解磷土壤细菌促进 L.生长。

Isolated Phosphate-Solubilizing Soil Bacteria Promotes Growth of L.

机构信息

Laboratory of Edaphology and Environment, Faculty of Sciences, Autonomous University of the State of Mexico, Toluca, Mexico.

Tenancingo Universitary Center, Autonomous University of the State of Mexico, Toluca, Mexico.

出版信息

Pol J Microbiol. 2020 Sep;69(3):357-365. doi: 10.33073/pjm-2020-039. Epub 2020 Sep 8.

DOI:10.33073/pjm-2020-039

PMID:33574865

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7810110/

Abstract

The capacity of four bacterial strains isolated from productive soil potato fields to solubilize tricalcium phosphate on Pikovskaya agar or in a liquid medium was evaluated. A bacterial strain was selected to evaluate capacity of plant-growth promotion on L. culture. Bacterial strain A3 showed the highest value of phosphate solubilization, reaching a 20 mm-diameter halo and a concentration of 350 mg/l on agar and in a liquid medium, respectively. Bacterial strain A3 was identified by 16S rDNA analysis as with 98% identity; therefore, it is the first report for as phosphate solubilizer. Plant-growth promotion assayed by culture of potato microplants showed that the addition of bacterial strain A3 increased root and stems length after 28 days. It significantly increased stem length by 79.3%, and duplicated the fresh weight of control microplants. In this paper, results reported regarding phosphorus solubilization and growth promotion under conditions represent a step forward in the use of innocuous bacterial strain biofertilizer on potato field cultures.

摘要

从生产性土壤马铃薯田中分离得到的 4 株细菌对磷酸三钙在 Pikovskaya 琼脂或液体培养基中的溶解能力进行了评价。选择了一株细菌菌株来评估其在 L 培养物上的促植物生长能力。菌株 A3 表现出最高的磷酸盐溶解能力，在琼脂和液体培养基中的溶磷圈直径分别达到 20mm 和 350mg/L。通过 16S rDNA 分析鉴定菌株 A3 为，相似度为 98%；因此，这是首次报道作为磷酸盐溶解菌。通过马铃薯微型植物培养物进行的促植物生长试验表明，添加细菌菌株 A3 可增加 28 天后的根和茎的长度。它显著增加了茎长 79.3%，使对照微型植物的鲜重增加了一倍。本文报道的在条件下的磷溶解和生长促进结果代表了在马铃薯田间培养中使用无害细菌菌株生物肥料的向前迈进的一步。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ddc8/7810110/f4f6d9a6a9ab/pjm-69-3-357-g001.jpg

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解磷土壤细菌促进 L.生长。

Isolated Phosphate-Solubilizing Soil Bacteria Promotes Growth of L.

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