| [1] | 邢艳帅,乔冬梅,朱桂芬,等. 土壤重金属污染及植物修复技术研究进展[J]. 中国农学通报, 2014,30(17):208-214 |
| [2] | 钟晓兰,周生路,李江涛,等. 长江三角洲地区土壤重金属污染的空间变异特征:以江苏省太仓市为例[J]. 土壤学报, 2007,44(1):34-40 |
| [3] | 胡鹏杰,李柱,钟道旭,等. 我国土壤重金属污染植物吸取修复研究进展[J]. 植物生理学报, 2014,50(5):577-584 |
| [4] | CHANEY R L, MALIK M, YIN M L, et al. Phytoremediation of soil metals[J]. Current Opinion in Biotechnology,1997, 8(3):279-284 |
| [5] | 骆永明. 重金属污染土壤的植物修复[J]. 土壤, 1999,31(5):261-265 |
| [6] | 沈振国,陈怀满. 土壤重金属污染生物修复的研究进展[J]. 农村生态环境, 2000,16(2):39-44 |
| [7] | MCGRATH P S, ZHAO F J. Phytoextraction of metals and metalloids from contaminated soils[J]. Current Opinion in Biotechnology,2003, 14(3):277-282 |
| [8] | 刘维涛,倪均成,周启星,等. 重金属富集植物生物质的处置技术研究进展[J]. 农业环境科学学报, 2014,33(1):15-27 |
| [9] | ABHILASH P C, YUNUS M. Can we use biomass produced from phytoremediation?[J]. Biomass & Bioenergy,2011, 35(3):1371-1372 |
| [10] | SAS-NOWOSIELSKA A, KUCHARSKI R, MALKOWSKI E, et al. Phytoextraction crop disposal:An unsolved problem[J]. Environmental Pollution,2004, 128(3):373-379 |
| [11] | 李宁,吴龙华,孙小峰,等. 修复植物产后处置技术现状与展望[J]. 土壤, 2005,37(6):587-592 |
| [12] | GARBISU C, ALKORTA I. Phytoextraction:A cost-effective plant-based technology for the removal of metals from the environment[J]. Bioresource Technology,2001, 77(3):229-236 |
| [13] | KOPPOLU L, CLEMENTS L D. Pyrolysis as a technique for separating heavy metals from hyperaccumulators. Part I:Preparation of synthetic hyperaccumulator biomass[J]. Biomass & Bioenergy,2003, 25(25):651-663 |
| [14] | KOPPOLU L, PRASAD R, CLEMENTS L D. Pyrolysis as a technique for separating heavy metals from hyperaccumulators. Part Ⅲ:Pilot-scale pyrolysis of synthetic hyperaccumulator biomass[J]. Biomass & Bioenergy,2004, 26(5):463-472 |
| [15] | LIU W J, TIAN K, JIANG H,et al. Selectively improving the bio-oil quality by catalytic fast pyrolysis of heavy-metal-polluted biomass:Take copper (Cu) as an example[J]. Environmental Science & Technology,2012, 46(14):7849-7856 |
| [16] | SAS-NOWOSIELSKA A, KUCHARSKI R, MALKOWSKI E,et al. Phytoextraction crop disposal-an unsolved problem[J]. Environmental Pollution,2004, 128(3):373-379 |
| [17] | SHEORRAN V, SHEORAN A S, POONIA P. Phytomining:A review[J]. Minerals Engineering, 2009, 22(12):1007-1019 |
| [18] | ANDERSON C W N, BROOKS R R, CHIARUCCI A,et al. Phytomining for nickel, thallium and gold[J]. Journal of Geochemical Exploration,1999, 67(1/2/3):407-415 |
| [19] | SHEORRAN V, SHEORRAN A S, POONIA P. Phytomining of gold:A review[J]. Journal of Geochemical Exploration, 2013,128:42-50 |
| [20] | YAN X L, CHEN T B, LIAO X Y,et al. Arsenic transformation and volatilization during incineration of the hyperaccumulator Pterisvittata L[J]. Environmental Science & Technology,2008, 42(5):1479-1484 |
| [21] | LU S Y, DU Y Z, ZHONG D X,et al. Comparison of trace element emissions from thermal treatments of heavy metal hyperaccumulators[J]. Environmental Science & Technology,2012, 46(9):5052-5031 |
| [22] | BARBAROUX R, PLASARI E, MERCIER G,et al. A new process for nickel ammonium disulfate production from ash of the hyperaccumulating plant Alyssum murale[J]. Science of the Total Environment, 2012, 423(8):111-119 |
| [23] | GHOSH M, SINGH S P. A review on phytoremediation of heavy metals and utilization of its byproducts[J]. Applied Ecology & Environmental Research, 2005, 3(1):1-18 |
| [24] | 吴龙华,周守标,毕德,等. 中国景天科植物一新种:伴矿景天[J]. 土壤, 2006,38(5):632-633 |
| [25] | LI Z, WU L H, LUO Y M,et al. Dynamics of plant metal uptake and metal changes in whole soil and soil particle fractions during repeated phytoextraction[J]. Plant and Soil, 2014, 374(1):857-869 |
| [26] | JIANG J P, WU L H, LI N,et al. Effects of multiple heavy metal contamination and repeated phytoextraction by Sedum plumbizincicola, on soil microbial properties[J]. European Journal of Soil Biology, 2010, 46(1):18-26 |
| [27] | 郭燕妮, 方增坤, 胡杰华,等. 化学沉淀法处理含重金属废水的研究进展[J]. 工业水处理, 2011, 31(12):9-13 |
| [28] | 邢子鹏. 混凝-水解/好氧MBBR-Fenton法处理抗生素发酵废水研究[D]. 哈尔滨:哈尔滨工业大学, 2008 |
| [29] | 范懋功. 新型重金属沉淀剂:TMT[J]. 中国给水排水, 1993,9(2):54-55 |