The Effect of Plant Growth Promoting Rhizobacteria (PGPR) on Germination, Seedling Growth and Yield of Maize
The effect of plant growth-promoting rhizobacteria
(PGPR) on seed germination, seedling growth and yield of field
grown maize were evaluated in three experiments. In these
experiments six bacterial strains include P.putida strain R-168,
P.fluorescens strain R-93, P.fluorescens DSM 50090, P.putida
DSM291, A.lipoferum DSM 1691, A.brasilense DSM 1690 were
used. Results of first study showed seed Inoculation significantly
enhanced seed germination and seedling vigour of maize. In second
experiment, leaf and shoot dry weight and also leaf surface area
significantly were increased by bacterial inoculation in both sterile
and non-sterile soil. The results showed that inoculation with
bacterial treatments had a more stimulating effect on growth and
development of plants in nonsterile than sterile soil. In the third
experiment, Inoculation of maize seeds with all bacterial strains
significantly increased plant height, 100 seed weight, number of seed
per ear and leaf area .The results also showed significant increase in
ear and shoot dry weight of maize.
[1] S.C. Wu., Z.H.Cao., Z.G.Li., K.C.Cheung and M.H.Wong,
Effects of biofertilizer containing N-fixer, P and K solubilizers and AM
fungi on maize growth: a greenhouse trial. Geoderma.vol.125, pp.155-
166. 2005.
[2] D. Egamberdiyeva., The effect of plant growth promoting bacteria on
growth and nutrient uptake of maize in two different soils. Appl. Soil.
Eco.vol.36, pp.184-189. 2007.
[3] B.Shaharoona., M. Arshad., Z.A. Zahir and A. Khalid, Performance of
Pseudomonas spp. containing ACC-deaminase for improving growth
and yield of maize (Zea mays L.) in the presence of nitrogenous
fertilizer. Soil.Biol.Biochem., vol.38,pp.2971-2975.2006.
[4] N.Mrkovacki, and V. Milic, Use of Azotobacter chroococcum as
potentially useful in agricultural application. Ann. Microbiol.,
vol.51,pp.145-158. 2001.
[5] A.Salantur., A. Ozturk and S. Akten, Growth and yield response of
spring wheat(Triticum aestivum L.) to inoculation with rhizobacteria.
Plant. Soil. Environ., vol.52(3),pp.111-118.2006..
[6] F. Ahmad., I. Ahmad and M.S. Khan,. Screening of free-living
rhizospheric bacteria for their multiple plant growth promoting activities.
Microbial. Res.,vol. 36,pp.1-9. 2006.
[7] R.Bharathi.,R.Vivekananthan.,S.Harish.,A.Ramanathan and R.
Samiyappan, Rhizobacteria-based bio-formulations for the management
of fruit rot infection in chillies. Crop Protec., vol.23, pp, 835-843. 2004.
[8] Y.C. Jeun., K.S. Park., C.H. Kim., W.D. Fowler and J.W. Kloepper,
Cytological observations of cucumber plants during induced resistance
elicited by rhizobacteria. Biol. Contorl., vol.29, pp. 34-42. 2004.
[9] A. J. Cattelan., P. G. Hartel and J. J .Fuhrmann,.Screening for plant
growth-promoting rhizobacteria to promote early soybean growth. Soil
Sci.Soc.Am. J., vol.63,pp.1670-1680. 1999.
[10] H.N. Asghar., Z.A. Zahir., M. Arshad and A. Khaliq ,.Relationship
between in vitro production of auxins by rhizobacteria and their growth
promoting activities in Brassica juncea.L. Bio. Fertil. Soil.,
vol.35,pp.231-237. 2002.
[11] Y.Bashan., G.Holguin and L. E. de-Bashan, Azospirillum- plant
relationships: physiological, molecular, agricultural, and environmental
advances.Can. J. Microbiol.,vol.50, pp.521-577. 2004.
[12] J.C. Biswas., L.K. Ladha and F.B.Dazzo, Rhizobia inoculation improves
nutrient uptake and growth of lowland rice. J. Soil. Sci., vol.64,pp.1644-
1650. 2000.
