Agriculture Reference
In-Depth Information
Sundara B, Natarajan V, Hari K (2002) Influence of phosphorus solubilizing bacteria on the chang-
es in soil available phosphorus and sugarcane yields. Field Crops Res 77:43-49
Tjepkema JD, Ormerod W, Torrey JG (1980) Vesicle formation and acetylene reduction activity in
Frankia
sp. CP11 cultured in defined nutrient media. London. Nature 287:633-635
Van Workum WAT, Van Slageren S, Van Brussel AAN, Kijne JW (1998) Role of exopolysac-
charides of Rhizobium leguminosarum bv. viciae as host plant-specific molecules required
for infection thread formation during nodulation of Vicia sativa. Mol Plant Microbe Interact
11:1233-1241
Vazquez P, Holguin G, Puente M, Cortes AE, Bashan Y (2000) Phosphate solubilizing microorgan-
isms associated with the rhizosphere of mangroves in a semi arid coastal lagoon. Biol Fertil
Soils 30:460-468
Velineni S, Brahmaprakash GP (2011) Survival and phosphate solubilizing ability of
Bacillus
megaterium
in liquid inoculants under high temperature and desiccation stress. J Agr Sci Tech
13:795-802
Venkatashwarlu B (2008) Role of bio-fertilizers in organic farming: organic farming in rain fed
agriculture. Central institute for dry land agriculture, Hyderabad. pp. 85-95
Verghese S, Misra AK (2002)
Frankia
-actinorhizal symbiosis with special reference to host-mi-
crosymbiont relationship. Curr Sci 83(4):404-408
Vora MS, Shelat HH (1996) Isolation and screening of micro-organisms for dissolving tricalcium
Phosphate. J Madras Agric 83:353-354
Vyas RV, Shelat HN, Vora MS (2008) Bio-fertilizers techniques for sustainable production of ma-
jor crops for green revolution in Gujarat—an overveiw. Green Farm 1(10-11):68-72
Wang CL (1998) Response of
Phaseolus angularis
. Weight inoculated with arbuscular mycorrhi-
zal fungi under drought stress. J Agri Assoc China 181:92-101
Weller DM (1988) Biological control of soil borne plant pathogens in the rhizosphere with bacte-
ria. Ann Rev Phytopathol 26:379-407
Whitelaw MA (2000) Growth promotion of plants inoculated with phosphate solubilizing fungi.
Adv Agron 69:99-151
Yahya A, Azawi SKA (1998) Occurrence of phosphate solubilizing bacteria in some Iranian soils.
Plant Soil 117:135-141
Yanni YG, El-Fattah FKA (1999) Towards integrated biofertilization management with free living
and associative dinitrogen fixers for enhancing rice performance in the Nile delta. Symbiosis
27:319-331
Young CC (1990) Effects of phosphorus-solubilizing bacteria and vesicular-arbuscular mycorrhizal
fungi on the growth of tree species in subtropical-tropical soils. Soil Sci Plant Nut 36:225-231
Young CC, Juang TC, Chao CC (1988) Effect of Rhizobium and VA mycorrhiza inoculation on
nodulation, symbiotic nitrogen fixation and soybean yield in subtropical-tropical fields. Biol
Pert Soils 6:165-169
Young CC, Chang CH, Chen LF, Chao CC (1998a) Studies on the properties of nitrogen fixation
and ferric phosphate solubilizing bacteria isolated from a Taiwan soil. J Chinese Agri Chem
Soci 36:201-210
Young CC, Hung LJ, Chen LF (1998b) Studies on the exudate and characteristics of P-solubiliza-
tion with P-solubilizing rhizobia for four green manures. Soil Environ 1:7-17
Young CC, Chen LG, Chen LF (2000) Effects of nitrogen fertilization on loss of nutrient in four-
Taiwan soils. J Agricul Assoc China 1:1-14
Young CC, Lai WA, Shen FT, Hung MH, Huang WS, Arun AB (2003) Exploring the microbial
potentiality to augment soil fertility in Taiwan. In the Proceedings of 6th ESAFS inter-national
conference: soil management technology on low productivity and degraded soils, Taipei, Tai-
wan. pp. 25-27
Zhang J, Wang M, Cao Y, Wu L, Xu S (2012) Iron and zinc accumulation trend in a Japonica rice
grains after anthesis. Afr J Agric Res 7:1312-1316
Zilli JE, Valisheski RR, Filho FR, Nerves MP, Rumianek NG (2004) Assessment of cowpea rhizo-
bium diversity in Cerrado area of northeastern Brazil. Braz J Microbiol 35(4):281-287
Search WWH ::
Custom Search