[1]SMITH S E,BARKER S J.Plant phosphate transporter genes help harnesses the nutritional benefits of arbuscular mycorrhizal symbiosis[J].Trends Plant Sci,2002,75:189-190. [2]SIMON L,BOUSQUET J,LVESQUE R C,et al.Origin and diversification of endomycorrhizal fungi and coincidence with vascular plants[J].Nature,1993,363:67-69. [3]SMITH S E,READ D J.Mycorrhizal symbiosis[M].London:Academic,2008. [4]王倡宪,李晓林,宋福强,等.两种丛枝菌根真菌对黄瓜苗期枯萎病的防效及根系抗病相关酶活性的影响[J].中国生态农业学报,2012,20(1):53-57. [5]宰学明,夏连全,闫道良,等.丛枝菌根真菌对滨海扦插苗生根、生长和抗病相关酶活性的影响[J].广西植物,2011,31(3):393-397. [6]叶佳舒,李涛,胡亚军,等.干旱条件下AM真菌对植物生长和土壤水稳定性团聚体的影响[J].生态学报,2013,33(4):1080-1090. [7]毕银丽.丛枝菌根培养新技术及其对土地复垦生态效应[M].北京:地质出版社,2007. [8]毕银丽,冯广达,刘榕榕,等.微生物对煤系固体废弃物淋滤液污染性影响[J].环境科学与技术,2009,32(9):17-21. [9]XI J M,ZHAO H L,JIAN H C.Ecological risk assessment of open coal mine area[J].Environmental Monitoring and Assessment,2008,147(1-3):471-481. [10]JOHANSSON J F,PAUL L R,FINLAY R D.Microbial interactions in the mycorrhizosphere and their significance for sustainable agriculture[J].FEMS Microbiol Ecol,2004,48:1-13. [11]MARLEEN I,SYLVIE C,STPHANE DECLERCK.Methods for large-scale production of AM fungi:past,present,and future[J].Mycorrhiza,2011,21:1-16. [12]DOUDS D D J,NAGAHASHI G,PFEFFER P E,et al.On-farm production and utilization of arbuscular mycorrhizal fungus inoculum[J].Can J Plant Sci,2005,85:15-21. [13]金海如.农田就地培养生产丛枝菌根真菌生物菌剂肥料的方法[P].中国:CNl01805216A,2010.03.29. [14]岳辉,毕银丽,刘英.神东矿区采煤沉陷地微生物复垦动态监测与生态效应[J].科技导报,2012,30(24):33-37. [15]岳辉,毕银丽,ZHAKYPBEK Y,等.接种菌根对神东矿区采煤沉陷地生态修复效应[J].科技导报,2012,30(36):56-60. [16]GAUR A,ADHOLEYA.Arbuscular-mycorrhizal inoculation of five tropical fodder crops and inoculum production in marginal soil amended with organic matter[J].Biol Fertil Soils,2002,35:214-218. [17]DOUDS D D J,NAGAHASHI G,PFEFFER P E,et al.On-farm production of AM fungus inoculum in mixtures of compost and vermiculite[J].Biores Tech,2006,97:809-818. [18]GAUR A,ADHOLEYA A.Effects of the particle size of soil-less substrates upon AM fungus inoculum production[J].Mycorrhiza,2000(10):43-48. [19]MILLNER P D,KITT D G.The Beltsville method for soilless production of vesicular-arbuscular mycorrhizal fungi[J].Mycorrhiza,1992(2):9-15. [20]HART M M,READER R J.Does percent root length colonization and soil hyphal length reflect the extent of colonization for all AMF[J].Mycorrhiza,2002,12:297-301. [21]王倡宪,秦岭,冯固,等.三种丛枝菌根真菌对黄瓜幼苗生长的影响[J].农业环境科学学报,2003,22(3):301-303. [22]SYLVIA D M,SCHENCK N C.Application of superphosphate to mycorrhizal plants stimulates sporulation of phosphorustolerant vesicular-arbuscular mycorrhizal fungi[J].New Phytol,1983,95:655-661. [23]MA N,YOKOYAMA K,MARUMOTO T.Effect of peat on mycorrhizal colonization and effectiveness of the arbuscular mycorrhizal fungus Gigaspora margarita[J].Soil Sci Plant Nutr,2007,53:744-752. [24]GRYNDLER M,HRELOV H,SUDOV R,et al.Hyphal growth and mycorrhiza formationby the arbuscular mycorrhizal fungus Glomus claroideum BEG23 is stimulated by humic substances[J].Mycorrhiza,2005,15:483-488. [25]王幼珊,刘相梅,张美庆,等.盆栽基质及营养液对AM真菌接种剂繁殖的影响[J].华北农学报,2001,16(4):81-86. [26]BLANKE V,RENKER C,WAGNER M,et al.Nitrogen supply affects arbuscular mycorrhizal colonizationof Artemisia vulgaris in a phosphate-polluted field site[J].New Phytol,2005,166:981-992. [27]HAWKINS H J,GEORGE E.Hydroponic culture of the mycorrhizal fungus Glomus mosseae with Linum usitatissimum L.,Sorghumbicolor L.and Triticum aestivum L.