[13] K.Shaukat.,S.Affrasayab and S.Hasnain, Growth responses of
Helianthus annus to plant growth promoting rhizobacteria used as a
biofertilizer., J.Agri.Res.,vol.1(6),pp.573-581. 2006a
[14] B.R. Glick., L. Changping., G. Sibdas and E.B. Dumbroff, Early
development of canola seedlings in the presence of the plant growthpromoting
rhizobacterium Pseudomonas putida GR12-2. Soil Biol.
Biochem.,vol.29,pp.1233-1239. 1997
[15] J. R. de Freitas, and J. J. Germida, Growth promotion of winter wheat by
fluorescent pseudomonads under growth chamber conditions. Soil. Biol.
Biochem.,vol.24,pp. 1127-1135. 1992
[16] M. I. Frommel., J. Nowak and G. Lazarovits, Treatment of potato tubers
with a growth promoting Pseudomonas sp.: Plant growth responses and
bacterium distribution in the rhizosphere. Plant .Soil.,vol.150 (1),pp.51-
60. 1993
[17] Y.Bashan., Y. Ream., H.L. Levanony and A. Sade, Non specific
response in plant growth yields and root colonization of non cereal crop
plants to inoculation with Azospirillum brasilense cd. Can.J.Bot.,vol.
67,pp.1317-1324. 1989.
[18] R.I.Cakmakc., D,F.Ayd─▒n and A.F.Sahin, Growth promotion of plants by
plant growth-promoting rhizobacteria under greenhouse and two
different field soil conditions. Soil Biol. Biochem.,vol.38,pp.1482-1487.
2006
[19] A.A. Abdul Baki, and J.D. Anderson,.Vigor determination in soybean
seed by multiple criteria. Crop Sci., vol.13,pp. 630-633. 1973.
[20] F.Ruget., R. Bonhomme and M. Chartier, Estimation simple de la
surface foliaire de plantes de mais en croissance. Agronomie.,vol.16,pp.
553-562. 1996.
[21] B.Lugtenberg., T. Chin-A-Woeng and G. Bloemberg, Microbe-plant
interactions: principles and mechanisms. Antonie van Leeuwenhoek
.,vol.81,pp. 373-383. 2002.
[22] N.S. Raju., S. R. Niranjana., G. R. Janardhana., H. S. Prakash., H.
S.Shetty and S.B. Mathur, Improvement of seed quality and field
emergence of Fusarium moniliforme infected sorghum seeds using
biological agents. J. Sci. Food. Agric., vol.79,pp.206.212. 1999.
[23] S.R.Niranjan., N.P. Shetty and H.S. Shetty, Seed bio-priming with
Pseudomonas fluorescens isolates enhances growth of pearl millet plants
and induces resistance against downy
mildew.J.pest.manage.,vol.50(1),pp.41-48. 2004
[24] S.R. Niranjan., S.A. Deepak., P. Basavaraju., H.S. Shetty., M.S. Reddy
and J.W. Kloepper, Comparative performance of formulations of plant
growth promoting rhizobacteria in growth promotion and suppression of
downy mildew in pearl millet.Crop Protection., vol.22,pp. 579-
588.2003.
[25] K.Shaukat., S.Affrasayab and S.Hasnain,.Growth responses of Triticum
aestivum to plant growth promoting rhizobacteria used as a biofertilizer.
Res. J. Microbiol., vol.1(4),pp.330-338. 2006b.
[26] V.Gravel., H.Antoun and R.J. Tweddell, Growth stimulation and fruit
yield improvement of greenhouse tomato plants by inoculation with
Pseudomonas putida or Trichoderma atroviride: Possible role of indole
acetic acid (IAA). Soil. Biol. Biochem., vol.39,pp. 1968-1977. 2007.
[27] J.Kozdroja., J.T. Trevorsb and J.D. van Elsasc, Influence of introduced
potential biocontrol agents on maize seedling growth and bacterial
community structure in the rhizosphere. Soil. Biol. Biochem.,vol.36,
pp.1775-1784. 2004.
