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Archives of Agronomy and Soil Science Volume 58, 2012 - Issue 9
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Articles

Effect of single and dual phosphate-solubilizing bacterial strain inoculations on overall growth of mung bean plants

Anamika Jha Ashok and Rita Patel Institute of Integrated Study and Research in Biotechnology and Allied Sciences, New Vallabh Vidyanagar, Anand, IndiaCorrespondence[email protected]
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,
Divya Sharma Department of Bioscience and Biotechnology, Banasthali University, Banasthali, India
&
Jyoti Saxena Department of Bioscience and Biotechnology, Banasthali University, Banasthali, India
Pages 967-981 | Received 11 Aug 2010, Accepted 03 Feb 2011, Published online: 19 Jul 2011

References

  • Ali , B , Sabri , A N and Hasnain , S. 2010 . Rhizobacterial potential to alter auxin content and growth of Vigna radiata (L.) . World J Microbiol Biotechnol. , 26 : 1379 – 1384 .
  • Anamika , Saxena , J and Sharma , V. 2007 . Isolation of tri-calcium phosphate solubilizing strains from semi-arid agricultural fields of Rajasthan, India . J Pure Appl Microbiol. , 1 : 269 – 280 .
  • Bilger , W , Schreiber , U and Bock , M. 1995 . Determination of the quantum efficiency of photosystem II and of non-photochemical quenching of chlorophyll fluorescence in the field . Oecologia. , 102 : 425 – 432 .
  • Barea , M J , Navarro , E and Montoya , E. 1976 . Production of plant growth regulators by rhizosphere phosphate-solubilizing bacteria . J UPPI Bact. , 40 : 129 – 134 .
  • Burd , G I , Dixon , D G and Glick , B R. 2000 . Plant growth promoting rhizobacteria that decrease heavy metal toxicity in plants . Can J Microbiol. , 33 : 237 – 245 .
  • Cattelan , A J , Hartel , P G and Fuhrmann , J J. 1999 . Screening for plant growth-promoting rhizobacteria to promote early soybean growth . Soil Sci Soc Am J. , 63 : 1670 – 1680 .
  • Chabot , R , Antoun , H and Cescas , M P. 1996 . Growth promotion of maize and lettuce by phosphate solubilizing. Rhizobium leguminosarum biovar phaseoli . Plant Soil. , 184 : 311 – 326 .
  • Chabot , R A , Hani , K and Cescay , M. 1994 . Stimulation do la croissance du mais et de la latitude romain par des microorganisms dissolvent la phosphere inorganique . Can J Microbiol. , 39 : 941 – 947 .
  • Gaind , S and Gaur , A C. 1991 . Thermotolerant phosphate solubilizing microorganisms and their interaction in mungbean . Plant Soil. , 133 : 141 – 149 .
  • Glick , B R. 1995 . The enhancement of plant growth by free-living bacteria . Can J Microbiol. , 41 : 109 – 117 .
  • Goldstein , A H. 1994 . “ Involvement of quinoprotein glucose dehydrogenase in the solubilization of exogenous phosphate by Gram-negative bacteria ” . In Phosphate in microorganisms: cellular and molecular biology , Edited by: Torriani-Gorini , A , Yagil , E and Silver , S . 197 – 203 . Washington (DC) : ASM Press .
  • Goldstein , A H and Rogers , R D. 1999 . Biomediated continuous release of phosphate fertilizer 19 US, US5912398A 15 June. Lockhead Idaho Technologies Co., USA
  • Gull , F Y , Hafeez , D , Saleem , M and Malik , K A. 2004 . Phosphorus uptake and growth promotion of chickpea by co-inoculation of mineral phosphate solubilizing bacteria and a mixed rhizobial culture . Aust J Exp Agr. , 44 : 623 – 628 .
  • Igual , J M , Valverde A , Cervantes , E and Velazquez , E. 2001 . Phosphate solubilizing bacteria as inoculants for agriculture: use of updated molecular techniques in their study . Agronomie. , 21 : 561 – 568 .
  • 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 .
  • Khalid , A , Arshad , M and Zahir , Z A. 2004 . Screening of plant growth promoting rhizobacteria for improving growth and yield of wheat . J Appl Microbiol. , 29 : 473 – 480 .