[J].Plant Soil,1997,196:143-149. [28]ELMES R P,MOSSE B.Vesicular-arbuscular endomycorrhizal inoculum production II Experiments with maize (Zea mays) and other hosts in nutrient flow culture[J].Can J Bot,1984,62:1531-1536. [29]ZOBEL R W,DEL TREDICI P,TORREY J G.Method for growing plantsaeroponically[J].Plant Physiol,1976,57:344-346. [30]JARSTFER A G,SYLVIA D M.Mycorrhiza[M].Heidelberg:Springer,1995. [31]MOHAMMAD A,KHAN A G,KUEK C.Improved aeroponic culture of inocula of arbuscular mycorrhizal fungi[J].Mycorrhiza,2000,9:337-339. [32]DUGASSA D G,GRUNEWALDT-STCKER G,SCHNBECK F.Growth of Glomus intraradices and its effect on linseed (Linum usitatissimum L.) in hydroponic culture[J].Mycorrhiza,1995,5:279-282. [33]TAJINI F,SURIYAKUP P,VAILHE H,et al.Assess suitability of hydroaeroponic culture to establish tripartitesymbiosis between different AMF species,beans and rhizobia[J].BMC Plant Biol,2009,9:73. [34]HUNG L L,SYLVIA D M.Production of vesicular-arbuscular mycorrhizal fungus inoculum in aeroponic culture[J].Appl Environ Microbiol,1988,54:353-357. [35]WU C G,LIU Y S,HUNG L L.Spore development of Entrophospora kentinensis in an aeroponic system[J].Mycologia,1995,87:582-587. [36]HAWKINS H J,GEORGE E.Hydroponic culture of the mycorrhizal fungus Glomus mosseae with Linum usitatissimum L.,Sorghum bicolor L.and Triticum aestivum L.[J].Plant Soil,1997,196:143-149. [37]TAJINI F,SURIYAKUP P,VAILHE H,et al.Assess suitability of hydroaeroponic culture to establish tripartitesymbiosis between different AMF species,beans,and rhizobia[J].BMC Plant Biol,2009,9:73. [38]MOSSE B.The establishment of vesicular-arbuscular mycorrhiza under aseptic conditions[J].J Gen Microbiol,1962,27:509-520. [39]MOSSE B,HEPPER C M.Vesicular-arbuscular infections in root-organ cultures[J].Physiol Plant Pathol,1975,5:215-233. [40]MUGNIER J,MOSSE B.Vesicular-arbuscular mycorrhizal infection in transformed root-inducing T-DNA roots grown axenically[J].Phytopathology,1987,77:1045-1050. [41]BCARD G,FORTIN J A.Early events of vesicular-arbuscular mycorrhiza formation on Ri T-DNA transformed roots[J].New Phytol,1988,108:211-218. [42]ST-ARNAUD M,HAMEL C,VIMARD B,et al.Enhanced hyphal growth and spore production of the arbuscular mycorrhizal fungus Glomus intraradices in an in vitro system in the absence of host roots[J].Mycol Res,1996,100:328-332. [43]DOUDS D D J.Increased spore production by Glomus intraradices in the split-plate monoxenic culture system by repeated harvest,gel replacement and resupply of glucose to the mycorrhiza[J].Mycorrhiza,2002,12:163-167. [44]CHEN B D,CHRISTIE P,LI X L.A modified glass bead compartment cultivation system for the study of nutrient uptake by arbuscular mycorrhizae[J].Chemosphere,2001,42:185-192. [45]VOETS L,DUPRDE BOULOIS H,RENARCL L,et al.Development of an autotrophic culture system for the in vitro mycorrhization of potato plantlets[J].FEMS Microbiol Lett,2005,248:111-118. [46]毕银丽,汪洪钢,李晓林.VA菌根真菌对转移Ri T-DNA胡萝卜根器官的侵染[J].植物营养与肥料学报,1999,5(1):76-80. [47]毕银丽,汪洪钢,李晓林.丛枝菌根的双重培养方法及其菌丝际的建立[J].菌物系统,2000,19(4):517-521. [48]FONTAINE J,GRANDMOUGIN-FERJANI A,GLORIAN V,et al.24-Methyl:methylene sterols increase in monoxenic roots after colonization by arbuscular mycorrhizal fungi[J].New Phytol,2004,163:159-167. [49]BCARD G,FORTIN J A.Early events of vesicular-arbuscular mycorrhiza formation on Ri T-DNA transformed roots[J].New Phytol,1988,108:211-218. [50]STRULLU D G,ROMAND C.Méthode d’obtention d’endomycorhizes à vésicules et arbuscules en conditions axéniques[J].Comptes Rendus de l’Académie Des Sciences,1986,303:245-250. [51]DECLERCK S,STULLU D G,PLENCHETTE C.Monoxenic culture of the intraradical forms of Glomus sp.isolated from a tropical ecosystem:a proposed methodology for germplasm collection[J].Mycologia,1998,90:579-585. [52]MIROSLAV V,MIROSLAY V,ALBRECHTOV J,et al.The international market development for mycorrhizal technology.In:A.varma,ed.Mycorrhiza state of the art,Genetics and Molecular Biology,Eco-Function,Biotechnology,Eco-Physiology,Structure and Systematics[M].Heidelberg:Springer,2008:419438. [53]JAKOBSEN I,SMITH S E,SMITH F A.Function and diversity of arbuscular mycorrhizae in carbon and mineral nutrition [J].Mycorrhizal Ecology Ecology Study,2002,157:75-92. [54]LIU R J,LUO X S.A new method to quantify the inoculum potential of an arbuscular mycorrhizal fungi[J].New Phytol,1994,128:89-92. [55]ALKAN N,GADKAR V,YARDEN O,et al.Analysis of quantitative interactions between two species of arbuscular mycorrhizal fungi,Glomus mosseae and G.intraradices by realtime PCR[J].Appl Environ Microbiol,2006,72:4192-4199.