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解磷和矿化芽孢杆菌属通过添加稻草改良土壤促进水稻生长。

Phosphorus Solubilizing and Mineralizing Bacillus spp. Contribute to Rice Growth Promotion Using Soil Amended with Rice Straw.

作者信息

Gomez-Ramirez Luis F, Uribe-Velez Daniel

机构信息

Universidad Nacional de Colombia, Instituto de Biotecnologia, Cundinamarca, Bogota D.C, Colombia.

出版信息

Curr Microbiol. 2021 Mar;78(3):932-943. doi: 10.1007/s00284-021-02354-7. Epub 2021 Feb 12.

DOI:10.1007/s00284-021-02354-7
PMID:33580332
Abstract

Rice (Oryza sativa L.) is a staple food for more than two billion people worldwide. Its cultivation demands large amounts of nutrients, particularly nitrogen and phosphorus (P). Consequently, low availability of these nutrients in the soil has led to the use of chemical fertilizers, generating increases in production costs and environmental damage. Soil host microorganisms known as plant growth-promoting rhizobacteria (PGPR) colonize the rhizosphere and facilitate the uptake of nutrients by the plants. In this study, rice seeds inoculated with PGPR were grown for 30 days in an inert substrate and fertilized with modified Hoagland nutrient solution with phosphate rock as a source of P. Treatments were repeated over time, obtaining five isolates which significantly increased plant length by up to 56% and dry weight of stems and roots up to 45% and 169% respectively relative to an uninoculated control. Selected strains showed in vitro tri-calcium phosphate solubilizing activity, mineralizing phytate activity, and phosphate release from rice straw (RS). Based on the above criteria, three isolates (IBUN-02755, -02,704 and -02,724) that contained β propeller phytase (BPP) genes, were selected to evaluate their effect as PGPR in rice seedlings. These were planted in a soil amended with RS under greenhouse conditions. The results showed that selected Bacillus spp. strains significantly increased plant length and dry weight or increased plant phosphate uptake up to two times compared to an un-inoculated control. This suggests that selected strains may have a capacity as PGPR using RS as carbon and a P amendment.

摘要

水稻(Oryza sativa L.)是全球二十多亿人的主食。其种植需要大量养分,尤其是氮和磷(P)。因此,土壤中这些养分的低有效性导致了化肥的使用,增加了生产成本并造成环境破坏。被称为植物促生根际细菌(PGPR)的土壤宿主微生物定殖在根际,并促进植物对养分的吸收。在本研究中,接种了PGPR的水稻种子在惰性基质中培养30天,并用以磷矿石作为P源的改良霍格兰营养液施肥。随着时间推移重复进行处理,获得了五种分离株,相对于未接种的对照,它们显著增加了植株长度,最高可达56%,茎和根的干重分别增加了45%和169%。所选菌株表现出体外磷酸三钙溶解活性、植酸矿化活性以及从稻草(RS)中释放磷的能力。基于上述标准,选择了三种含有β螺旋桨植酸酶(BPP)基因的分离株(IBUN - 02755、- 02704和 - 02724)来评估它们作为PGPR对水稻幼苗的作用。将它们种植在温室条件下用RS改良的土壤中。结果表明,与未接种的对照相比,所选芽孢杆菌属菌株显著增加了植株长度和干重,或者使植物对磷的吸收增加了两倍。这表明所选菌株可能具有利用RS作为碳源和磷改良剂的PGPR能力。

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