Optimization of oxalic acid production by fungi for biotechnological solubilization of rock phosphate

IF 2.6 3区农林科学 Q1 Agricultural and Biological Sciences Scientia Agricola Pub Date : 2022-05-13 DOI:10.1590/1678-992x-2021-0076

Jeniffer Kelly Cortes Amaro, Laura Vieira Xavier, M. Ribeiro, B. S. Vieira, G. Mendes

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引用次数: 1

Abstract

: This study describes a biotechnological strategy for producing and applying oxalic acid to solubilize phosphorus (P) from rock phosphate (RP). We evaluated six fungal species ( Aspergillus niger FS1, Penicillium islandicum FS41, Pleurotus ostreatus PO1, Rhizoctonia solani Rhiz555, Sclerotium rolfsii Sr25, and Sclerotinia sclerotiorum Scl134) and three culture media (potato dextrose broth, Tsao and Strasser media) to maximize oxalic acid production. Among the fungal isolates tested and culture media, S. rolfsii Sr25 and Tsao medium showed efficient oxalic acid production. Tsao medium was optimized following a response surface methodology after initial screening of factors affecting RP solubilization. The optimized concentrations were 1 g L –1 NaNO 3 , 100 g L –1 glucose, 2 g L –1 KH 2 PO 4 , 4.5 g L –1 yeast extract, and 25 mg L –1 MgSO 4 ·7H 2 O used for 20 days of incubation. Under these conditions, 71 mmol L –1 oxalic acid was obtained, representing a three-fold increase over production under non-optimized conditions (20 mmol L –1 ). Under optimized conditions, oxalic acid produced by S. rolfsii Sr25 reacted with low-solubility RP and solubilized 100 % of the P contained in ore. Thus, using S. rolfsii Sr25 to produce oxalic acid seems a promising biotechnological alternative for P solubilization from RP.

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真菌生物技术增溶磷矿生产草酸的优化研究

本文介绍了一种生物技术策略，用于生产和应用草酸从磷酸盐岩中溶解磷(P)。我们评估了6种真菌(黑曲霉FS1、岛青霉FS41、平菇PO1、solani Rhizoctonia Rhiz555、Sclerotinia rolfsii Sr25和sclerotiorum Scl134)和3种培养基(马铃薯葡萄糖肉汤、Tsao和Strasser培养基)对草酸产量的影响。在菌株和培养基中，S. rolfsii Sr25和Tsao培养基的草酸产量最高。在初步筛选影响RP增溶的因素后，采用响应面法对Tsao培养基进行了优化。最佳浓度为1 g L -1 NaNO 3、100 g L -1葡萄糖、2 g L -1 KH - 2 PO 4、4.5 g L -1酵母膏、25 mg L -1 mgso4·7 h2o，培养20 d。在此条件下，草酸的产量为71 mmol L -1，比非优化条件下(20 mmol L -1)的产量增加了3倍。在优化条件下，S. rolfsii Sr25生产的草酸与低溶解度RP反应，可100%溶解矿石中的P。因此，利用S. rolfsii Sr25生产草酸是RP增溶P的一种有前景的生物技术替代方案。

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来源期刊

Scientia Agricola 农林科学-农业综合

CiteScore

5.10

自引率

3.80%

发文量

审稿时长

18-36 weeks

期刊介绍： Scientia Agricola is a journal of the University of São Paulo edited at the Luiz de Queiroz campus in Piracicaba, a city in São Paulo state, southeastern Brazil. Scientia Agricola publishes original articles which contribute to the advancement of the agricultural, environmental and biological sciences.