微生物共同作用下的铁皮石斛组培苗生长效应研究

张萍; 钟云芳; 宋希强; 王晓鸣; 王健

doi:10.3724/SP.J.1142.2013.10073

微生物共同作用下的铁皮石斛组培苗生长效应研究

张萍,
钟云芳^1,3,
宋希强^1,2, ,,
王晓鸣^1,2,
王健^1,2

1.
海南大学热带作物种质资源保护与开发利用教育部重点实验室, 海口 570228
2. 海南大学园艺园林学院, 海口 570228
3. 海南珠峰园林科技有限公司, 海口 571102

基金项目: 国家自然科学基金项目(31160178);教育部博士点基金项目(20104601110002);海南省自然科学基金项目(310025);海南省科技成果示范推广专项(CGSF2011003)资助.

详细信息

作者简介:
张萍(1984-),女,硕士,从事兰科植物菌根技术研究(E-mail:dcwq126@126.com).

通讯作者:
宋希强, E-mail: songstrong@hainu.edu.cn

中图分类号: Q943.1; Q948.12⁺2.3
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出版历程
- 收稿日期: 2012-04-19
- 修回日期: 2012-11-19
- 发布日期: 2013-02-27

Interaction Effect of Symbiotic Microorganisms on Seedling Growth of Dendrobium catenatum Lindley (Orchidaceae)

1.
Key Laboratory of Protection and Developmental Utilization of Tropical Crop Germplasm Resources(Hainan University), Ministry of Education, Haikou 570228, China
2. College of Horticulture and Landscape Architecture, Hainan University, Haikou 570228, China
3. Hainan Everest Limited Company of Landscape Architecture, Haikou 571102, China

摘要

摘要: 植物体和植物根际均是复杂的微生态系统,其内栖息着关系复杂的共生微生物,共同影响植物的生长发育.为探讨混合接种真菌与细菌对兰科植物生长的影响,筛选出真菌与细菌的优势促生组合,本研究选取经分离、筛选获得的4株促生内生真菌(铁皮石斛内生真菌C22、C35,美花石斛内生真菌L12、L28)和3株促生内生细菌(铁皮石斛菌内生细菌TX-7、TX-16、TX-19),以"真菌+细菌"的方式混合接种于铁皮石斛无菌组培苗中,共培养120 d.结果获得了3组优势组合:C22+TX-19、L28+TX-16和L28+TX-19,它们对铁皮石斛组培苗的生长均表现出正效应,其中C22+TX-19和L28+TX-19对促进组培苗生物量的增长具有协同效应,L28+TX-19对提高组培苗的根分枝率具有协同效应,3个组合对增加组培苗的分蘖数和根尖数均表现为累加效应.研究结果表明,内生真菌与内生细菌的共同作用可显著促进铁皮石斛的生长,混合接种有可能更大地发挥微生物的效能.
- 铁皮石斛 /
- 混合接菌 /
- 协同效应 /
- 累加效应 /
- 菌根促生细菌
Abstract: Complex micro-ecosystems exist between plants and rhizosphere,where various symbiotic microorganisms with complicated interactions jointly influence the growth and deve-lopment of the plant.To better understand the interaction effect of fungi and bacteria on orchid growth,we screened four endophytic fungi that beneficially promote growth,among which two strains were isolated from Dendrobium catenatum and two from Dendrobium loddigesii.Three growth-promoting endophytic bacteria were also screened from D.catenatum,and combinations of tested fungi and bacteria were inoculated on the roots of seedlings for 120 days to investigate the growth effect on D.catenatum.Inocula combinations C22+TX-19,L28+TX-16,and L28+TX-19 demonstrated the best growth effect on the host,showing additive effects on the number of tillers and root tips of seedlings.Moreover,C22+TX-19 and L28+TX-19 combinations synergistically increased seedling biomass,and L28+TX-19 inocula synergistically promoted root branching.Results indicated that interactions between endophytic fungi and endophytic bacteria had significant growth promoting effects on the host.It may be possible to develop endophytic inocula for orchid growth.
- Dendrobium catenatum /
- Mixed inoculation /
- Synergistic effect /
- Additive effect /
- Mycorrhiza helper bacteria

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参考文献(26)