[28] A.Vikram., Efficacy of phosphate solubilizing bacteria isolated from
vertisols on growth and yield parameters of sorghum.
Res.J.Microbiol.,vol. 2 (7),pp.550-559. 2007.
[29] A.Khalid., M. Arshad and Z.A. Zahir, Screening plant growth-promoting
rhizobacteria for improving growth and yield of wheat.
J.Appl.Microbiol.,vol.96(3),pp.473-480. 2004.
[30] A.Ozturk., O.Caglar and F.Sahin,. Yield response of wheat and barley to
inoculation of plant growth promoting rhizobacteria at various levels of
nitrogen fertilization. J. Plant. Nutr. Soil Sci.,vol.166,pp. 262-266.2003.
[31] M.V. Martinez-Toledo., J. Gonzalez-Lopez., T. de la. Rubia., J. Moreno
and A.Ramos-Cormenzana, Effect of inoculation with Azotobacter
chroococcum on nitrogenase activity of Zea mays roots grown in
agricultural soils under aseptic and non-sterile conditions. Biol. Fertil.
Soils.,vol.6,pp.170-173. 1988.
[32] I.A. Siddiqui., and S.S.Shaukat,.Mixtures of plant disease suppressive
bacteria enhance biological control of multiple tomato pathogens.Biol.
Fertil. Soil, vol.36,pp.260-268. 2002.
[33] A.Pandy., E.Sharma and L.K.S.Plani, Influence of bacterial inoculation
on maize in upland farming systems of the sikkim himalaya. Soil. Biol.
Biochm., vol.30(3),pp.379-384. 1998.
[34] Z.Abbass, and Y. Okon,. Plant growth promotion by Azotobacter paspali
in the rhizosphere. Soil. Biol. Biochem., vol. 25(8),pp. 1075-1083. 1993.
[35] G.I.Burd., D.G. Dixon and B.R.Glick, Plant growth promoting
rhizobacteria that decrease heavy metal toxicity in plants.
Can.J.Microbiol.,vol.33,pp.237-245. 2000.
[36] S.Dobbelaere., A.Croonenborghs., A.Thys., D.Ptacek., Y.Okon and
J.Vanderleyden, Effect of inoculation with wild type Azospirillum
brasilense and A. irakense strains on development and nitrogen uptake
of spring wheat and grain maize. Biol. Fert. Soils. Vol.36(4),pp.284-
297. 2002.
[37] S.Dobbelaere., A.Croonenborghs., A.Thys., D.Ptacek., J.Vanderleyden.,
P.Dutto., C.Labendera-Gonzalez., J.Caballero-Mellado., F. Aguirre., Y.
Kapulnik., S.Brener., S.Burdman., D.Kadouri., S. Sarig and Y. Okon,
Response of Agronomically important crops to inoculation with
Azospirillum. Aust.J.Plant. Physiol., vol.28,pp.871-879. 2001.
[38] J.W Kloepper, and C.J. Beauchamp, A review of issues related to
measuring of plant roots by bacteria. Can. J. Microbiol., vol.38,pp.
1219-1232. 1992.
[39] D.Roesti., R.Gaur., B.N.Johri., G.Imfeld., S.Sharma., K.Kawaljeet and
M.Aragno, Plant growth stage, fertilizer management and bioinoculation
of Arbuscular mycorrhizal fungi and plant growth promoting
rhizobacteria affect the rhizobacterial community structure in rain-fed
wheat fields. Soil.Biol. Biochem.,vol.38,pp. 1111-1120. 2006.
[40] E.Yasari., A.M. Patwardhan. Effects of Aztobacter and Azospirillium
inoculations and chemical fertilizers on growth and productivity of
Canola.Asi.J.Plant.Sci., vol.6(1),pp.77-82. 2007.
[1] S.C. Wu., Z.H.Cao., Z.G.Li., K.C.Cheung and M.H.Wong,
Effects of biofertilizer containing N-fixer, P and K solubilizers and AM
fungi on maize growth: a greenhouse trial. Geoderma.vol.125, pp.155-
166. 2005.
