解磷微生物应用研究与展望
Applied Research and Outlook of P-Solubilizing Microbes
DOI: 10.12677/HJAS.2020.106056, PDF,  被引量    科研立项经费支持
作者: 王怡凡, 朱建强*:长江大学,湿地生态与农业利用教育部工程研究中心,湖北 荆州;刘 巍, 李洪顺, 朱其立, 冷伟峰, 李延锋*:中化农业(临沂)研发中心有限公司,山东 临沂
关键词: 解磷菌农业应用研究进展展望P-Solubilizing Microbes Agricultural Application Research Progress Outlook
摘要: 磷是重要的植物营养元素,影响植物的生长和代谢。在文献调查与分析的基础上,本文归纳总结了解磷菌的种类、解磷机理以及在生产中的应用,探讨了提高土壤中磷素利用率的技术途径,对解磷微生物的应用研究进行了展望,最后,根据解磷菌研究和应用中存在的问题指出了今后努力的方向。
Abstract: Phosphorus is an important nutrient element for plant, which impacts vegetation growth and metabolism. Based on literature search and analysis, the paper summarized species of P-solubilizing microbes and their phosphate-solubilizing mechanisms, as well as their application in agricultural production practice, probed into technical approaches to enhance utilization rate of phosphorus in soil, looked forward to applied research of P-solubilizing microbes, finally pointed out the striving direction in the future in light of problems existed in the research and application of P-solubilizing microbes.
文章引用:王怡凡, 刘巍, 李洪顺, 朱其立, 冷伟峰, 李延锋, 朱建强. 解磷微生物应用研究与展望[J]. 农业科学, 2020, 10(6): 380-385. https://doi.org/10.12677/HJAS.2020.106056

