References
- Bashan , Y and De-Bashan , LE . 2010 . How the plant growth-promoting bacterium Azospirillum promotes plant growth-a critical assessment . Adv Agro. , 108 : 77 – 136 .
- Bashan , Y and Holguin , G . 1998 . Proposal for the division of plant growth-promoting rhizobacteria into two classifications: biocontrol-PGPB (plant growth-promoting bacteria) and PGPB . Soil Biol Biochem. , 30 : 1225 – 1228 .
- Bashan , Y , Holguin , G and de-Bashan , LE . 2004 . Azospirillum-plant relationships: physiological, molecular, agricultural, and environmental advances (1997–2003) . Can J Microbiol. , 50 : 521 – 577 .
- Berg , G . 2009 . Plant-microbe interactions promoting plant growth and health: perspectives for controlled use of microorganisms in agriculture . Appl Microbiol Biotechnol. , 84 : 11 – 18 .
- BMELV 2010 Gute fachliche Praxis im Pflanzenschutz: Grundsätze für die Durchführung [Basic guidelines for good agricultural practice in crop protection] . Ed. L u V B Bundesministerium für Ernährung. German Ministry for Nutrition and Agriculture. .
- Buddrus-Schiemann , K , Schmid , M , Schreiner , K , Welzl , G and Hartmann , A . 2010 . Root colonization by Pseudomonas sp. DSMZ 13134 and impact on the indigenous rhizosphere bacterial community of barley . Microb Ecol. , 60 : 381 – 393 .
- Compant , S , Duffy , B , Nowak , J , Clement , C and Barka , EA . 2005 . Use of plant growth-promoting bacteria for biocontrol of plant diseases: principles, mechanisms of action, and future prospects . Appl Environ Microbiol. , 71 : 4951 – 4959 .
- Costello , S , Cockburn , M , Bronstein , J , Zhang , X and Ritz , B . 2009 . Parkinson's disease and residential exposure to maneb and paraquat from agricultural applications in the central valley of California . Am J Epidemiol. , 169 : 919 – 926 .
- Crowley , DEKraemer SM and Kraemer , SM . 2007 . “ Function of siderophores in the plant rhizosphere ” . In The rhizosphere: biochemistry and organic substances at the soil-plant interface , Edited by: Varanini , Z , Pinton , R and Nannipieri , P . 616 USA : CRC Press .
- Debrewer , LM , Ator , SW and Denver , JM . 2008 . Temporal trends in nitrate and selected pesticides in mid-atlantic ground water . J Environ Qual. , 37 : S296 – S308 .
- de Freitas , J and Germida , JJ . 1992 . Growth promotion of winter wheat by fluorescent pseudomomads under field conditions . Soil biol biochem. , 24 : 1137 – 1146 .
- Dobbelaere , S , Croonenborghs , A , Thys , A , Ptacek , D , Vanderleyden , J , Dutto , P , Labandera-Gonzalez , C , Caballero-Mellado , J , Aguirre , JF Kapulnik , Y . 2001 . Responses of agronomically important crops to inoculation with Azospirillum . Aust J Plant Physiol. , 28 : 871 – 879 .
- Haas , D and Defago , G . 2005 . Biological control of soil-borne pathogens by fluorescent pseudomonads . Nat Rev Microbiol. , 3 : 307 – 319 .
- Kamilova , F , Validov , S , Azarova , T , Mulders , I and Lugtenberg , B . 2005 . Enrichment for enhanced competitive plant root tip colonizers selects for a new class of biocontrol bacteria . Environ Microbiol. , 7 : 1809 – 1817 .
- Karthiba , L , Saveetha , K , Suresh , S , Raguchander , T , Saravanakumar , D and Samiyappan , R . 2010 . PGPR and entomopathogenic fungus bioformulation for the synchronous management of leaffolder pest and sheath blight disease of rice . Pest Manag Sci. , 66 : 555 – 564 .
- King , EO , Ward , MK and Raney , DE . 1954 . Two simple media for the demonstration of phycocyanin and fluorescin . J Lab Clin Med. , 44 : 301 – 307 .
- Kloepper , JW . 1996 . Host specificity in microbe-microbe interactions-biological control agents vary in specificity for hosts, pathogen control, ecological habitat and environmental conditions . Bioscience. , 46 : 406 – 409 .
- Landgren , O , Kyle , RA , Hoppin , JA , Beane Freeman , LE , Cerhan , JR , Katzmann , JA , Rajkumar , SV and Alavanja , MC . 2009 . Pesticide exposure and risk of monoclonal gammopathy of undetermined significance in the agricultural health study . Blood , 113 : 6386 – 6391 .
- Lee , H , Tewari , J and Turkington , T . 2001 . A PCR-based assay to detect Rhynchosporium secalis in barley seed . Plant Disease. , 85 : 220 – 225 .
- Lucy , M , Reed , E and Glick , BR . 2004 . Applications of free living plant growth-promoting rhizobacteria . Antonie Van Leeuwenhoek. , 86 : 1 – 25 .
- Lugtenberg , B and Kamilova , F . 2009 . Plant-growth-promoting rhizobacteria . Annu Rev Microbiol. , 63 : 541 – 556 .
- Mehta , S and Nautiyal , CS . 2001 . An efficient method for qualitative screening of phosphate-solubilizing bacteria . Curr Microbiol. , 43 : 51 – 56 .
- Murashige , T and Skoog , F . 1962 . A revised medium for rapid growth and bioassays with tobacco tissue cultures . Physiol Plant. , 15 : 473 – 497 .
- Ortiz-Castro , R , Contreras-Cornejo , HA , Macias-Rodriguez , L and Lopez-Bucio , J . 2009 . The role of microbial signals in plant growth and development . Plant Signal Behav. , 4 : 701 – 712 .