[1]	王平,李阜棣.有关细菌根部定殖测量的几个重要问题[J].土壤学进展, 1994, 22(6): 35-41.
[2]	Gamalero E,Trotta A,Massa N,Copetta A,Martinotti G M,Berta G.Impact of two fluorescent pseudomonads and an arbuscular mycorrhizal fungus on tomato plant growth,root architecture and Pacquisition[J].Mycorrhiza, 2004, 14: 185-192.
[3]	刘润进,陈应龙.菌根学[M].北京: 科学出版社, 2006.
[4]	Tarkka M T,Frey-Klett P.Mycorrhiza helper bac-teria [M]// Varma A,eds.Mycorrhiza.Berlin: Springer, 2008: 113-132.
[5]	Bowen G D,Theodorou C.Interactions between bacteria and ectomycorrhizal fungi[J].Soil Biol Biochem, 1979, 11: 119-126.
[6]	Garbaye J,Bowen G D.Effect of different microflora on the success of ectomycorrhizal inoculation of Pinus radiata[J].Can J For Res, 1987, 17: 941-943.
[7]	De Oliveira V L,Garbaye J.Les microorganismes auxiliaires de l’etablissement des symbioses ectomycorrhiziennes[J]. Eur J For Pathol, 1989, 19: 54-64.
[8]	Meyer J R,Linderman R G.Response of subterranean clover to dual inoculation with vesicular-arbuscular fungi and a plant growth promoting bacterium[J].Soil Biol Biochem, 1986, 18: 185-190.
[9]	Wilkinson K G,Dixon K W,Sivasithamparam K.Interaction of soil bacteria,mycorrhizal fungi and orchid seed in relation to germination of Australian orchids [J].New Phytol, 1989, 112(3): 429-435.
[10]	Duponnois R,Garbaye J.Mycorrhization helper bacteria associated with the Douglas fir Laccaria laccata symbiosis: effects in vitro and in glasshouse conditions[J].Ann Sci For, 1991, 48: 239-251.
[11]	Frey-Klett P,Chavatte M,Clausse M L,Courrier S,Roux C L,Raaijmakers J,Martinotti M G,Pierrat J C,Garbaye J.Ectomycorrhizal symbiosis affects functional diversity of rhizosphere fluorescent pseudomonads [J].New Phytol, 2005, 165(1): 317-328.
[12]	Vestberg M,Kukkonen S,Saari K,Parikka P,Huttunen J,Tainio L,Devos N,Weekers N,Kevers C,Thonart P,Lemoine M C,Cordier C,Alabouvette C,Gianinazzi S.Microbial inoculation for improving the growth and health of microprpagated strawberry [J].Appl Soil Ecol, 2004, 27(3): 243-258.
[13]	Pivato B,Offre P,Marchelli S,Barbonaglia B,Mougel C,Lemanceau P,Berta G.Effects on arbuscular mycorrhizal fungi and mycorrhiza development as influenced by the bacteria,fungi,and host plant[J].Mycorrhiza, 2009, 19: 81-90.
[14]	Artursson V,Finlay R D,Jansson J K.Interactions between arbuscular mycorrhizal fungi and bacteria and their potential for stimulating plant growth[J].Environ Microbiol, 2006, 8: 1-10.
[15]	吴慧凤.菌根真菌对铁皮石斛种子及其生长的影响.海口: 海南大学, 2011.
[16]	柯海丽,宋希强,谭志琼,刘红霞,罗毅波.野生五唇兰根部内生真菌多样性研究[J].生物多样性, 2007, 15(5): 456-462.
[17]	刘琳,孙磊,张瑞英,姚娜,李潞滨.春兰根中可分泌吲哚乙酸的内生细菌多样性[J].生物多样性, 2010, 18(2): 195-200.
[18]	Leveau J H J,Preston G M.Bacterial mycophagy: definition and diagnosis of a unique bacterial-fungal interaction[J].New Phytol, 2008, 117(4): 859-876.
[19]	Jargeat P,Cosseau C,Ola’h B,Jauneau A,Bonfante P,Batut J,Bécard G.Isolation,free-living capacities,and genome structure of'Candidatus Glomeribacter gigasporarum’,the endocellular bacterium of the mycorrhizal fungus Gigaspora margarita[J].J Bacteriol, 2004, 186: 6876-6884.
[20]	Probanza A,Garcia J A L,Palomino M R,Ramos B,Manero F J G.Pinus pinea L.seedling growth and bacterial rhizosphere structure after inoculation with PGPR Bacillus (B.licheniformis CECT5106 and B.pumilus CECT 5105)[J].Appl Soil Ecol, 2002, 20: 75-84.
[21]	Andrade G,Mihara K L,Linderman R G,Bethlenfalvay G J.Bacteria from rhizosphere and hyphosphere soils of different arbuscular-mycorrhizal fungi[J].Plant Soil, 1997, 192: 71-79.
[22]	Berta G,Fusconi A,Hooker J E.Arbuscular mycorrhizal modifications to plant root systems// Gianinazzi S,Schuepp H,eds.Mycorrhizal Technology: from genes to bioproducts-achievement and hurdles in arbuscular mycorrhizal research.Basel: Birkh User,2002: 71-101.
[23]	Offre P,Pivato B,Mazurier S,SeverineS,Graziella B,Philippe L,Christophe M.Microdiversity of Burkholderiales associated with mycorrhizal and non-mycorrhizal roots of Medicago truncatula[J].FEMS Microbiol Ecol, 2008, 65: 180-192.
[24]	Offre P,Pivato B,Siblot S,Gamalero E,Corberand T,Lemanceau P,Mougel C.Identification of bacterial groups preferentially associated with mycorrhizal roots of Medicago truncatula[J].Appl Environ Microbiol, 2007, 73: 913-921.
[25]	Xavier L J C,Germida J J.Bacteria associated with Glomus clarum spores influence mycorrhizal activity[J].Soil Biol Biochem, 2003, 35: 471-478.
[26]	Wilkinson K G,Dixon K W,Sivasithamparam K,Ghisalberti E L.Effect of IAA on symbiotic germination of an Australian orchid and its production by orchid-associated bacteria[J].Plant Soil, 1994, 159(2): 291-295.

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微生物共同作用下的铁皮石斛组培苗生长效应研究

作者简介: 张萍(1984-),女,硕士,从事兰科植物菌根技术研究(E-mail:dcwq126@126.com).

通讯作者: 宋希强, E-mail: songstrong@hainu.edu.cn

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出版历程

Interaction Effect of Symbiotic Microorganisms on Seedling Growth of Dendrobium catenatum Lindley (Orchidaceae)

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出版历程

目录

作者简介:
张萍(1984-),女,硕士,从事兰科植物菌根技术研究(E-mail:dcwq126@126.com).

通讯作者:
宋希强, E-mail: songstrong@hainu.edu.cn