African Journal of
Biotechnology

  • Abbreviation: Afr. J. Biotechnol.
  • Language: English
  • ISSN: 1684-5315
  • DOI: 10.5897/AJB
  • Start Year: 2002
  • Published Articles: 12269

Full Length Research Paper

Polymers selection for a liquid inoculant of Azospirillum brasilense based on the Arrhenius thermodynamic model

Cortes-Patino Sandra and
  • Cortes-Patino Sandra and
  • Corporacion Colombiana de Investigacion Agropecuaria -Corpoica. Km 14 via Mosquera, Cundinamarca, Colombia.
  • Google Scholar
Bonilla Ruth Rebeca*
  • Bonilla Ruth Rebeca*
  • Corporacion Colombiana de Investigacion Agropecuaria -Corpoica. Km 14 via Mosquera, Cundinamarca, Colombia.
  • Google Scholar


  •  Received: 04 June 2015
  •  Accepted: 06 August 2015
  •  Published: 19 August 2015

References

Albareda M, Rodríguez-Navarro D, Camacho M, Temprano FJ (2008). Alternatives to peat as a carrier for rhizobia inoculants: Solid and liquid formulations. Soil Biol. Biochem. 40(11):2771-2779.
Crossref

 

Aquilanti V, Carlos K, Elango M, Kleijn S, Kasai T (2010). Temperature dependence of chemical and biophysical rate processes: Phenomenological approach to deviations from Arrhenius law. Chem. Phys. Lett. 498(1-3):209-213.
Crossref

 
 

Bashan Y (1998). Inoculants of plant growth-promoting bacteria for use in agriculture. Biotechnol. Adv. 16(4):729-770.
Crossref

 
 

Bashan Y, Gonzalez LE (1999). Long-term survival of the plant-growth-promoting bacteria Azospirillum brasilense and Pseudomonas fluorescens in dry alginate inoculant. Appl. Microbiol. Biotechnol. 51(2):262-266.
Crossref

 
 

Bashan Y, Gonzalez LE (2010). How the Plant Growth-Promoting Bacterium Azospirillum Promotes Plant Growth — A Critical Assessment. Adv. Agron. 1(108):77-136.
Crossref

 
 

Baudoin E, Nazaret S, Mougel C, Ranjard L, Moënne-Loccoz Y (2009). Impact of inoculation with the phytostimulatory PGPR Azospirillum lipoferum CRT1 on the genetic structure of the rhizobacterial community of field-grown maize. Soil Biol. Biochem. 41(2):409-413.
Crossref

 
 

Cardenas DM, Garrido MF, Bonilla R, Baldani V (2010). Aislamiento e identificación de cepas de Azospirillum sp. en pasto guinea (Panicum maximum Jacq.) del Valle del Cesar. Pastos Y Forrajes 33:3.

 
 

Cassaan F, Vanderleyden J, Spaepen S (2014). Physiological and Agronomical Aspects of Phytohormone Production by Model Plant-Growth-Promoting Rhizobacteria (PGPR) Belonging to the Genus Azospirillum. J. Plant Growth Regul. 33(2):440-459.
Crossref

 
 

Dell AI, Pawar S, Savage VM (2011). Systematic variation in the temperature dependence of physiological and ecological traits. PNAS 108(26):10591-10596.
Crossref

 
 

Fibach-Paldi S, Burdman S, Okon Y (2012). Key physiological properties contributing to rhizosphere adaptation and plant growth promotion abilities of Azospirillum brasilense. FEMS Microbiol. Lett. 326(2):99-108.
Crossref

 
 

Huey RB, Kingsolver JG (2011). Variation in universal temperature dependence of biological rates. PNAS 108(26): 10377-10378.
Crossref

 
 

Krumnow AA, Sorokulova IB, Olsen E, Globa, L, Barbaree JM, Vodyanoy VJ (2009). Preservation of bacteria in natural polymers. J. Microbiol. Methods 78(2):189-194.
Crossref

 
 

Kumaresan G, Reetha D (2011). Survival of Azospirillum brasilense in liquid formulations amended with different chemical additives. J. Phytol. 3(10):48-45

 
 

Leo Daniel A, Venkateswarlu B, Desai S, Hassan M, Meenakshi T (2013). Physiology and pathology effect of polymeric additives, adjuvants, surfactants on survival, stability and Plant-Growth-Promoting ability of liquid bioinoculants. J. Plant Physiol. Pathol. 1(2):2-6.

 
 

Manikandan R, Saravanakumar D, Rajendran L, Raguchander T, Samiyappan R (2010). Standardization of liquid formulation of Pseudomonas fluorescens Pf1 for its efficacy against Fusarium wilt of tomato. J. Biol. Control 54(2):83-89.
Crossref

 
 

Moreno-Galván A, Rojas-Tapias DF, Bonilla R (2012). Development and evaluation of an alternative culture medium for mass cultivation of Azospirillum brasilense C16 using sequential statistical designs. Revista Corpoica 13(2):201-206.

 
 

Mugilan I, Gayathri P, Elumalai EK, Elango R (2011). Studies on improve survivability and shelf life of carrier using liquid inoculation of Pseudomonas striata. JPBA 2(4):1271-1275.

 
 

Okon Y, Labandera-González C (1994). Agronomic applications of Azospirillum: an evaluation of 20 years of worldwide field inoculation. Soil Biol. Biochem. 6:1591-1601
Crossref

 
 

Rivera D, Obando M, Barbosa H, Rojas Tapias D, Bonilla R (2014) Evaluation of polymers for the liquid rhizobial formulation and their influence in the Rhizobium-Cowpea interaction. Univ. Sci. 19(3): 265-275.
Crossref

 
 

Rojas-Tapias D, Ortega O, Rivera D, Bonilla R (2015). Preservation of Azotobacter chroococcum vegetative cells in dry polymers. Univ. Sci. 20(2):201-207.

 
 

Rojas-Tapias D, Ortiz-Vera M, Rivera D, Kloepper J, Bonilla R (2013). Evaluation of three methods for preservation of Azotobacter chroococcum and Azotobacter vinelandii. Univ. Sci. 18(2): 129-139.

 
 

Rouissi T, Tyagi RD, Brar SK, Prevost D, John RP, Surampalli RY (2011). Efficient and simple method for determination of suspendibility of bio-inoculant suspensions. Bioresour. Technol. 102(22): 10754-10758.
Crossref

 
 

Sivasakthivelan P, Saranraj P (2013). Azospirillum and its Formulations: A Review. Int. J. Microbiol. Res. 4(3): 275-287.

 
 

Sorokulova IB, Krumnow AA, Pathirana S (2008). Novel Methods for Storage Stability and Release of Bacillus Spores. Biotechnol. Prog. 24: 1147-1153.
Crossref

 
 

Steenhoudt O, Vanderleyden J (2000) Azospirillum, a free-living nitrogen-fixing bacterium closely associated with grasses: Genetic, biochemical and ecological aspects. FEMS Microbiol. Rev. 24(4):487-506.
Crossref

 
 

Tittabutr P, Payakapong W, Teaumroong N, Singleton PW, Boonkerd N (2007). Growth, survival and field performance of bradyrhizobial liquid inoculant formulations with polymeric additives. Sci. Asia 33(1):69-77
Crossref

 
 

Velineni S, Brahmaprakash GP (2011). Survival and phosphate solubilizing ability of Bacillus megaterium in liquid inoculants under high temperature and desiccation stress. J. Agric. Sci. Technol. 13(5):795-802.

 
 

Vessey JK (2003) Plant growth promoting rhizobacteria as biofertilizers. Plant Soil 255:571-586.
Crossref