Effects of Phosphate-solubilizing Bacteria on Soil Phosphorus Fractions and Supply to Maize Seedlings Grown in Lateritic Red Earths and Cinnamon Soils.

IF 2.1 4区环境科学与生态学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Microbes and Environments Pub Date : 2023-01-01 DOI:10.1264/jsme2.ME22075

Han Long, Jun Wasaki

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Abstract

Phosphorus (P) is often the limiting factor for plant growth because of its low mobility and availability in soils. Phosphate-solubilizing bacteria (PSB) have been shown to increase the availability of soil P fractions, thereby promoting plant growth. We herein investigated the effects of PSB on P availability in two important Chinese soil types: Lateritic red earths (La) and Cinnamon soils (Ci). We initially isolated 5 PSB strains and assessed their effects on soil P fractions. PSB mainly increased moderately labile P in La and labile P in Ci. We then selected the most promising PSB isolate (99% similarity with Enterobacter chuandaensis) and examined its effects on P accumulation in maize seedlings. The results obtained showed that plant P accumulation increased in response to a PSB inoculation in both soil types and the combination of the PSB inoculation and tricalcium phosphate fertilization in La significantly enhanced P accumulation in plant shoots. The present study demonstrated that the PSB isolates tested differed in their ability to mobilize P from distinct P fertilizers and that PSB isolates have potential as a valuable means of sustainably enhancing seedling growth in Chinese agricultural soils.

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增磷菌对红壤、红壤玉米幼苗土壤磷组分及供给的影响

由于磷在土壤中的流动性和有效性较低，它往往是植物生长的限制因素。磷酸盐溶解细菌(PSB)已被证明可以增加土壤磷组分的有效性，从而促进植物生长。在中国两种重要的土壤类型:红土(La)和肉桂土(Ci)中，研究了PSB对磷有效性的影响。我们初步分离了5株PSB菌株，并评估了它们对土壤磷组分的影响。PSB主要增加La和Ci的中效磷。然后，我们选择了最有希望的PSB分离株(与川达肠杆菌相似性为99%)，并研究了其对玉米幼苗磷积累的影响。结果表明，两种土壤类型接种PSB均能显著提高植株磷积累量，且接种PSB与La磷化三钙联合施用显著提高植株茎部磷积累量。本研究表明，所测试的PSB分离株从不同磷肥中动员磷的能力存在差异，并且PSB分离株有潜力成为可持续促进中国农业土壤幼苗生长的有价值的手段。

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来源期刊

Microbes and Environments 生物-生物工程与应用微生物

CiteScore

4.10

自引率

13.60%

发文量

审稿时长

3 months

期刊介绍： Microbial ecology in natural and engineered environments; Microbial degradation of xenobiotic compounds; Microbial processes in biogeochemical cycles; Microbial interactions and signaling with animals and plants; Interactions among microorganisms; Microorganisms related to public health; Phylogenetic and functional diversity of microbial communities; Genomics, metagenomics, and bioinformatics for microbiology; Application of microorganisms to agriculture, fishery, and industry; Molecular biology and biochemistry related to environmental microbiology; Methodology in general and environmental microbiology; Interdisciplinary research areas for microbial ecology (e.g., Astrobiology, and Origins of Life); Taxonomic description of novel microorganisms with ecological perspective; Physiology and metabolisms of microorganisms; Evolution of genes and microorganisms; Genome report of microorganisms with ecological perspective.