干旱区研究

Arid Zone Research >

2018 , Vol. 35 >Issue 2: 340 - 345

DOI: https://doi.org/10.13866/j.azr.2018.02.11

Biological and Biological Resources

Research Progress of Community Structure and Ecological Functions of Phyllosphere Microorganisms

  • LIU Yan ,
  • XU Zhi-cai ,
  • TANG Li-song
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  • 1. State Key Laboratory of Desert and Oasis Ecology,Xinjiang Institute of Ecology and Geography,Chinese Academy of Sciences,Urumqi 830011,Xinjiang,China;
    2. Fukang State Station for Desert Ecosystem Observation and Research,Chinese Academy of Sciences,Fukang 831505,Xinjiang,China;
    3. University of Chinese Academy of Sciences,Beijing 100049,China

Received date: 2017-12-19

  Revised date: 2018-01-09

  Online published: 2018-04-18

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Abstract

Phyllosphere and rhizosphere of plants are two unique and complex ecosystems with rich microbial components,and play an important role in promoting plant growth,enhancing plant disease resistance and stress resistance.Over the past decades,rhizosphere attracted many microbiologists and botanists,especially some research progresses were achieved at the aspects of rhizospheric microorganisms in promoting plant growth and enhancing the effect and mechanism of plant disease resistance.Comparatively speaking,the study on phyllosphere microorganisms was much more behind that on rhizospheric microorganisms.Initially,the study on phyllosphere microorganisms was focused on plant pathogenic microorganisms,so the progress of researching phyllosphere microorganisms was slow due to the limitation of technical conditions.The research on phyllosphere microorganisms was developed rapidly since the 21st century along with the development of molecular biological technique,especially the application of high-throughput sequencing technology.Recently,numerous studies proved that only a few of phyllosohere microorganisms were pathogenic,and most of them benefited plants by improving nutrients,promoting plant growth,and improving disease and stress resistance,thus a very important role of structuring plant communities and sustaining their functions was played.The objectives of this review are as follows: ① To introduce the definition of phyllosphere and the development of the methodology related to phyllosphere microorganisms as well as their biological functions and mechanisms;and ② To provide future perspectives in understanding microorganisms.

Key words: phyllosphere; microorganism; community structure; endophyte; epiphyte; biological nitrogen fixation

Cite this article

LIU Yan , XU Zhi-cai , TANG Li-song . Research Progress of Community Structure and Ecological Functions of Phyllosphere Microorganisms[J]. Arid Zone Research, 2018 , 35(2) : 340 -345 . DOI: 10.13866/j.azr.2018.02.11