[2] D. Egamberdiyeva., The effect of plant growth promoting bacteria on
growth and nutrient uptake of maize in two different soils. Appl. Soil.
Eco.vol.36, pp.184-189. 2007.
[3] B.Shaharoona., M. Arshad., Z.A. Zahir and A. Khalid, Performance of
Pseudomonas spp. containing ACC-deaminase for improving growth
and yield of maize (Zea mays L.) in the presence of nitrogenous
fertilizer. Soil.Biol.Biochem., vol.38,pp.2971-2975.2006.
[4] N.Mrkovacki, and V. Milic, Use of Azotobacter chroococcum as
potentially useful in agricultural application. Ann. Microbiol.,
vol.51,pp.145-158. 2001.
[5] A.Salantur., A. Ozturk and S. Akten, Growth and yield response of
spring wheat(Triticum aestivum L.) to inoculation with rhizobacteria.
Plant. Soil. Environ., vol.52(3),pp.111-118.2006..
[6] F. Ahmad., I. Ahmad and M.S. Khan,. Screening of free-living
rhizospheric bacteria for their multiple plant growth promoting activities.
Microbial. Res.,vol. 36,pp.1-9. 2006.
[7] R.Bharathi.,R.Vivekananthan.,S.Harish.,A.Ramanathan and R.
Samiyappan, Rhizobacteria-based bio-formulations for the management
of fruit rot infection in chillies. Crop Protec., vol.23, pp, 835-843. 2004.
[8] Y.C. Jeun., K.S. Park., C.H. Kim., W.D. Fowler and J.W. Kloepper,
Cytological observations of cucumber plants during induced resistance
elicited by rhizobacteria. Biol. Contorl., vol.29, pp. 34-42. 2004.
[9] A. J. Cattelan., P. G. Hartel and J. J .Fuhrmann,.Screening for plant
growth-promoting rhizobacteria to promote early soybean growth. Soil
Sci.Soc.Am. J., vol.63,pp.1670-1680. 1999.
[10] H.N. Asghar., Z.A. Zahir., M. Arshad and A. Khaliq ,.Relationship
between in vitro production of auxins by rhizobacteria and their growth
promoting activities in Brassica juncea.L. Bio. Fertil. Soil.,
vol.35,pp.231-237. 2002.
[11] Y.Bashan., G.Holguin and L. E. de-Bashan, Azospirillum- plant
relationships: physiological, molecular, agricultural, and environmental
advances.Can. J. Microbiol.,vol.50, pp.521-577. 2004.
[12] J.C. Biswas., L.K. Ladha and F.B.Dazzo, Rhizobia inoculation improves
nutrient uptake and growth of lowland rice. J. Soil. Sci., vol.64,pp.1644-
1650. 2000.
[13] K.Shaukat.,S.Affrasayab and S.Hasnain, Growth responses of
Helianthus annus to plant growth promoting rhizobacteria used as a
biofertilizer., J.Agri.Res.,vol.1(6),pp.573-581. 2006a
[14] B.R. Glick., L. Changping., G. Sibdas and E.B. Dumbroff, Early
development of canola seedlings in the presence of the plant growthpromoting
rhizobacterium Pseudomonas putida GR12-2. Soil Biol.
Biochem.,vol.29,pp.1233-1239. 1997
[15] J. R. de Freitas, and J. J. Germida, Growth promotion of winter wheat by
fluorescent pseudomonads under growth chamber conditions. Soil. Biol.
Biochem.,vol.24,pp. 1127-1135. 1992
[16] M. I. Frommel., J. Nowak and G. Lazarovits, Treatment of potato tubers
with a growth promoting Pseudomonas sp.: Plant growth responses and
bacterium distribution in the rhizosphere. Plant .Soil.,vol.150 (1),pp.51-
60. 1993
[17] Y.Bashan., Y. Ream., H.L. Levanony and A. Sade, Non specific
response in plant growth yields and root colonization of non cereal crop
plants to inoculation with Azospirillum brasilense cd. Can.J.Bot.,vol.
