312 工程科学学报,第42卷,第3期 [7]Zhu YA,Huang DC.Liao X F,et al.A survey of plant resources contaminated with arsenic,lead,zinc and copper using Pteris in the contaminated soil of uranium mine.Jiangxi Sci,2012. vittata L.:a field study.Acta Sci Circum,2010,30(1):165 30(5):620 (谢景千,雷梅,陈同斌,等.蜈蚣草对污染土壤中As、Pb、Z、 (朱业安,黄德超,廖晓峰,等轴矿区污染土壤上植物资源调研 Cu的原位去除效果.环境科学学报,2010,30(1):165) 江西科学,2012,30(5):620) [14]Chandrasekhar C,Ray J G.Lead accumulation,growth responses [8]Feng N.Enrichment of herbaceous plants on soil heavy metal. and biochemical changes of three plant species exposed to soil Environ Sci Manage,2015,40(7):138 amended with different concentrations of lead nitrate.Ecofoxicol (丰楠.草本植物对土壤重金属的富集研究.环境科学与管理, Environ Saf,2019,171:26 2015,40(7):138) [15]Mo F X.Study on the Feature of Heavy Metal Pollution and [9]Kersten G,Majestic B,Quigley M.Phytoremediation of cadmium Phytoremediation in Three Gorges Reservoir[Dissertation]. and lead-polluted watersheds.Ecotoxicol Environ Saf,2017,137 Chongqing:Chongqing Jiaotong University,2014 225 (莫福孝.三峡库区消落带土壤重金属污染特征及植物修复技 [10]Pilipovic A,Zalesny Jr.R S,Roncevic S,et al.Growth, 术研究[学位论文].重庆:重庆交通大学,2014) physiology,and phytoextraction potential of poplar and willow [16]Gao F J,Ju T N,Wu X,et al.Spatial variability and established in soils amended with heavy-metal contaminated, autocorrelation analysis of pH in a mollisol tillage area of dredged river sediments.J Environ Manage,2019,239:352 [11]Zeng P,GuoZ H,Xiao X Y,et al.Effect of phytoremediation with Northeast China.Soils,2018,50(3):566 (高凤杰,鞠铁男,吴啸,等.黑土耕作层土壤H空间变异及自相 Broussonetia papyrifera on the biological quality in soil contaminated with heavy metals.China Environ Sci,2018,38(7): 关分析.土壤,2018,50(3):566) 2639 [17]Zhu H,Bing H J,Wu Y H,et al.The spatial and vertical (曾鹏,郭朝晖,肖细元,等.构树修复对重金属污染土壤环境质 distribution of heavy metal contamination in sediments of the 量的影响.中国环境科学,2018,38(7):2639) Three Gorges Reservoir determined by anti-seasonal flow [12]Liu W,Shu W S,Lan C Y.Viola baoshanensis-A new regulation.Sci Total Eniron,2019,664:79 hyperaccumulator for cadmium.Chin Sci Bull,2003,48(19):2046 [18]An ZZ,Chen T B,Lei M,et al.Tolerance of Pteris vittata L.to (刘威,束文圣,蓝崇钰.宝山革菜(Viola baoshanensis)一一种新 Pb,Cu and Zn.Acta Ecol Sin,2003,23(12):2594 的镉超富集植物.科学通报,2003,48(19):2046) (安志装,陈同斌,雷梅,等.娱蚣草耐铅、铜、锌毒性和修复能力 [13]Xie J Q,Lei M,Chen T B,et al.Phytoremediation of soil co- 的研究.生态学报,2003,23(12):2594)Zhu Y A, Huang D C, Liao X F, et al. A survey of plant resources in the contaminated soil of uranium mine. Jiangxi Sci, 2012, 30(5): 620 (朱业安, 黄德超, 廖晓峰, 等. 铀矿区污染土壤上植物资源调研. 江西科学, 2012, 30(5):620) [7] Feng N. Enrichment of herbaceous plants on soil heavy metal. Environ Sci Manage, 2015, 40(7): 138 (丰楠. 草本植物对土壤重金属的富集研究. 环境科学与管理, 2015, 40(7):138) [8] Kersten G, Majestic B, Quigley M. Phytoremediation of cadmium and lead-polluted watersheds. Ecotoxicol Environ Saf, 2017, 137: 225 [9] Pilipovic A, Zalesny Jr. R S, Roncevic S, et al. Growth, physiology, and phytoextraction potential of poplar and willow established in soils amended with heavy-metal contaminated, dredged river sediments. J Environ Manage, 2019, 239: 352 [10] Zeng P, Guo Z H, Xiao X Y, et al. Effect of phytoremediation with Broussonetia papyrifera on the biological quality in soil contaminated with heavy metals. China Environ Sci, 2018, 38(7): 2639 (曾鹏, 郭朝晖, 肖细元, 等. 构树修复对重金属污染土壤环境质 量的影响. 中国环境科学, 2018, 38(7):2639) [11] Liu W, Shu W S, Lan C Y. Viola baoshanensis−A new hyperaccumulator for cadmium. Chin Sci Bull, 2003, 48(19): 2046 (刘威, 束文圣, 蓝崇钰. 宝山堇菜(Viola baoshanensis)‒‒一种新 的镉超富集植物. 科学通报, 2003, 48(19):2046) [12] [13] Xie J Q, Lei M, Chen T B, et al. Phytoremediation of soil cocontaminated with arsenic, lead, zinc and copper using Pteris vittata L.: a field study. Acta Sci Circum, 2010, 30(1): 165 (谢景千, 雷梅, 陈同斌, 等. 蜈蚣草对污染土壤中As、Pb、Zn、 Cu的原位去除效果. 环境科学学报, 2010, 30(1):165) Chandrasekhar C, Ray J G. Lead accumulation, growth responses and biochemical changes of three plant species exposed to soil amended with different concentrations of lead nitrate. Ecotoxicol Environ Saf, 2019, 171: 26 [14] Mo F X. Study on the Feature of Heavy Metal Pollution and Phytoremediation in Three Gorges Reservoir[Dissertation]. Chongqing: Chongqing Jiaotong University, 2014 (莫福孝. 三峡库区消落带土壤重金属污染特征及植物修复技 术研究[学位论文]. 重庆: 重庆交通大学, 2014) [15] Gao F J, Ju T N, Wu X, et al. Spatial variability and autocorrelation analysis of pH in a mollisol tillage area of Northeast China. Soils, 2018, 50(3): 566 (高凤杰, 鞠铁男, 吴啸, 等. 黑土耕作层土壤pH空间变异及自相 关分析. 土壤, 2018, 50(3):566) [16] Zhu H, Bing H J, Wu Y H, et al. The spatial and vertical distribution of heavy metal contamination in sediments of the Three Gorges Reservoir determined by anti-seasonal flow regulation. Sci Total Environ, 2019, 664: 79 [17] An Z Z, Chen T B, Lei M, et al. Tolerance of Pteris vittata L. to Pb, Cu and Zn. Acta Ecol Sin, 2003, 23(12): 2594 (安志装, 陈同斌, 雷梅, 等. 蜈蚣草耐铅、铜、锌毒性和修复能力 的研究. 生态学报, 2003, 23(12):2594) [18] · 312 · 工程科学学报,第 42 卷,第 3 期