·1416 工程科学学报，第38卷，第10期 South China Univ Technol Nat Sci Ed,2012,40(10):83 ants for available vanadium in soil.Chin J Soil Sci,2010,41 (党志，卢桂宁，杨琛，等。金属硫化物矿区环境污染的源头 (5):1241 控制与修复技术.华南理工大学学报（自然科学版），2012， (侯明，王香桂.土壤有效态钒的浸提剂和浸提条件研究 40(10):83) 土通报，2010,41(5)：1241) Yang J Y,Tang Y,Yang K,et al.Leaching characteristics of va- 05] Zhu X B,Zhang Y M,Liu T.Experiment and mechanism of va- nadium in mine tailings and soils near a vanadium titanomagnetite nadium extraction from stone coal by roasting with activators mining site.J Hazardous Mater,2014,264:498 Chin J Rare Met,2013,37(2):283 [8]Li R P,Wang A J,Cao D H.Research on the distribution charac- (朱晓波，张一敏，刘涛.石煤活化培烧提钒试验及机制研 teristics of Zn,Cd in the Soil of Jinding Pb-Zn deposit,Lanping 究.稀有金属，2013,37(2)：283) County.Geol Rev,2009,55(1)126 6] Khan S,Kazi T G,Kolachi N F,et al.Hazardous impact and (李瑞萍，王安建，曹殿华，等.兰坪金顶铅锌矿区土壤重金 translocation of vanadium (V)species from soil to different vege- 属Zn,Cd分布特征研究.地质论评，2009,55(1)：126) tables and grasses grown in the vicinity of thermal power plant.J Wang M Y,Wang X W.Research status and prospect of vanadi- Hazardous Mater,2011,190 (1):738 um leaching processes from stone coal.Chin J Rare Met,2010, [17]Xu J Y,Li H B,Liang S,et al.Arsenic enhanced plant growth 34(1):90 and altered rhizosphere characteristics of hyperaccumulator Pteris (王明玉，王学文，石煤提钒浸出过程研究现状与展望.稀有 vittata.Engiron Pollut,2014,194:105 金属，2010,34(1)：90) [8] Zhong X P,Wang JJ,Zhao H W,et al.Investigation of heavy [10]Xie J Q,Lei M,Chen T B,et al.Phytoremediation of soil co- metals pollution in predominant plants around a municipal solid contaminated with arsenic,lead,zinc and copper using Pteris vit- waste incineration plant:a case study in Shenzhen Qingshuihe tata L:a field study.Acta Sci Circumstantiae,2010,30(1): MSWI plant.Acta Sci Nat Unig Pekinensis,2010,46(4):674 165 (钟秀萍，王俊坚，赵宏伟，等.垃圾焚烧厂周围优势植物的 (谢景千，雷梅，陈同斌，等.蜈蚣草对污染土壤中As,Ph, 重金属污染特征研究一以深圳市清水河垃圾焚烧厂为例 Zm,Cu的原位去除效果.环境科学学报，2010,30(1)： 北京大学学报：自然科学版，2010,46(4)：674) 165) 09 Audet P,Charest C.Heavy metal phytoremediation from a meta- [11]Wei B J,Wen X Y,Zhu S C,et al.Detection and evaluation of analytical perspective.Entiron Pollut,2007,147(1):231 soil contamination by heavy metals around one of smelters beside [20] Soda S.Hamada T,Yamaoka Y,et al.Constructed wetlands for Xiangjiang River.Cent South Unir Sci Technol,2013,44 advanced treatment of wastewater with a complex matrix from a (12):5180 metal-processing plant:bioconcentration and translocation factors (魏本杰，文新宇，朱生翠，等.湘江流域某治炼厂周边土壤 of various metals in Acorus gramineus and Cyperus alternifolius. 重金属含量检测及污染评价.中南大学学报（自然科学版）， Ecol Eng,2012,39:63 2013,44(12):5180) 21]Silva Gonzaga M I,Santos J A G,Ma L Q.Arsenic chemistry in [12]Fang W X,Wu P W,Zuo J L,et al.Selection of plant species the rhizosphere of Pteris vittata L and Nephrolepis exaltata L. for ecologically geochemical phytoremediation of the environments Enriron Pollut,2006,143 (2)254 polluted by Selenium,Molybdenum and Vanadium and Its per- 2]Hou M,Hu C J,Xiong L,et al.Accumulation,translocation spectives.Bull Mineral Pet Geochem,2005,24(3):222 and subcellular distribution of vanadium in Lycium barbarum (方维萱，兀鹏武，左建莉，等.硒、钼、钒污染环境的生态地 seedling.J Agro-Environ Sci,2013,32(8):1514 球化学修复物种筛选与展望.矿物岩石地球化学通报， (侯明，胡存杰，熊玲，等.钒在枸杞幼苗中积累，转运及亚 2005,24(3):222) 细胞分布.农业环境科学学报，2013,32(8)：1514) [13]Wang F,Zhang Y M,Liu T,et al.Comparison of direet acid [23]Dong LL,Zhao X G,Chao S J,et al.Study on plants absorbing leaching process and blank roasting acid leaching process in ex- and phytoremediation of Cd polluted soil.Syst Sci Compr Stud tracting vanadium from stone coal.Int J Miner Process,2014, ATic,2008,24(3)292 128:40 (董林林，赵先贵，巢世军，等.镉污染土壤的植物吸收与修 [14]Hou M,Wang X G.Study on extraction conditions and extract- 复研究.农业系统科学与综合研究，2008,24(3)：292)工程科学学报，第 38 卷，第 10 期 South China Univ Technol Nat Sci Ed，2012，40( 10) : 83 ( 党志，卢桂宁，杨琛，等． 