67,pp.1317-1324. 1989.
[18] R.I.Cakmakc., D,F.Ayd─▒n and A.F.Sahin, Growth promotion of plants by
plant growth-promoting rhizobacteria under greenhouse and two
different field soil conditions. Soil Biol. Biochem.,vol.38,pp.1482-1487.
2006
[19] A.A. Abdul Baki, and J.D. Anderson,.Vigor determination in soybean
seed by multiple criteria. Crop Sci., vol.13,pp. 630-633. 1973.
[20] F.Ruget., R. Bonhomme and M. Chartier, Estimation simple de la
surface foliaire de plantes de mais en croissance. Agronomie.,vol.16,pp.
553-562. 1996.
[21] B.Lugtenberg., T. Chin-A-Woeng and G. Bloemberg, Microbe-plant
interactions: principles and mechanisms. Antonie van Leeuwenhoek
.,vol.81,pp. 373-383. 2002.
[22] N.S. Raju., S. R. Niranjana., G. R. Janardhana., H. S. Prakash., H.
S.Shetty and S.B. Mathur, Improvement of seed quality and field
emergence of Fusarium moniliforme infected sorghum seeds using
biological agents. J. Sci. Food. Agric., vol.79,pp.206.212. 1999.
[23] S.R.Niranjan., N.P. Shetty and H.S. Shetty, Seed bio-priming with
Pseudomonas fluorescens isolates enhances growth of pearl millet plants
and induces resistance against downy
mildew.J.pest.manage.,vol.50(1),pp.41-48. 2004
[24] S.R. Niranjan., S.A. Deepak., P. Basavaraju., H.S. Shetty., M.S. Reddy
and J.W. Kloepper, Comparative performance of formulations of plant
growth promoting rhizobacteria in growth promotion and suppression of
downy mildew in pearl millet.Crop Protection., vol.22,pp. 579-
588.2003.
[25] K.Shaukat., S.Affrasayab and S.Hasnain,.Growth responses of Triticum
aestivum to plant growth promoting rhizobacteria used as a biofertilizer.
Res. J. Microbiol., vol.1(4),pp.330-338. 2006b.
[26] V.Gravel., H.Antoun and R.J. Tweddell, Growth stimulation and fruit
yield improvement of greenhouse tomato plants by inoculation with
Pseudomonas putida or Trichoderma atroviride: Possible role of indole
acetic acid (IAA). Soil. Biol. Biochem., vol.39,pp. 1968-1977. 2007.
[27] J.Kozdroja., J.T. Trevorsb and J.D. van Elsasc, Influence of introduced
potential biocontrol agents on maize seedling growth and bacterial
community structure in the rhizosphere. Soil. Biol. Biochem.,vol.36,
pp.1775-1784. 2004.
[28] A.Vikram., Efficacy of phosphate solubilizing bacteria isolated from
vertisols on growth and yield parameters of sorghum.
Res.J.Microbiol.,vol. 2 (7),pp.550-559. 2007.
[29] A.Khalid., M. Arshad and Z.A. Zahir, Screening plant growth-promoting
rhizobacteria for improving growth and yield of wheat.
J.Appl.Microbiol.,vol.96(3),pp.473-480. 2004.
[30] A.Ozturk., O.Caglar and F.Sahin,. Yield response of wheat and barley to
inoculation of plant growth promoting rhizobacteria at various levels of
nitrogen fertilization. J. Plant. Nutr. Soil Sci.,vol.166,pp. 262-266.2003.
[31] M.V. Martinez-Toledo., J. Gonzalez-Lopez., T. de la. Rubia., J. Moreno
and A.Ramos-Cormenzana, Effect of inoculation with Azotobacter
chroococcum on nitrogenase activity of Zea mays roots grown in
agricultural soils under aseptic and non-sterile conditions. Biol. Fertil.
Soils.,vol.6,pp.170-173. 1988.
