[1] Huang Y, Li T, Wu C, et al. An integrated approach to assess heavy metal source apportionment in peri-urban agricultural soils. Journal of Hazardous Materials, 2015, 299: 540-549 [2] Xiao R, Wang S, Li R, et al. Soil heavy metal contamination and health risks associated with artisanal gold mining in Tongguan, Shaanxi, China. Ecotoxicology & Environmental Safety, 2017, 141: 17-24 [3] Micó C, Recatalá L, Peris M, et al. Assessing heavy metal sources in agricultural soils of an European Mediterranean area by multivariate analysis. Chemosphere, 2006, 65: 863-72 [4] Tan M-Z (檀满枝), Chen J (陈 杰), Zheng H-L (郑海龙), et al. Spatial prediction of soil heavy metal pollution using fuzzy c-mean algorithm. Acta Scientiae Circumstantiae (环境科学学报), 2006, 26(12): 2086-2092 (in Chinese) [5] Duruibe JO, Ogwuegbu MOC. Heavy metal pollution and human biotoxic effects. International Journal of Physical Sciences, 2007, 2: 112-118 [6] Zhao FJ, Ma Y, Zhu YG, et al. Soil contamination in China: Current status and mitigation strategies. Environmental Science & Technology, 2015, 49: 750-759 [7] Khan AG, Kuek C, Chaudhry TM, et al. Role of plants, mycorrhizae and phytochelators in heavy metal contaminated land remediation. Chemosphere, 2000, 41: 197-207 [8] Shi W-J (史文娇), Yue T-X (岳天祥), Shi X-L (石晓丽), et al. Identification methods of soil pollution for high risk heavy metals: A review. Soils (土壤), 2012, 44(2): 197-202 (in Chinese) [9] Luo M (罗 明), Pei T (裴 韬). Review on soft spatial data and its spatial interpolation methods. Progress in Geography (地理科学进展), 2009, 28(5): 663-667 (in Chinese) [10] Jiang Y (姜 勇), Li Q (李 琪), Zhang X-K (张晓珂), et al. Kriging prediction of soil zinc in contaminated field by using an auxiliary variable. Chinese Journal of Applied Ecology (应用生态学报), 2006, 17(1): 97-101 (in Chinese) [11] Wu W-Y (吴文勇), Yin S-Y (尹世洋), Liu H-L (刘洪禄), et al. Spatial structure and distribution characteristics of soil heavy metals in wastewater irrigation district. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2013, 29(4): 165-173 (in Chinese) [12] Zhang C-B (张长波), Li Z-B (李志博), Yao C-X (姚春霞), et al. Characteristics of spatial variability of soil heavy metal contents in contaminated sites and their implications for source identification. Soils (土壤), 2006, 38(5): 525-533 (in Chinese) [13] Zhao Y-J (赵玉杰), Tang S-R (唐世荣), Li Y (李 野), et al. Application of ordinary and indicator Kriging methods for screening non-rice-cropping areas. Acta Scientiae Circumstantiae (环境科学学报), 2009, 29(8):1780-1787 (in Chinese) [14] Yao R-J (姚荣江), Yang J-S (杨劲松), Yang Q-Y (杨奇勇), et al. Indicator Kriging of spatial distribution of soil Pb content in Yucheng City. Ecology & Environmental Sciences (生态环境学报), 2011, 20(12): 1912-1918 (in Chinese) [15] Goovaerts P. Geostatistics for Natural Resources Evaluation. Oxford, UK: Oxford University Press, 1997: 437-438 [16] Shi Z (史 舟), Li Y (李 艳), Cheng J-L (程街亮). Stochastic simulation of spatial distribution and uncertainty assessment of heavy metal in paddy soil. Environmental Science (环境科学), 2007, 28(1): 209-214 (in Chinese) [17] Wang J-Y (王景云), Yang J (杨 军), Yang J-X (杨俊兴), et al. A method for detecting outliers of soil heavy metal data based on spatial autocorrelation and probability theory. Journal of Geo-information Science (地球信息科学学报), 2017, 19(5): 605-612 (in Chinese) [18] Zhao Y-C (赵永存), Sun W-X (孙维侠), Huang B (黄 标), et al. Comparison of sequential indicator simulation and sequential indicator Co-simulation for quantifying the local uncertainty of soil Cd content. Journal of Agro-Environment Science (农业环境科学学报), 2008, 27(1): 139-146 (in Chinese) [19] Deutsch CV. GSLIB Geostatistical Software Library and User’s Guide. Oxford, UK: Oxford University Press, 1992 [20] Zhao