曹福亮,郁万文,朱宇林. 2012. 银杏幼苗修复Pb和Cd重金属污染土壤特性. 林业科学, 48(4): 8-13.
(Cao F L, Yu W W, Zhu Y L. 2012. Phytoremediation characteristics of the Pb and Cd contaminated soils by ginkgo seedling. Scientia Silvae Sinicae, 48(4): 8-13. [in Chinese] )
曹晓玲,黄道友,朱奇宏,等. 2012. 苎麻对镉胁迫的响应及其对其他重金属吸收能力的研究. 中国麻业科学, 34(4): 190-195.
(Cao X L, Huang D Y, Zhu Q H, et al. 2012. Response of ramie growth to Cd stress and its uptake of heavey metals. Plant Fiber Sciences in China, 34(4): 190-195. [in Chinese] )
常青山,马祥庆. 2005. 重金属超富集植物筛选的研究进展. 农业环境科学学报,24(21): 330-335.
(Chang Q S, Ma X Q. 2005. Advances in the research of selecting hyperaccumulator. Journal of Agro-Environment Science, 24(21): 330-335. [in Chinese] )
李嫦玲. 2006. 镉、铅及其复合污染对菊科植物生长和品质安全性的影响. 南京: 南京农业大学硕士学位论文.
(Li C L. 2006. Impacts of cadmium and lead contamination on the growth and quality of Chrysanthemum plants. Nanjing: MS thesis of Nanjing Agricultural University. [in Chinese] )
林晓倩,张健,杨万勤,等. 2013. 3种土壤类型下铅胁迫对巨桉幼苗的影响. 林业科学, 49(1): 1-6.
(Lin X Q, Zhang J, Yang W Q, et al. 2013. Effects of Pb stress on Eucalyptus Grandis seedlings in three types of soil. Scientia Silvae Sinicae, 49(1): 1-6. [in Chinese] )
刘声传,罗显扬,赵志清,等. 2011. 茶树对铅、镉、铜的吸收累积特性研究. 西南农业学报, 24(5): 1805-1812.
(Liu S C, Luo X Y, Zhao Z Q, et al. 2011. Study on uptake and accumulation of Pb, Cd and Cu in tea plant. Southwest China Journal of Agricultural Sciences, 24(5): 1805-1812. [in Chinese] )
刘希华,林仙菊,邢建宏,等. 2011. 重金属富集林木的应用研究. 河南农业科学, 40(11): 13-16.
(Liu X H, Lin X J, Xing J H, et al. 2011. Advances in application of forest trees as hyperaccumulators of heavy metal. Journal of Henan Agricultural Sciences, 40(11): 13-16. [in Chinese] )
卢德亮,乔璐,陈立新,等. 2012. 哈尔滨市区绿地土壤重金属污染特征及植物富集. 林业科学, 48(8): 16-24.
(Lu D L, Qiao L, Chen L X, et al. 2012. Soil pollution characteristics by heavy metals and the plant enrichment in green space of urban areas of Harbin. Scientia Silvae Sinicae, 48(8): 16-24. [in Chinese] )
罗亚平,李明顺,张学洪.等. 2005. 广西荔浦锰矿区优势植物重金属累积特征. 广西师范大学学报: 自然科学版, 23(4): 89-93.
(Luo Y P, Li M S, Zhang X H, et al. 2005. Characteristics of bioaccumulation of heavy metals by dominant plants in Lipu manganese mine,Guangxi. Journal of Guangxi Normal University(Natural Science), 23(4): 89-93. [in Chinese] )
莫争,王春霞,陈琴,等. 2002. 重金属Cu,Pb,Zn,Cr,Cd在水稻植株中的富集和分布. 环境化学, 21(2): 110-116.
(Mo Z, Wang C X, Chen Q, et al. 2002. Distribution and enrichment of heavy metals of Cu,Pb,Zn,Cr and Cd in paddy plant. Environmental Chemistry, 21(2): 110-116. [in Chinese] )
沈振国,刘友良. 1998. 重金属超量积累植物研究进展. 植物生理学通讯, 34(2): 133-139.
(Shen Z G, Liu Y L. 1998. Progress in the study on the plants that hyperaccumulate heavy metal. Plant Physiology Communications, 34(2): 133-139. [in Chinese] )
唐咏,王萍萍,张宁. 2006. 植物重金属毒害作用机理研究现状. 沈阳农业大学学报, 37(4): 551-555.