- Pickering , R , Ruge-Wehling , B , Johnston , P , Schweizer , G , Ackermann , P and Wehling , P . 2006 . The transfer of a gene conferring resistance to scald (Rhynchosporium secalis) from Hordeum bulbosum into H. vulgare chromosome 4HS . Plant Breed. , 125 : 576 – 579 .
- Puente , M-E and Bashan , Y . 1993 . Effect of inoculation with Azospirillum brasilense strains on the germination and seedlings growth of the giant columnar cardon cactus (Pachycereus pringlei) . Symbiosis. , 15 : 49 – 60 .
- Rachdawong , S , Cramer , C , Grabau , E , Stromberg , V , Lacy , G and Stromberg , E . 2002 . Gaeumannomyces graminis vars. avenae, graminis, and tritici identified using PCR amplification of avenacinase-like genes . Plant Disease. , 86 : 652 – 660 .
- Rodriguez , H , Fraga , R , Gonzalez , T and Bashan , Y . 2006 . Genetics of phosphate solubilization and its potential applications for improving plant growth-promoting bacteria . Plant Soil. , 287 : 15 – 21 .
- Ryu , CM , Murphy , JF , Reddy , MS and Kloepper , JW . 2007 . A two-strain mixture of rhizobacteria elicits induction of systemic resistance against Pseudomonas syringae and cucumber mosaic virus coupled to promotion of plant growth on Arabidopsis thaliana . J Microbiol Biotechnol. , 17 : 280 – 286 .
- Sakthivel , N and Gnanamanickam , SS . 1987 . Evaluation of Pseudomonas fluorescens for suppression of sheath rot disease and for enhancement of grain yields in rice (Oryza sativa L.) . Appl Environ Microbiol. , 53 : 2056 – 2059 .
- Sarig , S and Okon , Y . 1992 . Effect of Azospirillum brasilense inoculation on growth dynamics and hydraulic conductivity of Sorghum bicolor roots . J Plant Nut. , 15 ( 6&7 ) : 805 – 819 .
- Schwyn , B and Neilands , JB . 1987 . Universal chemical assay for the detection and determination of siderophores . Anal Biochem. , 160 : 47 – 56 .
- Seong , K , Höfte , M , Boelens , J and Verstraete , W . 1991 . Growth, survival and root colonization of plant growth beneficial Pseudomonas fluorescens ANP15 and Pseudomonas aeruginosa 7NSK2 at different temperatures . Soil Bio Biochem. , 23 : 423 – 428 .
- Somers , E , Vanderleyden , J and Srinivasan , M . 2004 . Rhizosphere bacterial signalling: a love parade beneath our feet . Crit Rev Microbiol. , 30 : 205 – 240 .
- Steenhoudt , O and Vanderleyden , J . 2000 . Azospirillum, a free-living nitrogen-fixing bacterium closely associated with grasses: genetic, biochemical and ecological aspects . FEMS Microbiol Rev. , 24 : 487 – 506 .
- Vandenhove , H , Merckx , R , Wilmots , H and Vlassak , K . 1991 . Survival of Pseudomonas fluorescens inocula of different physiological stages in soil . Soil Biol Biochem. , 23 : 1133 – 1142 .
- Van der Ent , S , Van Wees , SC and Pieterse , CM . 2009 . Jasmonate signaling in plant interactions with resistance-inducing beneficial microbes . Phytochemistry. , 70 : 1581 – 1588 .
- Van Wees , SC , Van der Ent , S and Pieterse , CM . 2008 . Plant immune responses triggered by beneficial microbes . Curr Opin Plant Biol. , 11 : 443 – 448 .
- Vassilev , N , Vassileva , M and Nikolaeva , I . 2006 . Simultaneous P-solubilizing and biocontrol activity of microorganisms: potentials and future trends . Appl Microbiol Biotechnol. , 71 : 137 – 144 .
- von Rad , U , Mueller , MJ and Durner , J . 2005 . Evaluation of natural and synthetic stimulants of plant immunity by microarray technology . New Phytol. , 165 : 191 – 202 .
- Wang , Y , Ohara , Y , Nakayashiki , H , Tosa , Y and Mayama , S . 2005 . Microarray analysis of the gene expression profile induced by the endophytic plant growth-promoting rhizobacteria, Pseudomonas fluorescens FPT9601-T5 in Arabidopsis . Mol Plant Microbe Interact. , 18 : 385 – 396 .
- Wang , S , Wu , H , Qiao , J , Ma , L , Liu , J , Xia , Y and Gao , X . 2009 . Molecular mechanism of plant growth promotion and induced systemic resistance to tobacco mosaic virus by Bacillus spp . J Microbiol Biotechnol. , 19 : 1250 – 1258 .
- Weller , DM and Cook , RJ . 1986 . Increased growth of wheat by seed treatments with fluorescent pseudomonads, and implications of Pythium control . Can J Plant Pathol. , 8 : 328 – 334 .
- Weller , DM , Landa , BB , Mavrodi , OV , Schroeder , KL , De La Fuente , L , Blouin Bankhead , S , Allende Molar , R , Bonsall , RF , Mavrodi , DV and Thomashow , LS . 2007 . Role of 2,4-diacetylphloroglucinol-producing fluorescent Pseudomonas spp. in the defense of plant roots . Plant Biol (Stuttg) , 9 : 4 – 20 .
- Zaffarano , PL , McDonald , BA and Linde , CC . 2009 . Phylogeographical analyses reveal global migration patterns of the barley scald pathogen Rhynchosporium secalis . Mol Ecol. , 18 : 279 – 293 .