参考文献

[1] 彭静静, 高辉远. 解磷菌的研究进展及展望[J]. 泰山学院学报, 2016, 38(6): 95-99.
[2] Ram, H., Malik, S.S., Dhaliwal, S.S., et al. (2015) Growth and Productivity of Wheat Affected by Phosphorus Solubilizing Fungi and Phos-phorus Levels. Plant Soil & Environment, 61, 122-126. [Google Scholar] [CrossRef
[3] 张云霞, 雷鹏, 许宗奇, 等. 一株高效解磷菌Bacillus subtilis JT-1的筛选及其对土壤微生态和小麦生长的影响[J]. 江苏农业学报, 2016, 32(5): 1073-1080.
[4] 孟祥坤, 于新, 朱超, 等. 解磷微生物研究与应用进展[J]. 华北农学报, 2018, 33(S1): 208-214.
[5] 韩雪娇, 曾庆伟, 赵玉萍. 杨树根际解无机磷细Mp1-Ha4的鉴定及其解磷机理[J]. 生物技术通报, 2020, 36(4): 8-14.
[6] 何玉龙, 周青平. 解磷微生物研究进展[J]. 青海畜牧兽医杂志, 2012, 42(2): 36-38.
[7] 秦利均, 杨永柱, 杨星勇. 土壤溶磷微生物溶磷、解磷机制研究进展[J]. 生命科学研究, 2019, 23(1): 59-64, 86.
[8] 冯月红, 姚拓, 龙瑞军. 土壤解磷菌研究进展[J]. 草原与草坪, 2003(1): 3-7.
[9] 张进良, 张霁. 解磷微生物在农业应用中的研究进展[J]. 商丘师范学院学报, 2014, 30(12): 70-73.
[10] 林英, 司春灿, 韩文华, 等. 解磷微生物研究进展[J]. 江西农业学报, 2017, 29(2): 99-103.
[11] Sarkar, A., Islam, T., Biswas, G.C., et al. (2012) Screening for Phosphate Solubilizing Bacteria Inhabiting the Rhizoplane of Rice Grown in Acidic Soil in Bangla-desh. Acta Microbiologicaet Immunologica Hungarica, 59, 199-213. [Google Scholar] [CrossRef
[12] Singh, M. and Tejo Prakash, N. (2012) Characterisation of Phos-phate Solubilising Bacteria in Sandy Loam Soil under Chickpea Cropping System. Indian Journal of Microbiology, 52, 167-173. [Google Scholar] [CrossRef] [PubMed]
[13] 林燕青, 吴承祯, 洪伟, 等. 解磷菌的研究进展[J]. 武夷科学, 2015, 31(1): 161-169.
[14] Srivastwa, P. and Verma, K. (2015) Effect of Azospirillium and Phos-pho-Solubilizing Bacterial Isolates on Yield and Nutrient Uptake of Rice in Salt Affected Soil. International Journal of Forestry & Crop Improvement, 5, 48-53. [Google Scholar] [CrossRef
[15] Maheshwari, D.K. (2011) Bacteria in Agrobiology: Plant Nu-trient Management. Springer, Berlin Heidelberg. [Google Scholar] [CrossRef
[16] 盛荣, 肖和艾, 谭周进, 等. 土壤解磷微生物及其磷素有效性转化机理研究进展[J]. 土壤通报, 2010, 41(6): 1505-1510.
[17] Rodríguez, H. and Fraga, R. (1999) Phosphate Solu-bilizing Bacteria and Their Role in Plant Growth Promotion. Biotechnology Advances, 17, 319-339. [Google Scholar] [CrossRef
[18] López-Bucio, J., Vega, O.M.D.L., Guevara-García, A., et al. (2000) Enhanced Phosphorus Uptake in Tobacco Transgenic Plants That Overproduce Citrate. Nature Biotechnology, 18, 450-453. [Google Scholar] [CrossRef] [PubMed]
[19] Rodríguez, H., Rossolini, G.M., Gonzalez, T., et al. (2000) Isolation of a Gene from Burkholderiacepacia IS-16 Encoding a Protein That Facilitates Phosphatase Activity. Current Microbiol-ogy, 40, 362-366. [Google Scholar] [CrossRef] [PubMed]
[20] Rodríguez, H., Fraga, R., Gonzalez, T., et al. (2006) Genetics of Phosphate Solubilization and Its Potential Applications for Improving Plant Growth-Promoting Bacteria. Plant and Soil, 287, 15-21. [Google Scholar] [CrossRef
[21] Lü, J., Gao, X., Dong, Z., et al. (2012) Expression of Mitochon-drial Malate Dehydrogenase in Escherichia coli Improves Phosphate Solubilization. Annals of Microbiology, 62, 607-614. [Google Scholar] [CrossRef
[22] 赵为容. 小麦亲和性根际解磷菌解磷机理及促生效果研究[D]: [硕士学位论文]. 合肥: 安徽农业大学, 2018.
[23] 马臻, 邓琳玲, 张言状. 微生物菌肥对秦巴山区核桃品质及土壤微生物的影响[J]. 现代园艺, 2019(24): 4-6.
[24]
https://baike.baidu.com/item/解磷微生物肥料/839223?fr=aladdin
[25] 朱峰, 汪成军, 黄方俊, 等. 有机肥与微生物菌剂配施对柑桔化肥减量效果的影响[J]. 现代园艺, 2020, 43(1): 3-4.
[26] 赵毅珺, 孟会生, 洪坚平. 生物炭与解磷菌剂配施对石灰性土壤生物化学性状及苜蓿产量的影响[J]. 山西农业科学, 2019, 47(11): 1955-1959.
[27] 杜雷, 陈钢, 王素萍, 等. 解磷菌剂对生菜根际土壤微生物数量和酶活性的影响[J]. 湖北农业科学, 2019, 58(11): 70-74.
[28] 李智强, 李慧文, 陆瑶, 等. 微生物菌剂及施地佳土壤调理剂防治油菜根肿病试验[J]. 农村科技, 2019(6): 35-37.
[29] Biswas, J.K., Banerjee, A., Rai, M., et al. (2018) Potential Application of Selected Metal Resistant Phosphate Solubilizing Bacteria Isolated from the Gut of Earthworm (Metaphire posthuma) in Plant Growth Promotion. Geoderma, 330, 117-124. [Google Scholar] [CrossRef
[30] An, Y.F., Du, L. and Zhu, X.L. (2017) Optimizing Com-bined Application of SRB and PSB to Deactive Cd Pollution by Response Surface Methodology. Chemical Engineering (China), 45, 1-6.

为你推荐