Antagonistic Effect of Two Indigenous Phosphate Solubilizing Bacteria, Burkholderia contaminans PSB3 and Acinetobacter baumannii PSB11 Isolated from Different Crop Soils

R. A. Nugroho, V. I. Meitiniarti, Chrisseptina Damayanti
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引用次数: 1

Abstract

Phosphorus is the most important key element in the nutrition of plants. Although P is abundant in soils, it is a major limiting factor for plant growth as it is in an unavailable form for roots uptake. Phosphate solubilizing bacteria (PSB) has ability to convert insoluble form of P to an available form. This study was aimed at screening and characterizing phosphate-solubilizing bacteria from manure and different soils and to ascertain a potential benefit to use mixed cultures to improve P solubilization. A total of 12 PSB colonies were isolated on Pikovskaya's agar medium containing tricalcium phosphate. Out of 12 bacterial isolates, 2 isolates showed high phosphate solubilization index (2.17 and 1.83, respectively) were selected for further study. Based on the 16S rRNA gene sequence analysis, PSB3 was closely related to Burkholderia contaminans (99%), and PSB11 was closely related to Acinetobacter baumannii (99%). The mean P dissolved in liquid cultures of PSB3 and PSB11 in a 14-day -1 incubation were 96.7 and 39.3 mg l , respectively. Mixed inoculation of B. contaminans PSB3 and A. baumannii PSB11 could not increase the solubilization activity significantly, suggesting there is antagonistic behavior of one isolate towards another. As the interaction of these two isolates may be antagonistic, co-inoculation of these bacteria for P solubilization is not recommended. However, further study is needed to confirm these results.
不同作物土壤中两种本地增磷细菌——污染伯克霍尔德菌PSB3和鲍曼不动杆菌PSB11的拮抗作用
磷是植物营养中最重要的关键元素。虽然土壤中磷含量丰富,但它是植物生长的一个主要限制因素,因为它是以根系无法吸收的形式存在的。磷酸盐增溶菌(PSB)具有将不溶态磷转化为有效态磷的能力。本研究旨在筛选和鉴定来自粪肥和不同土壤的磷肥增溶菌,并确定使用混合培养提高磷肥增溶的潜在效益。在含有磷酸三钙的Pikovskaya琼脂培养基上共分离到12个PSB菌落。从12株分离菌株中筛选出2株具有较高的磷酸盐增溶指数(分别为2.17和1.83)进行进一步研究。基于16S rRNA基因序列分析,PSB3与污染伯克霍尔德菌(99%)密切相关,PSB11与鲍曼不动杆菌(99%)密切相关。PSB3和PSB11培养液中溶解磷的平均值分别为96.7 mg l和39.3 mg l。混合接种污染芽胞杆菌PSB3和鲍曼芽胞杆菌PSB11不能显著提高其增溶活性,说明两者之间存在拮抗作用。由于这两种菌株的相互作用可能是拮抗的,因此不建议同时接种这两种细菌来增溶磷。然而,需要进一步的研究来证实这些结果。
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