Agriculture Reference
In-Depth Information
Franche C, Kristina Lindstrom K, Elmerich C (2009) Nitrogen-fixing bacteria associated with
leguminous and non-leguminous plants. Plant Soil 321:35-59
Gandora V, Gupta RD, Bhardwaj KKR (1998) Abundance of
Azotobacter
in great soil groups of
North-West Himalayas. J Ind Soc Soil Sci 46(3):379-383
Ganesh G, Misra AK, Chapelon C, Normand P (1994) Morphological and molecular charac-
terization of
Frankia sp.
isolates from nodules of
Alnus nepalensis Don
. Arch Microbiol
161:152-155
Goenadi DH, Siswanto G, Sugiarto Y (2000) Bioactivation of poorly soluble phosphate rocks with
a phosphorus-solubilizing fungus. Soil Sci Soc Am J 64:927-932
Goethals K, Van Montagu M, Holsters M (1992) Conserved motifs in a divergent nod box of
Azorhizobium caulinodans
ORS571 reveals a common structure in promoters regulated by
LysR-type proteins. Proc Natl Acad Sci USA 89:1646-1650
Goldstein AH (1995) Recent progress in understanding the molecular genetics and biochemistry
of calcium phosphate solubilization by Gram-negative bacteria. Biol Agri Hort 12:185-193
Gull M, Hafeez FE, Saleem M, Malik KA (2004) Phosphorus uptake and growth promotion
of chickpea by co-inoculation of mineral phosphate solubilizing bacteria. Aust J Exp Agric
44:623-628
Gyaneshwar P, Kumar GN, Parekh LJ, Poole PS (2002) Role of soil microorganisms in improving
P nutrition of plants. Plant Soil 245:83-93
Habibi A, Heidari G, Sohrabi Y, Badakhshan H, Mohammadi K (2011) Influence of bio, organic
and chemical fertilizers on medicinal pumpkin traits. J Med Plant Res 5(23):5590-5597
Hashemabadi D, Zaredost F, Ziyabari MB, Zarchini M, Kaviani B, Solimandarabi MJ, Torkash-
vand AM, Zarchini S (2012) Influence of phosphate bio-fertilizer on quantity and quality fea-
tures of marigold (
Tagetes erecta
L.). Australian J Crop Sci 6(6):1101-1109
Henri F, Laurette NN, Annette A, John Q, Wolfgang M, François-Xavier E, Dieudonne E (2008)
Solubilization of inorganic phosphates and plant growth promotion by strains of Pseudomonas
fluorescens isolated from acidic soils of Cameroon. Afr J Microbiol Res 2:171-178
Hilda R, Fraga R (1999) Phosphate solubilizing bacteria and their role in plant growth promotion.
Biotechnol Adv 17:319-339
Igual JM, Valverde A, Cervantes E, Velazquez E (2001) Phosphate-solubilizing bacteria
asinoculants for agriculture: use of updated molecular techniques in their study. Agronomie
21:561-568
Jakobsen I, Smith SE, Smith FA (2002) Function and diversity of arbuscular Mycorrhizae in car-
bon and mineral nutrition. In: van der Heijden MGA, Sanders I (eds) Mycorrhizal ecology.
Ecological studies, vol 157. Springer, Berlin
Jha MN, Prasad AN (2005) Efficiency of new inexpensive cyanobacteria biofertilizer including its
self life. World J Microb Biotechnol 22(1):73-79
Kader MA, Miar MH, Hoque MS (2002) Effects of
Azotobacter
inoculants on the yield and Nitrogen
uptake by Wheat. J Biol Sci 2(4):259-261
Kalia A, Gupta RP (2002) Nodule induction in non-legumes by rhizobia. Ind J Microbiol 42:183-193
Kannaiyan S (1999) Biological fertilizers for rice production. In: Kannaiyan S (ed) Bioresources
technology for sustainable agriculture, Associate Publishing Company, New Delhi, pp 1-29
Kannaiyan S, Govindarajan K, Lewin HD (1980) Effect of foliar spray of
Azotobacter chroococ-
cum
on rice crop. Plant Soil 56:487-490
Kannaiyan S, Kumar K, Gopalswamy G (2001). Stem nodulating Sesbania rostrata as a biore-
source for rice production, induction of nodulation and endophytic N2 fixation in rice. Madras
Agric J 88:547-560
Kanungo PK, Panda D, Adhiya TK, Ramakrishnan B, Rao VR (1997) Nitrogenase activity and
nitrogen fixing bacteria assoiciated with rhizosphere of rice cultivars. J Sci Food Aric 73:485-
488
Khan MS, Zaidi A, Ahemad M, Oves M, Wani PA (2010). Plant growth promotion by phosphate
solubilizing fungi: current perspective. Arch Agron Soil Sci 56:73-98
Search WWH ::
Custom Search