[32] I.A. Siddiqui., and S.S.Shaukat,.Mixtures of plant disease suppressive
bacteria enhance biological control of multiple tomato pathogens.Biol.
Fertil. Soil, vol.36,pp.260-268. 2002.
[33] A.Pandy., E.Sharma and L.K.S.Plani, Influence of bacterial inoculation
on maize in upland farming systems of the sikkim himalaya. Soil. Biol.
Biochm., vol.30(3),pp.379-384. 1998.
[34] Z.Abbass, and Y. Okon,. Plant growth promotion by Azotobacter paspali
in the rhizosphere. Soil. Biol. Biochem., vol. 25(8),pp. 1075-1083. 1993.
[35] G.I.Burd., D.G. Dixon and B.R.Glick, Plant growth promoting
rhizobacteria that decrease heavy metal toxicity in plants.
Can.J.Microbiol.,vol.33,pp.237-245. 2000.
[36] S.Dobbelaere., A.Croonenborghs., A.Thys., D.Ptacek., Y.Okon and
J.Vanderleyden, Effect of inoculation with wild type Azospirillum
brasilense and A. irakense strains on development and nitrogen uptake
of spring wheat and grain maize. Biol. Fert. Soils. Vol.36(4),pp.284-
297. 2002.
[37] S.Dobbelaere., A.Croonenborghs., A.Thys., D.Ptacek., J.Vanderleyden.,
P.Dutto., C.Labendera-Gonzalez., J.Caballero-Mellado., F. Aguirre., Y.
Kapulnik., S.Brener., S.Burdman., D.Kadouri., S. Sarig and Y. Okon,
Response of Agronomically important crops to inoculation with
Azospirillum. Aust.J.Plant. Physiol., vol.28,pp.871-879. 2001.
[38] J.W Kloepper, and C.J. Beauchamp, A review of issues related to
measuring of plant roots by bacteria. Can. J. Microbiol., vol.38,pp.
1219-1232. 1992.
[39] D.Roesti., R.Gaur., B.N.Johri., G.Imfeld., S.Sharma., K.Kawaljeet and
M.Aragno, Plant growth stage, fertilizer management and bioinoculation
of Arbuscular mycorrhizal fungi and plant growth promoting
rhizobacteria affect the rhizobacterial community structure in rain-fed
wheat fields. Soil.Biol. Biochem.,vol.38,pp. 1111-1120. 2006.
[40] E.Yasari., A.M. Patwardhan. Effects of Aztobacter and Azospirillium
inoculations and chemical fertilizers on growth and productivity of
Canola.Asi.J.Plant.Sci., vol.6(1),pp.77-82. 2007.
@article{"International Journal of Biological, Life and Agricultural Sciences:63654", author = "A. Gholami and S. Shahsavani and S. Nezarat", title = "The Effect of Plant Growth Promoting Rhizobacteria (PGPR) on Germination, Seedling Growth and Yield of Maize", abstract = "The effect of plant growth-promoting rhizobacteria
(PGPR) on seed germination, seedling growth and yield of field
grown maize were evaluated in three experiments. In these
experiments six bacterial strains include P.putida strain R-168,
P.fluorescens strain R-93, P.fluorescens DSM 50090, P.putida
DSM291, A.lipoferum DSM 1691, A.brasilense DSM 1690 were
used. Results of first study showed seed Inoculation significantly
enhanced seed germination and seedling vigour of maize. In second
experiment, leaf and shoot dry weight and also leaf surface area
significantly were increased by bacterial inoculation in both sterile
and non-sterile soil. The results showed that inoculation with
bacterial treatments had a more stimulating effect on growth and
development of plants in nonsterile than sterile soil. In the third
experiment, Inoculation of maize seeds with all bacterial strains
significantly increased plant height, 100 seed weight, number of seed
per ear and leaf area .The results also showed significant increase in
ear and shoot dry weight of maize.", keywords = "Azospirillum, biofertilizer, Maize, PGPR,
Pseudomonas.", volume = "3", number = "1", pages = "114-6", }