H, Xia B, Fan C, et al. Human health risk from soil heavy metal contamination under different land uses near Dabaoshan Mine, Southern China. Science of the Total Environment, 2012, 417/418: 45-54 [21] State Environmental Protection Administration of China (国家环保局). The Technical Specification for Soil Environmental Monitoring (HJ/T 166-2004)[EB/OL]. (2004-01-25)[2017-05-21]. http://kjs.mep.gov.cn/hjbhbz/bzwb/jcffbz/200412/t20041209_63367.shtml (in Chinese) [22] Juang KW, Chen YS, Lee DY. Using sequential indicator simulation to assess the uncertainty of delineating heavy-metal contaminated soils. Environmental Pollution, 2004, 127: 229-238 [23] Huang JH, Liu WC, Zeng GM, et al. An exploration of spatial human health risk assessment of soil toxic metals under different land uses using sequential indicator simulation. Ecotoxicology & Environmental Safety, 2016, 129: 199-209 [24] Goovaerts P. Geostatistical modelling of uncertainty in soil science. Geoderma, 2001, 103: 3-26 [25] Cattle JA, Mcbratney AB, Minasny B. Kriging method evaluation for assessing the spatial distribution of urban soil lead contamination. Journal of Environmental Quality, 2002, 31: 1576-1588 [26] Chen F-R (陈锋锐), Qin F (秦 奋), Li X (李熙), et al. Inversion for spatial distribution of soil organic matter content based on multivariate geostatistics. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2012, 28(20): 188-194 (in Chinese) [27] Hakanson L. An ecological risk index for aquatic pollution control: A sedimentological approach. Water Research, 1980, 14: 975-1001 [28] Xu Z-Q (徐争启), Ni S-J (倪师军), Tuo X-G (庹先国), et al. Calculation of heavy metals’ toxicity coefficient in the evaluation of potential ecological risk index. Environmental Science & Technology (环境科学与技术), 2008, 31(2): 112-115 (in Chinese) [29] Xin K, Gui S, Hao H, et al. Ecological risk assessment and source identification for heavy metals in surface sediment from the Liaohe River protected area, China. Chemosphere, 2017, 175: 473-481 [30] Liu P-J (刘霈珈), Wu K-N (吴克宁), Luo M (罗 明), et al. Evaluation of agricultural land soil heavy metal elements exceed standards and safe utilization zones. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2016, 32(23): 254-262 (in Chinese) [31] Zhang C-P (张春鹏), Li F-X (李富祥). Spatial distribution and potential ecological risk assessment of heavy metals in sediments of Yalu River estuary wetland mudflat. Chinese Journal of Applied Ecology (应用生态学报), 2016, 27(9): 2884-2890 (in Chinese) [32] Administration of Quality and Technology Supervision of Guangdong Province (广东省质量技术监督局). Risk Screening Values for Soil Heavy Metal in the Pearl River Delta Area (DB 44/ T1415-2014)[EB/OL]. (2014-03-25)[2017-05-22] http://www.sdciq.gov.cn/ztzl/kjkc/bzgg/dfbz/201507/t20150724_94312.html (in Chinese) [33] State Environmental Protection Administration of China (国家环保局). Soil Environmental Quality Standard for Soils (GB 15618-1995) [EB/OL]. (1995-03-25)[2017-05-22]. http://kjs.mep.gov.cn/hjbhbz/bzwb/trhj/trhjzlbz/199603/t19960301_82028.htm (in Chinese) [34] Jia Y (贾 英), Fang M (方 明), Wu Y-J (吴友军), et al. Pollution characteristics and potential ecological risk of heavy metals in river sediments of Shanghai. China Environmental Science (中国环境科学), 2013, 33(1): 147-153 (in Chinese) [35] Yin Y-C (银燕春), Wang L-L (王莉淋), Xiao H (肖 鸿), et al. Characteristics and sources of heavy metal pollution in urban, suburban and rural domestic waste of Chengdu, China. Chinese Journal of Environmental Engineering (环境工程学报), 2015, 9(1): 392-400 (in Chinese) [36] Shu X (舒 晓), Zhao Y-J (赵永军), Wang B-J (王兵杰). Problem analysis of geological properties evaluation using indicator Kriging. Petrochemical Industry Application (石油化工应用), 2013, 32(9): 61-66 (in Chinese) |