Phosphate-solubilizing Bacteria in Rhizosphere and its Effect on Plant Growth

Shao Yufang, Fan Mingshou, Wu En, Zheng Hongli, Shao Jinwang

Chinese Agricultural Science Bulletin ›› 2007, Vol. 23 ›› Issue (4) : 241-241. DOI: 10.11924/j.issn.1000-6850.0704241
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Phosphate-solubilizing Bacteria in Rhizosphere and its Effect on Plant Growth

  • Shao Yufang, Fan Mingshou, Wu En, Zheng Hongli, Shao Jinwang
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Abstract

The research progress on phosphate-solubilizing bacteria (PSB) were reviewed in aspects of species diversity, quantity, distribution, phosphate- solubilizing ability and the effects on plant growth in the paper. The results from many researches showed that phosphate-solubilizing bacteria are common in soil, and their amount and species number in rhizosphere are greater than in bulk soil. Most phosphate rock can be resolved by the PSB, and it hence provides bioavailable phosphorus for plant. In addition to solving rock phosphate, PSB also promotes plant growth, this has been proven to be due to excretion of plant hormones by PSB. Respective research area was also put forward at the end of this paper.

Key words

Plant;Rhizosphere;Phosphate-solubilizing bacteria

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Shao Yufang, Fan Mingshou, Wu En, Zheng Hongli, Shao Jinwang. Phosphate-solubilizing Bacteria in Rhizosphere and its Effect on Plant Growth. Chinese Agricultural Science Bulletin. 2007, 23(4): 241-241 https://doi.org/10.11924/j.issn.1000-6850.0704241

