Environmental Science,2021,41(11):5217-5226.
[14] 王若锦,邵天杰,卫佩茹.环青海湖地区表层土壤重金属富集含量及其生态风险评价[J].干旱区研究,2021,38(2):411-420.
WANG Ruo-jin,SHAO Tian-jie,WEI Pei-ru.Enrichment Content and Ecological Risk Assessment of Heavy Metal in Surface Soil Around Qinghai Lake[J].Arid Zone Research,2021,38(2):411-420.
[15] MA Y J,WANG Q G,SU W G,et al.Potential Sour-ces,Pollution,and Ecological Risk Assessment of Potentially Toxic Elements in Surface Soils on the Nor-th-eastern Margin of the Tibetan Plateau[J].Toxics,2022,10(7):368.
[16] ZHANG B C,JIA T Z,PENG S Z,et al.Spatial Distribution,Source Identification,and Risk Assessment of Heavy Metals in the Cultivated Soil of the Qinghai-Tibet Plateau Region:Case Study on Huzhu County[J].Global Ecology and Conservation,2022,35:e02-073.
[17] MAI X R,TANG J,TANG J X,et al.Research Progress on the Environmental Risk Assessment and Remediation Technologies of Heavy Metal Pollution in Agricultural Soil[J].Journal of Environmental Scien-ces,2025,149:1-20.
[18] 余琼阳,李婉怡,张 宁,等.农田土壤重金属污染现状与安全利用技术研究进展[J].土壤,2024,56(2):229-241.
YU Qiong-yang,LI Wan-yi,ZHANG Ning,et al.Pre-sent Pollution Status and Safe Utilization Technologies of Heavy Metal-polluted Farmland Soil:A Review[J].Soils,2024,56(2):229-241.
[19] REN S Y,SONG C Q,YE S J,et al.The Spatiotemporal Variation in Heavy Metals in China's Farmland Soil over the Past 20 Years:A Meta-analysis[J].Science of the Total Environment,2022,806:150322.
[20] 万 方,邓清海,刘 莉,等.1990~2018年河湟谷地耕地的时空演变[J].水土保持通报,2021,41(3):275-282.
WAN Fang,DENG Qing-hai,LIU Li,et al.Spatial and Temporal Evolution of Cultivated Land in Hehuang Valley During 1990 to 2018[J].Bulletin of Soil and Water Conservation,2021,41(3):275-282.
[21] 程玉卓,赵文婷,焦菊英,等.河湟谷地近20年耕地利用变化的土壤保持效应[J].中国水土保持科学,2023,21(1):55-63.
CHENG Yu-zhuo,ZHAO Wen-ting,JIAO Ju-ying,et al.Soil Conservation Effect of Cropland Use Chan-ge in the Yellow River-Huangshui River Valley over the Past 20 Years[J].Science of Soil and Water Conservation,2023,21(1):55-63.
[22] 杜新波,周 伟,司慧娟,等.青海省2000~2008年间耕地变化及驱动力研究[J].水土保持研究,2013,20(5):180-186.
DU Xin-bo,ZHOU Wei,SI Hui-juan,et al.Driving Forces of Cultivated Land Changes in Qinghai Pro-vince During 2000 to 2008[J].Research of Soil and Water Conservation,2013,20(5):180-186.
[23] 王发科,苟日多杰.气候变暖对柴达木盆地农作物种植结构的影响[J].安徽农业科学,2015,43(27):181-184.
WANG Fa-ke,GOU Ri-duo-jie.Effects of Climate Warming on Agricultural Crops Planting Structure in Qaidam Basin[J].Journal of Anhui Agricultural Sciences,2015,43(27):181-184.
[24] 徐常青,刘 赛,徐 荣,等.我国枸杞主产区生产现状调研及建议[J].中国中药杂志,2014,39(11):1979-1984.