(Tang Y, Wang P P, Zhang N. 2006. Researches in heavy metal toxicity mechanism in plant. Journal of Shenyang Agricultural University, 37(4): 551-555. [in Chinese] )
王飞,胥焘,郭强,等. 2012. Pb、Cd单一及复合胁迫下桂花幼苗的吸收累积特性研究. 安徽农业科学, 40(31): 15214-15218.
(Wang F, Xu T, Guo Q, et al. 2012. Characteristics of Pb and Cd uptake and accumulation in osmanthus fragrans(Thunb.) Lour.under single and combined stress of Pb and Cd. Journal of Anhui Agricultural Sciences, 40(31): 15214-15218. [in Chinese] )
魏树和,杨传杰,周启星. 2008. 三叶鬼针草等7种常见菊科杂草植物对重金属的超富集特征.环境科学, 29(10): 2912-2918.
(Wei S H, Yang C J, Zhou Q X. 2008. Hyperaccumulative characteristics of 7 widely distributing weed species in composite family especially bidens pilosa to heavy metals. Environmental Science, 29(10): 2912-2918. [in Chinese] )
夏家淇,骆永明. 2007. 我国土壤环境质量研究几个值得探讨的问题. 生态与农村环境学报, 23(1): 1-6.
(Xia J Q, Luo Y M. 2007. Several key issues in research of soil environmental quality in China. Journal of Ecology and Rural Environment, 23(1): 1-6. [in Chinese] )
徐学华,黄大庄,王圣杰,等. 2010. 保定河道公路绿化树种毛白杨的抗重金属能力. 林业科学, 46(5): 7-13.
(Xu X H, Huang D Z, Wang S J, et al. 2010. Resistance of heavy metal in populus tomentosa along stream highway. Scientia Silvae Sinicae, 46(5): 7-13. [in Chinese] )
杨剑虹,王成林,代亨林. 2008. 土壤农化分析与环境监测. 北京:中国大地出版社.
于静波. 2012. Cd、Pb及其复合胁迫对樟树生理特性的影响. 福州: 福建农林大学硕士学位论文.
(Yu J B. 2012. Effects of Cd、Pb and their compound stress on physiological characteristics of Camphor. Fuzhou: MS thesis of Fujian Agriculture & Forestry University. [in Chinese] )
张永超,陈存根,钟发明,等. 2011. 重金属铅、镉在白榆中分布规律和累积特性研究. 西北林学院学报, 26(5): 6-11.
(Zhang Y C, Chen C G, Zhong F M, et al. 2011. Distribution and accumulation of lead and cadmium in Ulmus pumila. Journal of Northwest Forestry University, 26(5): 6-11. [in Chinese] )
周耀渝,杨胜香,袁志忠,等. 2012. 湘西铅锌矿区重金属污染评价及优势植物重金属累积特征.地球与环境, 40(3): 361-366.
(Zhou Y Y, Yang S X, Yuan Z Z, et al. 2012. Assessment of heavy metal pollution in mine soil and bioaccumlation characteristics of dominant plants in a lead-zinc mineland,west Hunan. Earth and Environment, 40(3): 361-366. [in Chinese] )
Chen T B, Wei C Y, Huang Z C, et al. 2002. Arsenic hyper accumulator Pteris vittata L.and its arsenic accumulation. Chinese Science Bulletin, 47(11): 902-905.
Cunningham S D. 1996. Promises and prospects of phytoremediation. Plant Physical, 110(3): 715-719.
Lasat M M, Fuhrmann M, Ebbs S D, et al. 1998. Phytorectraction of a radiocesium contaminated soil: evaluation of cesium-137 bioacuumulation in the shoots of three plant species. Journal of Environmental Quality, 27(1): 165-169.
Mattina M, Lannucci-Berger W, Musante C, et al. 2003. Concurrent plant uptake of heavy metals and persistent organic pollutants from soil. Environmental Pollution, 124(3): 375-378.
Robinson B H, Brooks R R, Howes A, et al. 1997. The potential of the high-biomass nickel hyperaccumulator Berkheya coddii for phytoremediation and phytomining. Journal of Geochemical Exploration, 60(2): 115-126.
Salt D E, Blaylock M, Kumar P, et al. 1995. Phytoremediation: A novel strategy for the removal of toxic metals from the environment using plants. Biotechnology, 13(5): 468-474.
Song N H, Zhang S, Hong M, et al.2010. Impact of dissolved organic matter on bioavailability of chlorotoluron to wheat. Environmental Pollution, 158(3): 906-912.
Zu Y Q, Li Y, Christian S, et al. 2004. Accumulation of Pb, Cd, Cu and Zn in plants and hyperaccmulator choice in Lanping lead-zinc mine area, China. Environment International, 30(4): 567-576. |