References

[1]杨珏,阮晓红.土壤磷素循环及其对土壤磷流失的影响[J].土壤与环境,2001,10(3):256-258.
[2]鲁如坤,等.我国典型地区农业生态系统养分循环和平衡研究III,农田养分平衡的评价方法[J].土壤通报,1996,27(5):197-199.
[3]Richardson A E. Soil microorganism and phosphorus availability [A]. In: Pankhurst C E. Double B E, Gupta V, et al. Eds. Soil Biota Management in Sustainable Farming System [M].CSIRO:Melbourbne,1994:50-62.
[4]梁绍芳.解磷微生物肥料的作用和应用[J].土壤肥料,1994,(2):45-48.
[5]Illmer P. Schinner F. Solubilization of inorganic phosphates by microorganisms isolated from forest soils [J].Soil Biology & biochemistry, 1992,24(2):389-395.
[6]Gaind S and Gaur A C. Thermo tolerant phosphate Solubilization microorganism and their interaction with mung bean [J].Plant and soil,1991,133:141-149.
[7]Chabot R, Antoun H and Cescas M P. Growth promotion of maize and lettuce by phosphate-solubilizing Rhizobium leguminosarum biovar. phaseoli[J].Plant and Soil,1996,184:311-321.
[8]赵小蓉,林启美.微生物解磷的研究进展[J].土壤肥料,2001,5(3):7-11.
[9]Sundara Racand W B, Sinha M K. Phosphate dissolving microorganisms in the rhizosphere and soil[J].India J Agric sci,1963,33(4):272-278.
[10] Paul NB, Sundara Rao WB. Phosphate—dissolving bacteria in the rhizosphere of some cultivated legumes[J].Plant and Soil,1971,35:(3):127-132.
[11] Molla M A Z, Chowdhury M A. Microbial mineralization of organic phosphate in soil[J].Plant and Soil,1984,78(1):393-399.
[12] Elliott J M, Mathre D E, Sands D C. Identification and characterization of rhizosphere—competent bacteria of wheat[J].Appl Enroron Microbiol,1987,53(2):2793-2799.
[13] Sperber J I. The incidence of apatite solubilizing organisms in the rhizosphere and soil [J]. Aust J Agric Res,1958,(9):778-781.
[14] Kabznilson H, Peterson E and Rouatt J W. Phosphate-dissolving microorganisms on seed and in the root zone of plants [J].Canadian Journal of Botanic, 1962,40(9):1181-1186.
[15] 赵小蓉,林启美,孙焱鑫,等.玉米根际与非根际解磷细菌的分布特点[J].生态学杂志,2001,20(6):62-64.
[16] 赵小蓉,林启美,孙焱鑫,等.小麦根际与非根际解磷细菌的分布[J].华北农学报,2001,16(1):111-115.
[17] 林启美,赵小蓉,孙焱鑫,等.四种不同生态系统的土壤解磷细菌数量及种群分布[J].土壤与环境,2000,9(1):34-37.
[18] 尹瑞林.我国旱地土壤的溶磷微生物 [J].土壤,1988,20(5):243-246.
[19] 梁绍芬,姜瑞波,葛诚.微生物肥料的生产和发展及存在的问题[M].北京:中国农业科技出版社,1996:61-65.
[20] 许光辉.土壤微生物分析方法手册[M].北京:农业出版社,1986:246-248.
[21] 赵小蓉,林启美,孙焱鑫,等.细菌解磷能力测定方法的研究[J].微生物学通报,2001,28(1):1-4.
[22] Mundryk Z J. Decomposition of organic and solubilization of inorganic phosphorus compounds by bacteria isolated from a marine sandy beach [J]. Marine Biology,2004,145:1227-1234.
[23] 郑传进,黄林,龚明.巨大芽孢杆菌解磷能力的研究[J].江西农业大学学报(自然科学版),2002,24(2):190-192.
[24] 张爱华,杨启银,陈育如,等.解磷细菌突变株PS-01P菌株的选育及发酵条件的研究[J].安徽农业大学学报,2004,31(3):309-314.
[25] 曾广勤,张爱民,张志红,等.HM0332和HM48-3菌株纯培养条件下解磷强度研究[J].微生物学通报,2000,27(5)346-348.
[26] 郜春花,王岗,董云中,等.解磷菌剂盆栽及大田施用效果[J].山西农业科学,2003,31(3):40-43.
[27] Asea P E A, Kucey R M and Stewart J W B. Inorganic phosphate solubilization by two Penicillium species in Solution culture and soil [J]. Soil Biol. Biochemical, 1988,20(4):459-464.
[28] Raj J, Bagyaraj DJ, Manjunath A. Influence of soil inoculation with vesicular-arbuscular mycorrhiza and a phosphate dissolving bacterium on plant growth and 32p-uptake[J]. Soil Biol.Biochem,1981,13:105-108.
[29] Mustafa Y, Bilen C S, Cakmakai R, Aydin A. Effect of plant growth-promoting bacteria and soil compaction on barley seeding growth, nutrient uptake, soil properties and rhizosphere microflora[J]. Biol Fertile Soil,2006,42(4):350-357.
[30] Laheurte F, Berthelin J. Effect of a phosphate solubilizing bacteria on maize growth and root exudation over four levels of labile phosphorus [J]. Plant Soil,1988,105:11-17.
[31] Brown M E. Seed and root bacterization [J]. Ann.Rev.Phytopathol,1974,12:181-197.
[32] Datta M, Banik S and Gupta R K. Studies on the efficacy of a phytohormone producing of phosphate solubilizing Bacillus in augmenting paddy yield in acid soils of Nagaland [J]. Plant Soil.1982,69:365-373.
[33] Kucey R M N, Janzen H H, Legett M E. Microbially mediated increases in plant—available phosphorus [J]. Adv Agron,1989,42:199-228.
[34] Chabot R, Antoun H and Cescas M P. Growth promotion of maize and lettuce by phosphate—solubilizing rhizobium legume inorsarum biovar phaseoli [J]. Plant Soil, 1996, 184:311-321.
[35] Kucey R M N. Effect of penicillium bilaji on the solubility and uptake of P and micronutrients from soil by wheat [J].Can J Soil Science, 1988, 68:261-270.
[36] 王富民,张彦,吴皓琼,等.解磷固氮菌剂的研制及其对小麦的增产效应[J].生物技术,1994,4(4):15-18.
[37] 邢礼军,王幼珊,张美庆.VA真菌与解磷细菌双接种促进植物对磷素吸收作用[J].北京农业科学,1998,16(3):33-34.
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