References

〔1〕 Lindow S E,Brandl M T.Microbiology of the phyllosphere〔J〕.Applied and Environmental Microbiology,2003,69(4):1 875-1 883.
〔2〕 Inácio J,Ludwig W,Spencer-Martins I,et al.Assessment of phylloplane yeasts on selected Mediterranean plants by FISH with group-and speciesspecific oligonucleotide probes〔J〕.Fems Microbiology Ecology,2010,71(1):61-72.
〔3〕 Last F T.Seasonal incidence of sporobolomyces on cereal leaves〔J〕.Transactions of the British Mycological Society,1955,38(3):221-239.
〔4〕 Sandhu A,Halverson L J,Beattie G A.Bacterial degradation of airborne phenol in the phyllosphere〔J〕.Environmental Microbiology,2007,9(2):383-392.
〔5〕 Ruinen J.Occurrence of Beijerinckia Species in the ‘Phyllosphere’〔J〕.Nature,1956,177(4 501):220-221.
〔6〕 Ruinen J.The phyllosphere:I.an ecologically neglected milieu〔J〕.Plant and Soil,1961,15(2):81-109.
〔7〕 Morris C E.Phyllosphere〔M〕.New Jersey:John Wiley & Sons,Ltd,2002.
〔8〕 Doan H K,Leveau J H.Artificial Surfaces in phyllosphere microbiology〔J〕.Phytopathology,2015,105(8):1 036-1 042.
〔9〕 Woodward F I,Lomas M R.Vegetation dynamics-simulating responses to climatic change〔J〕.Biological Reviews,2004,79(3):643-670.
〔10〕Beattie G A,Lindow S E.Bacterial colonization of leaves:A spectrum of strategies〔J〕.Phytopathology,1999,89(5):353-359.
〔11〕Kadivar H,Stapleton A E.Ultraviolet radiation alters maize phyllosphere bacterial diversity〔J〕.Microbial Ecology,2003,45(4):353-361.
〔12〕任改弟.水稻叶圈和根圈微生物对大气CO2浓度和土壤温度升高的响应〔D〕.北京:中国科学院大学,2013.〔Ren Gaidi.Response of leaf-and root-associated microbial communities of rice to elevated CO2 and soil temperature〔D〕.Beijing:University of Chinese Academy of Sciences,2013.
〔13〕Whipps J M,Hand P,Pink D,et al.Phyllosphere microbiology with special reference to diversity and plant genotype〔J〕.Journal of Applied Microbiology,2008,105(6):1 744-1 755.
〔14〕Redford A J,Fierer N.Bacterial succession on the leaf surface:A novel system for studying successional dynamics〔J〕.Microbial Ecology,2009,58(1):189-198.
〔15〕Finkel O M,Burch A Y,Lindow S E,et al.Geographical Location Determines the population structure in phyllosphere microbial communities of a salt-excreting desert tree〔J〕.Applied and Environmental Microbiology,2011,77(21):7 647-7 655.
〔16〕Debary A,Woronin M,Rothrock J T.Beitraege zur morphologie und physiologie der pilze〔J〕.Botanical Gazette,7(7):81-84.
〔17〕Petrini O.Fungal Endophytes of Tree Leaves〔M〕.New York:Springer Science+Business Media,1991.
〔18〕Wilson D.Endophyte:The evolution of a term,and clarification of its use and definition〔J〕.Oikos,1995,73(2):274-276.
〔19〕Kloepper J W,Schippers B,Bakker P.Proposed elimination of the term endorhizosphere〔J〕.Phytopathology,1992,82(7):726-727.
〔20〕Strobel G,Daisy B,Castillo U,et al.Natural Products from Endophytic Microorganisms〔J〕.Journal of Natural Products,2004,67(2):257-268.
〔21〕White D C,Pinkart H,Ringelberg D.Biomass Measurements:Biochemical Approaches〔M〕.Washington:ASM Press,1997.
〔22〕Hawksworth D L.The fungal dimension of biodiversity:Magnitude,significance,and conservation〔J〕.Mycological Research,1991,95(6):641-655.
〔23〕Tsui C K M,Leung Y M,Hyde K D,et al.Three new ophioceras,species (ascomycetes) from the tropics〔J〕.Mycoscience,2001,42(4):321-326.
〔24〕Elsas G f,Rosado A S,Smalla K,et al.Microbiological and molecular biological methods for monitoring microbial inoculants and their effects in the soil environment〔J〕.Journal of Microbiological Methods,1998,32(2):133-154.
〔25〕Sundh I,Nilsson M,Borga P.Variation in microbial community structure in two boreal peatlands as determined by analysis of phospholipid fatty acid profiles〔J〕.Applied and Environmental Microbiology,1997,63(4):1 476-1 482.
〔26〕Zimmerman N,Izard J,Klatt C,et al.The unseen world:Environmental microbial sequencing and identification methods for ecologists〔J〕.Frontiers in Ecology & the Environment,2016,12(4):224-231.
〔27〕Azevedo J L,Maccheroni Jr W,Pereira J O,et al.Endophytic microorganisms:A review on insect control and recent advances on tropical plants〔J〕.Electronic Journal of Biotechnology,2000,3(1):40-65.
〔28〕Cavalcante V A,Dobereiner J.A new acid-tolerant nitrogen-fixing bacterium associated with sugarcane〔J〕.Plant and Soil,1988,108(1):23-31.
〔29〕Palus J A,Borneman J,Ludden P W,et al.A diazotrophic bacterial endophyte isolated from stems of Zea mays Linn and Zea luxurians iltis and Doebley〔J〕.Plant and Soil,1996,186(1):135-142.
〔30〕Barraquio W L,Revilla L,Ladha J K.Isolation of endophytic diazotrophic bacteria from wetland rice〔J〕.Plant and Soil,1997,194(1/2):15-24.