XU Chang-qing,LIU Sai,XU Rong,et al.Investigation of Production Status in Major Wolfberry Producing Areas of China and Some Suggestions[J].China Journal of Chinese Materia Medica,2014,39(11):1979-1984.
[25] 罗 静,张镱锂,刘峰贵,等.青藏高原东北部河湟谷地1726年耕地格局重建[J].地理研究,2014,33(7):1285-1296.
LUO Jing,ZHANG Yi-li,LIU Feng-gui,et al.Reconstruction of Cropland Spatial Patterns for 1726 on Yellow River-Huangshui River Valley in Northeast Qinghai-Tibet Plateau[J].Geographical Research,2014,33(7):1285-1296.
[26] 张忠孝.青海地理[M].2版.北京:科学出版社,2009.
ZHANG Zhong-xiao.Qinghai Geography[M].2nd ed.Beijing:Science Press,2009.
[27] 陈有禄,周 强,陈 琼,等.近20年河湟谷地粮食作物种植结构对气候变化的响应[J].干旱地区农业研究,2018,36(5):223-229,241.
CHEN You-lu,ZHOU Qiang,CHEN Qiong,et al.The Response of Grain Crops in Hehuang Valley to the Climate Change Nearly 20 Years[J].Agricultural Research in the Arid Areas,2018,36(5):223-229,241.
[28] 曹晓云,祝存兄,陈国茜,等.2000~2021年柴达木盆地地表绿度变化及地形分异研究[J].生态环境学报,2022,31(6):1080-1090.
CAO Xiao-yun,ZHU Cun-xiong,CHEN Guo-qian,et al.Surface Greenness Change and Topographic Differentiation over Qaidam Basin from 2000 to 2021[J].Ecology and Environmental Sciences,2022,31(6):1080-1090.
[29] 李永国,安福元,张啟兴,等.柴达木盆地西部湖相地层风力侵蚀对黄土高原物源贡献的研究进展[J].盐湖研究,2017,25(2):105-111.
LI Yong-guo,AN Fu-yuan,ZHANG Qi-xing,et al.Research Progress of the Lacustrine Strata Deflation for Western Qaidam Basin and Its Provenance Significance for Loess Plateau[J].Journal of Salt Lake Research,2017,25(2):105-111.
[30] 韩 璐,陈 辉,陈同同,等.柴达木盆地土壤温湿度变化特征及相关关系分析[J].水土保持研究,2016,23(6):166-173.
HAN Lu,CHEN Hui,CHEN Tong-tong,et al.Varia-tions of the Soil Temperature and Moisture in Qaidam Basin and Their Relationship[J].Research of Soil and Water Conservation,2016,23(6):166-173.
[31] 鄂崇毅,侯光良,吴成永,等.柴达木盆地近50年气温变化时空分布特征分析[J].干旱区资源与环境,2013,27(10):94-99.
E Chong-yi,HOU Guang-liang,WU Cheng-yong,et al.The Analysis on Air Temperature Variation Characteristic in Qaidamu Basin(1961-2011)Under the Background of Global Warming[J].Journal of Arid Land Resources and Environment,2013,27(10):94-99.
[32] 张志春,盛海彦,欧建芳,等.冷温荒漠环境下柴达木黑果枸杞原生地土壤元素特征[J].土壤通报,2021,52(2):328-337.
ZANG Zhi-chun,SHENG Hai-yan,OU Jian-fang,et al.Characteristics of Soil Elements in the Qaidamu Lycium Ruthenicum Murray Under the Cool and Warm Arid Desert Environment[J].Chinese Journal of Soil Science,2021,52(2):328-337.
[33] 雷玉红,王发科,侯 岳,等.格尔木地区气候资源变化特征及对农业生产的影响[J].江苏农业科学,2021,49(15):221-227.
LEI Yu-hong,WANG Fa-ke,HOU Yue,et al.The Characteristics of Climate Resource Changes in the Golmud Area and Their Impacts on Agricultural Production[J].Jiangsu Agricultural Sciences,2021,49(15):221-227.