金属硫化物矿区环境污染的源头 控制与修复技术． 华南理工大学学报( 自然科学版) ，2012， 40( 10) : 83) ［7］ Yang J Y，Tang Y，Yang K，et al． Leaching characteristics of va￾nadium in mine tailings and soils near a vanadium titanomagnetite mining site． J Hazardous Mater，2014，264: 498 ［8］ Li Ｒ P，Wang A J，Cao D H． Ｒesearch on the distribution charac￾teristics of Zn，Cd in the Soil of Jinding Pb--Zn deposit，Lanping County． Geol Ｒev，2009，55( 1) : 126 ( 李瑞萍，王安建，曹殿华，等． 兰坪金顶铅锌矿区土壤重金 属 Zn，Cd 分布特征研究． 地质论评，2009，55( 1) : 126) ［9］ Wang M Y，Wang X W． Ｒesearch status and prospect of vanadi￾um leaching processes from stone coal． Chin J Ｒare Met，2010， 34( 1) : 90 ( 王明玉，王学文． 石煤提钒浸出过程研究现状与展望． 稀有 金属，2010，34( 1) : 90) ［10］ Xie J Q，Lei M，Chen T B，et al． Phytoremediation of soil co￾contaminated with arsenic，lead，zinc and copper using Pteris vit￾tata L: a field study． Acta Sci Circumstantiae，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) ［11］ Wei B J，Wen X Y，Zhu S C，et al． Detection and evaluation of soil contamination by heavy metals around one of smelters beside Xiangjiang Ｒiver． J Cent South Univ Sci Technol，2013，44 ( 12) : 5180 ( 魏本杰，文新宇，朱生翠，等． 湘江流域某冶炼厂周边土壤 重金属含量检测及污染评价． 中南大学学报( 自然科学版) ， 2013，44( 12) : 5180) ［12］ Fang W X，Wu P W，Zuo J L，et al． Selection of plant species for ecologically geochemical phytoremediation of the environments polluted by Selenium，Molybdenum and Vanadium and Its per￾spectives． Bull Mineral Pet Geochem，2005，24( 3) : 222 ( 方维萱，兀鹏武，左建莉，等． 硒、钼、钒污染环境的生态地 球化学修 复 物 种 筛 选 与 展 望． 矿物岩石地球化学通报， 2005，24( 3) : 222) ［13］ Wang F，Zhang Y M，Liu T，et al． Comparison of direct acid leaching process and blank roasting acid leaching process in ex￾tracting vanadium from stone coal． Int J Miner Process，2014， 128: 40 ［14］ Hou M，Wang X G． Study on extraction conditions and extract￾ants for available vanadium in soil． Chin J Soil Sci，2010，41 ( 5) : 1241 ( 侯明，王香桂． 土壤有效态钒的浸提剂和浸提条件研究． 土壤通报，2010，41( 5) : 1241) ［15］ Zhu X B，Zhang Y M，Liu T． Experiment and mechanism of va￾nadium extraction from stone coal by roasting with activators． Chin J Ｒare Met，2013，37( 2) : 283 ( 朱晓波，张一敏，刘涛． 石煤活化焙烧提钒试验及机制研 究． 稀有金属，2013，37( 2) : 283) ［16］ Khan S，Kazi T G，Kolachi N F，et al． Hazardous impact and translocation of vanadium ( V) species from soil to different vege￾tables and grasses grown in the vicinity of thermal power plant． J Hazardous Mater，2011，190( 1) : 738 ［17］ Xu J Y，Li H B，Liang S，et al． Arsenic enhanced plant growth and altered rhizosphere characteristics of hyperaccumulator Pteris vittata． Environ Pollut，2014，194: 105 ［18］ Zhong X P，Wang J J，Zhao H W，et al． Investigation of heavy metals pollution in predominant plants around a municipal solid waste incineration plant: a case study in Shenzhen Qingshuihe MSWI plant． Acta Sci Nat Univ Pekinensis，2010，46( 4) : 674 ( 钟秀萍，王俊坚，赵宏伟，等． 垃圾焚烧厂周围优势植物的 重金属污染特征研究———以深圳市清水河垃圾焚烧厂为例． 北京大学学报: 自然科学版，2010，46( 4) : 674) ［19］ Audet P，Charest C． Heavy metal phytoremediation from a meta￾analytical perspective． Environ Pollut，2007，147( 1) : 231 ［20］ Soda S，Hamada T，Yamaoka Y，et al． Constructed wetlands for advanced treatment of wastewater with a complex matrix from a metal-processing plant: bioconcentration and translocation factors of various metals in Acorus gramineus and Cyperus alternifolius． Ecol Eng，2012，39: 63 ［21］ Silva Gonzaga M I，Santos J A G，Ma L Q． Arsenic chemistry in the rhizosphere of Pteris vittata L and Nephrolepis exaltata L． Environ Pollut，2006，143( 2) : 254 ［22］ Hou M，Hu C J，Xiong L，et al． Accumulation，translocation and subcellular distribution of vanadium in Lycium barbarum seedling． J Agro-Environ Sci，2013，32( 8) : 1514 ( 侯明，胡存杰，熊玲，等． 钒在枸杞幼苗中积累，转运及亚 细胞分布． 农业环境科学学报，2013，32( 8) : 1514) ［23］ Dong L L，Zhao X G，Chao S J，et al． Study on plants absorbing and phytoremediation of Cd polluted soil． Syst Sci Compr Stud Agric，2008，24( 3) : 292 ( 董林林，赵先贵，巢世军，等． 镉污染土壤的植物吸收与修 复研究． 农业系统科学与综合研究，2008，24( 3) : 292) · 6141 ·