  • Linu , M S , Stephen , J and Jisha , M S. 2009 . Phosphate solubilizing Gluconobacter sp, Burkholderia sp and their potential interaction with cowpea (Vigna anguiculata (L.) Walp.) . Int J Agr Res. , 4 : 79 – 87 .
  • Mehnaz , S , Mirza , M S , Haurat , J , Bally , R , Normand , P , Bano , A and Mallik , K A. 2001 . Isolation and 16S rRNA sequence analysis of the beneficial bacteria from the rhizosphere of rice . Can J Microbiol. , 47 : 110 – 117 .
  • Minaxi and Saxena , J. 2010a . Disease suppression and crop improvement in moong beans (Vigna radiata) through Pseudomonas and Burkholderia strains isolated from semi arid region of Rajasthan . Biocont. , 55 ( 6 ) : 799 – 810 .
  • Minaxi and Saxena , J. 2010b . Characterization of Pseudomonas aeruginosa RM-3 as a potential biocontrol agent . Mycopathology. , 170 ( 3 ) : 181 – 193 .
  • Olsen , S R and Sommers , L E. 1982 . Phosphorus Edited by: Page , A L , Miller , R H and Keeny , D R . 403 – 430 . Methods of soil analysis Part 2. Madison (WI): American Society of Agronomy
  • Olsen , S R , Cole , C V , Watanabe , F S and Dean , L A. 1954 . Estimation of available P in soil by extraction with sodium bicarbonate . USDA Circ. , : 939
  • Peix , A , Rivas-Boyero , A A , Mateos , P F , Rodriguez-Barrueco MartõÂnez-Molina , C E and Velazquez , E. 2001 . Growth promotion of chickpea and barley by a phosphate solubilizing strain of Mesorhizobium mediterraneum under growth chamber conditions . Soil Biol Biochem. , 33 : 103 – 110 .
  • Rashid , M , Khalil , S , Ayub , N , Alam , S and Latif , F. 2004 . Oragnic acid production and phosphate solubilization by phosphate solubilizing microorganisms (PSM) under in vitro conditions . Pak J Biol Sci. , 7 : 187 – 196 .
  • Richardson , A E. 2001 . Prospects for using soil microorganisms to improve the acquisition of phosphorus by plants . Aust J Plant Physiol. , 28 : 897 – 906 .
  • Rodriguez , H and Fraga , R. 1999 . Phosphate solubilizing bacteria and their role in plant growth promotion . Biotechnol Adv. , 17 : 319 – 339 .
  • Singh , P and Pareek , R G. 2003 . Effect of P and biofertilizers on growth and yield of mung bean . Indian J Pulses Res. , 16 : 31 – 33 .
  • Tang , W EI and Yang , H. 1997 . Plant growth promoting rhizobacteria- present status and future prospects , Edited by: Ogoshi , A . 4 – 9 . Paris (France) : OCED .
  • Thakuria , D , Talukdar , N C , Goswami , C , Hazarika , S , Boro , R C and Khan , M R. 2004 . Characterization screening of bacteria from rhizosphere of rice grown in acidic soils of Assam . Curr Sci. , 86 : 978 – 985 .
  • Vasudevan , P , Reddy , M S , Kavitha , S , Velusamy , P , Paul Raj , R SD , Purushottaman , S M , Priyadarsini , V B , Bharathkumar , Kloepper , J W and Gnanamanickam , S I. 2002 . Enhancement of rice seedling growth and grain yield . Curr Sci. , 83 : 1140 – 1143 .
  • Wang , X , Anderson , O R and Griffin , K L. 2004 . Chloroplast numbers, mitochondrion numbers and carbon assimilation physiology of Nicotiana sylvestris as affected by CO2 concentration . J Environ Exp Bot. , 51 : 21 – 31 .
  • Xie , H , Pasternak , J J and Glick , B R. 1996 . Isolation and characterization of mutants of the plant growth-promoting rhizobacterium. Pseudomonas putida GR12-2 that overproduce indoleacetic acid . Curr Microbiol. , 32 : 67 – 71 .
  • Zaidi , A , Khan , M S and Aamil , M. 2004 . Bioassociative effect of rhizospheric microorganisms on growth, yield and nutrient uptake of green gram . J Plant Nutr. , 27 : 599 – 610 .
  • Zhang , F , Dashti , N , Hynes , R K and Smith , D L. 1996 . Plant growth promoting rhizobacteria and soybean [Glycine max (L.) Merr.] nodulation and nitrogen fixation at suboptimal root zone temperatures . Ann Bot. , 77 : 453 – 459 .
  • Zhang , F , Dashti , N , Hynes , R K and Smith , D L. 1997 . Plant growth promoting rhizobacteria and soybean [Glycine max (L.) Merr.] growth and physiology at suboptimal root zone temperatures . Ann Bot. , 79 : 243 – 249 .

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