[34] 鲍士旦.土壤农化分析[M].3版.北京:中国农业出版社,2000.
BAO Shi-dan.Soil Agrochemical Analysis[M].3rd ed.Beijing:China Agricultural Press,2000.
[35] 范拴喜,甘卓亭,李美娟,等.土壤重金属污染评价方法进展[J].中国农学通报,2010,26(17):310-315.
FAN Shuan-xi,GAN Zhuo-ting,LI Mei-juan,et al.Progress of Assessment Methods of Heavy Metal Po-llution in Soil[J].Chinese Agricultural Science Bulletin,2010,26(17):310-315.
[36] 中国环境监测总站.中国土壤元素背景值[M].北京:中国环境科学出版社,1990.
China National Environmental Monitoring Centre.Ba-ckground Values of Elements in Chinese Soil[M].Beijing:China Environmental Science Press,1990.
[37] GB 15618—2018,土壤环境质量 农用地土壤污染风险管控标准(试行)[S].
GB 15618—2018,Soil Environmental Quality Risk Control Standard for Soil Contamination of Agricultural Land[S].
[38] MÜLLER G.Index of Geoaccumulation in Sediments of the Rhine River[J].GeoJournal,1969,2(3):108-118.
[39] HAKANSON L.An Ecological Risk Index for Aqua-tic Pollution Control:A Sedimentological Approach[J].Water Research,1980,14(8):975-1001.
[40] 郭笑笑,刘丛强,朱兆洲,等.土壤重金属污染评价方法[J].生态学杂志,2011,30(5):889-896.
GUO Xiao-xiao,LIU Cong-qiang,ZHU Zhao-zhou,et al.Evaluation Methods for Soil Heavy Metals Contamination:A Review[J].Chinese Journal of Ecology,2011,30(5):889-896.
[41] 马建华,韩昌序,姜玉玲.潜在生态风险指数法应用中的一些问题[J].地理研究,2020,39(6):1233-1241.
MA Jian-hua,HAN Chang-xu,JIANG Yu-ling.Some Problems in the Application of Potential Ecological Risk Index[J].Geographical Research,2020,39(6):1233-1241.
[42] 夏子书,白一茹,王幼奇,等.基于PMF模型的宁南山区小流域土壤重金属空间分布及来源解析[J].环境科学,2022,43(1):432-441.
XIA Zi-shu,BAI Yi-ru,WANG You-qi,et al.Spatial Distribution and Source Analysis of Soil Heavy Me-tals in a Small Watershed in the Mountainous Area of Southern Ningxia Based on PMF Model[J].Environmental Science,2022,43(1):432-441.
[43] 王 猛,汪 季,蒙仲举,等.巴丹吉林沙漠东缘天然梭梭种群空间分布异质性[J].生态学报,2016,36(13):4055-4063.
WANG Meng,WANG Ji,MENG Zhong-ju,et al.Spatial Heterogeneity of Natural Haloxylon Ammodendron Populations at Ta-Mu-Su,Badain Jaran De-sert,China[J].Acta Ecologica Sinica,2016,36(13):4055-4063.
[44] LI W Q,QIAN H,XU P P,et al.Distribution Characteristics,Source Identification and Risk Assessment of Heavy Metals in Surface Sediments of the Yellow Ri-ver,China[J].Catena,2022,216:106376.
[45] 杨 雳,白宗旭,薄文浩,等.中国农田土壤重金属污染分析与评价[J].环境科学,2024,45(5):2913-2925.
YANG Li,BAI Zong-xu,BO Wen-hao,et al.Analysis and Evaluation of Heavy Metal Pollution in Farmland Soil in China:A Meta-analysis[J].Environmental Science,2024,45(5):2913-2925.
