[1] 陈德昭,等.中国植物志(39卷)[M].北京:科学出版社,1988. [2] 何电源,等.中国南方土壤肥力与栽培植物施肥[M]. 北京:科学出版社, 1994. [3] 张志权,蓝崇钰. 铅锌矿尾矿场所植被重建的生态学研究Ⅰ.尾矿对种子萌发的影响[J].应用生态学报,1994,5(1):52~56. [4] 张志权,等.引入土壤种子库对铅锌尾矿废弃地植被恢复的作用[J]. 植物生态学报,2000,24(5):601~607. [5] 张志权,等.土壤种子库与矿业废弃地植被恢复研究:定居植物对重金属的吸收和再分配[J].植物生态学报,2001,25(3):306~311. [6] 赵景逵,等.矿区土地复垦技术与管理[M].北京:农业出版社,1993. [7] Ash,H.J.et al.The introduction of native plant species on industrial waste heaps:a test of immigration and other factors affecting primary succession [J].Journal of Applied Ecology,1994,31(1):74~84. [8] Bradshaw,A.D.and Chadwick,M.J.The Restoration of Land:the Ecology and Reclamation of Derelict and Degraded Land [M].Oxford :Blackwell Scientific Publications,1980. [9] Gemmell, R.P.Colonisation of Industrial Wasteland [M].London:Arnold,1977. [10] Harris,J.A.et al.Land Restoration and Reclamation:Principles and Practice[M].Singapore:Longman,1996. [11] Herrera,M.A.et al.Inoculation of woody legumes with selected arbuscular mycorrhizal fungi and rhizobia to recocer deseritified Mediterranean ecosystems [J].Applied and Environmental Microbiology,1993,59(1):129~133. [12] Jha,P.K.et al.Suitability of rhizobia-inoculated wid legumes Argyrolobium flaccidum,Astragalus graveolens,Indigofera gangetica and Lespedeza stenocarpa in providing a vegetational cover in an unreclaimed limestone quarry [J].Plant and Soil,1995,177(2):139~149. [13] Kruckeberg,A.L.and Wu,L.Copper tolerance and copper accumulation of herbaceous plants colonizing inactive California copper mines [J].Ecotoxicology and Environmental Safety, 1992,23(3):307~319. [14] Li,R.W.and Daniels,W.L.Nitrogen accumulation and form over time in young mine soils [J].Journal of Environmental Quality,1994,23(1):166~172. [15] Lim,G.and Burton,J.C.Nodulation status of the leguminosae[A].In:Broughton,W. J.(ed).Nitrogen Fixation " Volume 2:Rhizobium[C].Oxford:Clarendon Press,1982. [16] Lin,S.L.and Wu,L.Effects of copper concentration on mineral nutrient uptake and copper accumulation in protein of copper-tolerant and nontolerant Lotus purshianus L.[J].Ecotoxicology and Environmental Safety,1994,29(2):214~228. [17] Mabberley,D.J.The Plant-Book:A Portable Dictionary of the Vascular Plants (second edition)[M].Cambridge,UK:Cambridge University Press,1997.396~399. [18] Obbard,J.P.and Jones,K.C.The effect of heavy metals on dinitrogen fixation by Rhizobium while clover in range of long-term sewage sludge amended and metal-contaminated soils [J].Environmental Pollution,1993,79(2):105~112. [19] Peters,T.H.Mine tailings reclamation. In co-limiter's experience with the reclaiming of sulphide tailings in the sudbury area[A].In:Salomons,W.(eds).Environmental Management of Soil Waste[C].Ontario,Canada:Springer-Verlag Berlin Heidelberg,1988.152~165. [20] Piha,M.I.et al.A low input approach to vegetation establishment on mine and coal ash wastes in semi-arid regions.Ⅰ.Tin mine tailings in Zimbabwe [J]. Journal of Applied Ecology,1995a,32:372~381. [21] Piha,M.I.et al.A low input approach to vegetation establishment on mine and coal ash wastes in semi-arid regions.Ⅱ.Lagooned pulverized fuel has in Zimbabwe [J].Journal of Applied Ecology,1995b,32:382~390. [22] Richards,S.G.et al.The Reclamation of Former Coal Mines and Steelworks [M].Amsterdam:Elsevier,1993. [23] Smith,S.R.and Giller,K.E.Effective Rhizobium leguminosarum biovar trifolii present in five soils contaminated with heavy metals from long-term applications of sewage sludge or metal mine spoil [J].Soil Biol.and Biochem.,1992,24(8):781~788. [24] Smyth,C.R.Native legume trasplant survivorship and subsequent seedling recruitment on unamended coal mine soils in the Canadian Rocky Mountains [J].Mountain Research and Development,1997,17(2):145~157. [25] Sorensen,D.L.and Fresquez,P.R.Nitrification potential in reclaimed coal mine spoils and soils in the semiarid Southwest (USA)[J].Journal of Environmental Quality,1991,20(1):279~285. [26] Thatoi,H.et al.Comparative growth,nodulation and total nitrogen content of six tree legume species grown in iron mine waste soil [J].Journal of Tropical Forest Science,1995,8(1):107~115. [27] Wu,L.and Lin,S.L.Copper tolerance and copper uptake of Lotus purshianus (Benth.) Clem its symbiotic Rhizobium loti derived from a copper mine waste population[J].New Phytologist,1990,116(3):531~540. [28] Zhang,Z.Q.et al. Revegetation of Pb/Zn mine tailings:Germination and seedling establishment of plants[J].Land Contamination & Reclamation,1996,4(4):269~279. [29] Zhang,Z.Q.et al. Effects of zinc (zinc sulfate)on rhiobia-earleaf acacia (Acacia auriculaeformis) symbiotic association [J].Bioresource Technology,1998,64(2):97~104. |