〔31〕Hurek T,Reinhold-Hurek B.Azoarcus sp.strain BH72 as a model for nitrogen-fixing grass endophytes〔J〕.Journal of Biotechnology,2003,106(2/3):169-178.
〔32〕Doty S L,Sher A W,Fleck N D,et al.Variable Nitrogen Fixation in Wild Populus〔J〕.Plos One,2016,11(5):e0 155 979.
〔33〕Kandel S L,Herschberger N,Kim S H,et al.Diazotrophic endophytes of poplar and willow for growth promotion of rice plants in nitrogen-limited conditions〔J〕.Crop Science,2015,55(4):1 765-1 772.
〔34〕王卫霞.新疆几种典型荒漠植物根际微生物特征及内生固氮菌的分离、促生性能研究〔D〕.乌鲁木齐:新疆农业大学,2009.〔Wang Weixia.The Characteriestics of Rhizosphere Microorganisms,Isolation and Analysis their Activity for Plant Growth-Promoting of Endophytic Diazotrophic Bacteria from Typical Desert Plants in Xinjiang〔D〕.Urumqi:Xinjiang Agriculture University,2009.〕
〔35〕杨艳凤.3种荒漠灌木(梭梭、柽柳、沙拐枣)的树干径流特征〔D〕.北京:中国科学院研究生院,2011.〔Yang Yanfeng.Stem flow in three Desert Shrubs:Haloxylon ammodendron,Tamarix chinensis and Calligonium〔D〕.Beijing:Graduate University of Chinese Academy of Sciences,2011.〕
〔36〕Ruinen J.The Phyllosphere:Ⅲ.nitrogen fixation in the Phyllosphere 〔J〕.Plant and Soil,1965,22 (3):375-394.
〔37〕Jones K.Nitrogen fixation in the phyllosphere of the Douglas Fir,Pseudotsuga douglasii〔J〕.Annals of Botany,1970,34(134):239-244.
〔38〕Fürnkranz M,Wanek W,Richter A,et al.Nitrogen fixation by phyllosphere bacteria associated with higher plants and their colonizing epiphytes of a tropical lowland rainforest of Costa Rica〔J〕.Isme Journal,2008,2(5):561-570.
〔39〕Abril A B,Torres P A,Bucher E H.The importance of phyllosphere microbial populations in nitrogen cycling in the Chaco semi-arid woodland〔J〕.Journal of Tropical Ecology,2005,21(1):103-107.
〔40〕Chen C,Bauske E M,Rodriguez-Kabana R,et al.Biological control of fusarium wilt on cotton by use of endophytic bacteria〔J〕.Biological Control,1995,5(1):83-91.
〔41〕袁军,孙福在,田宏先,等.防治马铃薯环腐病有益内生细菌的分离和筛选〔J〕.微生物学报,2002,42(3):270-274.〔Yuan Jun,Sun Fuzai,Tian Hongxian,et al.Isolation and screening of Beneficial Endophytic Bacteria for the prevention and treatment of potato ring rot〔J〕.Acta Microbiologica Sinica,2002,42(3):270-274.〕
〔42〕Rangeshwaran R,Wasnikar A R,Prasad R D,et al.Isolation of endophytic bacteria for biological control of wilt pathogens〔J〕.Journal of Biological Control,2002,16(2):125-134.
〔43〕易龙,肖崇刚,马冠华,等.防治烟草赤星病有益内生细菌的筛选及抑菌作用〔J〕.微生物学报,2004,44(1):19-22.〔Yi Long,Xiao Chonggang,Ma Guanhua,et al.Inhibition and screening of beneficial endophytic bacteria to control tobacco brown spot〔J〕.Acta Microbiologica Sinica,2004,44(1):19-22.〕
〔44〕Rico L,Ogaya R,Terradas J,et al.Community structures of N2-fixing bacteria associated with the phyllosphere of a Holm oak forest and their response to drought〔J〕.Plant Biology,2014,16(3):586-593.
〔45〕Rho H,Hsieh M,Kandel S L,et al.Do endophytes promote growth of host plants under stress? A meta-analysis on plant stress mitigation by endophytes〔J〕.Microbial Ecology,2017,75(2):407-418.
〔46〕Yang Y,Chen Y,Li W,et al.Inoculation of funneliformis mosseae to enhance desiccation tolerance of Populus euphratica seedlings in hyper-arid region〔J〕.International Journal of Agriculture & Biology,2017,19(5):983-991.
〔47〕Knoth J L,Kim S H,Ettl G J,et al.Biological nitrogen fixation and biomass accumulation within poplar clones as a result of inoculations with diazotrophic endophyte consortia〔J〕.New Phytologist,2014,201(2):599-609.
〔48〕Rho H,Kim S H.Endophyte Effects on Photosynthesis and Water Use of Plant Hosts:A Meta-Analysis〔M〕.Berlin:Springer,2017.
〔49〕Santosa D A,Handayani N,Iswandi A.Isolation and selection of growth promoting phyllosphere bacteria from leaf of rice (Oryza sativa Linn.) cultivar IR-64〔J〕.Jurnal Tanah dan Lingkungan,2003,5(1):7-21.
〔50〕Chinnadurai C,Balachandar D,Sundaram S P.Characterization of 1-aminocyclopropane-1-carboxylate deaminase producing methylobacteria from phyllosphere of rice and their role in ethylene regulation〔J〕.World Journal of Microbiology & Biotechnology,2009,25(8):1 403-1 411.
〔51〕张翼.柑橘内生细菌YS45的抗菌物质及该菌对油菜菌核病的生物防治作用〔D〕.上海:复旦大学,2008.〔Zhang Yi.Screening of Antagonistic Endophytic Bacterium in Citrus and Species Identification of the Endophytic Bacteria Isolate YS45〔D〕.Shanghai:Fudan University,2008.〕
〔52〕Bacon C W,Yates I E,Hinton D M,et al.Biological control of fusarium moniliforme in Maize〔J〕.Environmental Health Perspectives,2001,109(Suppl.2):325-332.
〔53〕Leben C.Epiphytic microorganisms in relation to plant disease〔J〕.Annual Review of Phytopathology,1965,3(1):209-230.
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