[46] FAN T T,LONG L,LU Y Y,et al.Meta-analysis of Cd Input-output Fluxes in Agricultural Soil[J].Che-mosphere,2022,303:134974.
[47] TONG S M,YANG L S,GONG H Q,et al.Bioaccumulation Characteristics,Transfer Model of Heavy Metals in Soil-crop System and Health Assessment in Plateau Region,China[J].Ecotoxicology and Environmental Safety,2022,241:113733.
[48] 乔 浩,孙小凤,韩 燕,等.柴达木地区枸杞农药残留风险评估[J].农产品质量与安全,2017(5):38-43.
QIAO Hao,SUN Xiao-feng,HAN Yan,et al.Risk Assessment of Pesticide Residue in Wolfberry from Qaidam Areas[J].Quality and Safety of Agro-produ-cts,2017(5):38-43.
[49] 史雪岩,王海光,王文卓,等.西北春小麦和麦田土壤中15种常用农药残留的检测[J].植物保护,2020,46(5):53-59,76.
SHI Xue-yan,WANG Hai-guang,WANG Wen-zhuo,et al.Determination of Residues from 15 Pesticides in Wheat and Soil from Spring Wheat Fields in Northwest China[J].Plant Protection,2020,46(5):53-59,76.
[50] 贾湃湃,李佳媚,李继荣,等.不同地区青稞的农药残留分析及慢性膳食暴露评估[J].现代食品科技,2021,37(9):305-312.
JIA Pai-pai,LI Jia-mei,LI Ji-rong,et al.Pesticide Residue Analysis and Chronic Dietary Exposure Assessment of Highland Barley from Different Regions[J].Modern Food Science and Technology,2021,37(9):305-312.
[51] 陈 明,刘 亮.采样间隔对城市表土剖面磁化率变化的影响[J].南京林业大学学报(自然科学版),2023,47(6):61-69.
CHEN Ming,LIU Liang.Study on the Effect of Urban Topsoil Sampling Interval on the Variation Pattern of Magnetic Susceptibility of Soil Profile[J].Journal of Nanjing Forestry University(Natural Sciences Edition),2023,47(6):61-69.
[52] 陈轶楠,张永清,张希云,等.晋南某钢厂周边土壤重金属与磁化率分布规律及其相关性研究[J].干旱区资源与环境,2014,28(1):85-91.
CHEN Yi-nan,ZHANG Yong-qing,ZHANG Xi-yun,et al.Distributions of Soil Heavy Metal Elements and Magnetic Susceptibility and Their Correlativity Around a Steel Factory in Southern Shanxi Province[J].Journal of Arid Land Resources and Environment,2014,28(1):85-91.
[53] WANG Y F,CHENG H F.Soil Heavy Metal(loid)Pollution and Health Risk Assessment of Farmlands Developed on Two Different Terrains on the Tibetan Plateau,China[J].Chemosphere,2023,335:139148.
[54] 王 美,李书田.肥料重金属含量状况及施肥对土壤和作物重金属富集的影响[J].植物营养与肥料学报,2014,20(2):466-480.
WANG Mei,LI Shu-tian.Heavy Metals in Fertilizers and Effect of the Fertilization on Heavy Metal Accumulation in Soils and Crops[J].Journal of Plant Nutrition and Fertilizer,2014,20(2):466-480.
[55] LUO L,MA Y B,ZHANG S Z,et al.An Inventory of Trace Inputs to Agricultural Soils in China[J].Journal of Environmental Management,2009,90(8):2524-2530.
[56] 孟 敏,杨林生,韦炳干,等.我国设施农田土壤重金属污染评价与空间分布特征[J].生态与农村环境学报,2018,34(11):1019-1026.
MENG Min,YANG Lin-sheng,WEI Bing-gan,et al.Contamination Assessment and Spatial Distribution of Heavy Metals in Greenhouse Soils in China[J].Journal of Ecology and Rural Environment,2018,34(11):1019-1026.
