Agriculture Reference
In-Depth Information
Jakobsen I, Leggett ME, Richardson AE (2005) Rhizosphere microorganisms and plant phospho-
rus uptake. In: Sims JT, Sharpley AN (eds) Phosphorus, agriculture and the environment.
American Society for Agronomy, Madison, pp 437-494
Jenkins PD, Ali H (1999) Growth of potato cultivars in response to application of phosphate
fertiliser. Ann Appl Biol 135:431-438
Jeon JS, Lee SS, Kim HY, Ahn TS, Song HG (2003) Plant growth promotion in soil by some
inoculated microorganisms. J Microbiol 41:271-276
Kang BG, Kim WT, Yun HS, Chang SC (2010) Use of plant growth promoting rhizobacteria to
control stress responses of plant roots. Plant Biotechnol Rep 4:179-183
Karpagam T, Nagalakshmi PK (2014) Isolation and characterization of phosphate solubilizing
microbes from agricultural soil. Int J Curr Microbiol Appl Sci 3:601-614
Khan KS, Joergensen RG (2009) Changes in microbial biomass and P fractions in biogenic
household waste compost amended with inorganic P fertilizers. Bioresour Technol 100:303-
309
Khan MS, Ahmad E, Zaidi A, Oves M (2013) Functional aspect of phosphate-solubilizing
bacteria: importance in crop production. In: Maheshwari DK et al (eds) Bacteria in
agrobiology: crop productivity. Springer, Berlin, pp 237-265
Khan MS, Zaidi A, Ahemad M, Oves M, Wani PA (2010) Plant growth promotion by phosphate
solubilising fungi - current perspective. Arch Agron Soil Sci 56:73-98
Khan MS, Zaidi A, Ahemad M, Oves M, Wani PA (2009) Plant growth promotion by phosphate
solubilizing fungi - current perspective. Arch Agron Soil Sci 56:73-98
Khan MS, Zaidi A, Wani PA (2007) Role of phosphate solubilizing microorganisms in sustainable
agriculture: a review. Agron Sustain Dev 27:29-43
Knowles NR, Knowles LO (2006) Manipulating stem number, tuber set, and yield relationships for
northern- and southern grown potato seed lots. Crop Sci 46:284-296
Krasilinikov NA (1957) On the role of soil micro-organism in plant nutrition. Microbiologiya
26:659-672
Kudashev IS (1956) The effect of phosphobacterin on the yield and protein content in grains of
Autumn wheat, maize and soybean. Dok Akad Skh Nauk 8:20-23
Li SG (1981) Studies on phosphorite decomposing microorganisms. J Soil Sci 5:33-35
Lucy M, Reed E, Glick BR (2004) Applications of free living plant growth-promoting
rhizobacteria. Anton Leeuwen 86:1-25
Madgaonkar SC, Lakshman HC (2013) Effect of AM fungi,
Azotobacter
and Phosphate solubi-
lizing bacteria in improvement of
Amaranthus paniculatus L.
-a leafy vegetable. Res J
Biotechnol 8:36-39
Maier NA, McLaughlin MJ, Heap M, Butt M, Smart MK (2002) Effect of current-season
application of calcitic lime and phosphorus fertilization on soil pH, potato growth, yield, dry
matter content, and cadmium concentration. Commun Soil Sci Plant Anal 33:2145-2165
Malboobi MA, Behbahani M, Madani H, Owlia P, Deljou A, Yakhchali B, Moradi M, Hassanabadi
H (2009) Performance evaluation of potent phosphate solubilizing bacteria in potato rhizo-
sphere. World J Microbiol Biotechnol 25:1479-1484
Naderi DMR, Ahmadi NH, Bahari B (2012) Assessment of applications of biological fertilizer for
potato cultivation. Int J Agric Sci 2:102-107
Onyia CE, Anyanwu CU (2013) Comparative study on solubilization of tri-calcium phosphate
(TCP) by phosphate solubilizing fungi (PSF) isolated from Nsukka pepper plant rhizosphere
and root free soil. J Yeast Fungal Res 4:52-57
Parihar SS, Tripathi RS (2003) Dry matter nodulation and nutrient uptake in potato as influenced
by irrigation and P. Exp Agric 25:349-355
Paul EA, Clark FE (1988) Soil microbiology and biochemistry. Academic, San Diego, CA
Ramachandran K, Srinivasan V, Hamza S, Anandaraj M (2007) Phosphate solubilizing bacteria
isolated from the rhizosphere soil and its growth promotion on black pepper (
Piper nigrum
L.)
cuttings. First international meeting on microbial phosphate solubilization. Dev Plant Soil Sci
102:325-331