[57] 袁久东,付 蓉,胥婷婷,等.青海省低海拔地区春油菜施肥现状与减肥空间[J].干旱地区农业研究,2020,38(1):43-49.
YUAN Jiu-dong,FU Rong,XU Ting-ting,et al.Fertilization Status and Fertilizers Reducing Potential of Spring Rapeseed in Low-altitude Areas of Qinghai Province[J].Agricultural Research in the Arid Areas,2020,38(1):43-49.
[58] ZHANG H,WANG Z F,ZHANG Y L,et al.The Ef-fects of the Qinghai-Tibet Railway on Heavy Metals Enrichment in Soils[J].Science of the Total Environment,2012,439:240-248.
[59] ZHANG H,WANG Z F,ZHANG Y L,et al.Identification of Traffic-related Metals and the Effects of Different Environments on Their Enrichment in Roadside Soils Along the Qinghai-Tibet Highway[J].Science of the Total Environment,2015,521/522:160-172.
[60] TERAN K,IBRET G,FANETTI M.Impact of Urbanization and Steel Mill Emissions on Elemental Composition of Street Dust and Corresponding Particle Characterization[J].Journal of Hazardous Materials,2020,384:120963.
[61] 柏建坤,王建力,李潮流,等.藏北可可西里地区土壤元素背景值研究[J].环境科学,2014,35(4):1498-1501.
BAI Jian-kun,WANG Jian-li,LI Chao-liu,et al.Study on Soil Element Background Values of the Hoh Xil Area in North Tibet[J].Environmental Science,2014,35(4):1498-1501.
[62] WU W H,QU S Y,NEL W,et al.The Influence of Natural Weathering on the Behavior of Heavy Metals in Small Basaltic Watersheds:A Comparative Study from Different Regions in China[J].Chemosphere,2021,262:127897.
[63] 潘 彤.青海成矿单元划分[J].地球科学与环境学报,2017,39(1):16-33.
PAN Tong.Classification of Metallogenic Units in Qinghai,China[J].Journal of Earth Sciences and Environment,2017,39(1):16-33.
[64] 刘荣乐,李书田,王秀斌,等.我国商品有机肥料和有机废弃物中重金属的含量状况与分析[J].农业环境科学学报,2005,24(2):392-397.
LIU Rong-le,LI Shu-tian,WANG Xiu-bin,et al.Contents of Heavy Metal in Commercial Organic Fertili-zers and Organic Wastes[J].Journal of Agro-environment Science,2005,24(2):392-397.
[65] CAI N,WANG X P,ZHU H X,et al.Isotopic Insi-ghts and Integrated Analysis for Heavy Metal Levels,Ecological Risks,and Source Apportionment in River Sediments of the Qinghai-Tibet Plateau[J].Environmental Research,2024,251:118626.
[66] 张 磊,宋凤斌.土壤吸附重金属的影响因素研究现状及展望[J].土壤通报,2005,36(4):628-631.
ZHANG Lei,SONG Feng-bin.Adsorption of Heavy Metals by Soils and Its Affecting Factors[J].Chinese Journal of Soil Science,2005,36(4):628-631.
[67] LU S G,XU Q F.Competitive Adsorption of Cd,Cu,Pb and Zn by Different Soils of Eastern China[J].Environmental Geology,2009,57(3):685-693.
[68] SONG Q,GAO X,DU H Q,et al.Cultivation Impacts on Soil Texture During Oasis Expansion in Xinjiang,Northwest China:Wind Erosion Effects[J].Aeolian Research,2021,50:100646.
[69] DONG D M,ZHAO X M,HUA X Y,et al.Investigation of the Potential Mobility of Pb,Cd and Cr(Ⅵ)from Moderately Contaminated Farmland Soil to Groundwater in Northeast,China[J].Journal of Ha-zardous Materials,2009,162(2/3):1261-1268.

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Last Update: 2024-12-15