Isolation of citric acid-producing Aspergillus niger from soil and organic wastes

The Journal of Phytology Pub Date : 2020-12-17 DOI:10.25081/jp.2020.v12.6423

F. A. Zakry, N. Syahidah, M. Malahubban, P. Show

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引用次数: 1

Abstract

Introduction of new Aspergillus niger strains that are more productive than those currently in use is one of the important steps in promoting more effective commercial citric acid production. The present study was conducted to isolate and characterise indigenous A. niger from selected soil and organic wastes such as soil with buried bamboo, soil with bamboo on the surface, soil under cattle grazing, mango orchard soil, rotting plum fruit and rotting bread. Morphological identification of A. niger was based on the length and width of the conidiophores, vesicles, phialides, and spores. Citric acid-producing Aspergillus isolates were screened based on the citric acid production index. The present study found that the highest fungal spore counts (3.35±0.15 x 107 spores/g sample) were obtained from soil under cattle grazing, as were the highest A. niger counts (7.25±0.05 x 106 spores/g sample). The lowest total fungal counts came from rotting plum fruit (4.70±0.10 x 105 spores/g sample). A total of 14 isolates were collected, with five (NSA03, NSA06, NSA09, NSA12, and NSA14) showing morphological similarities with the reference isolate, A. niger Tiegh. All isolates were able to produce citric acid, but with varying efficiencies according to their citric acid production indices. The soil under cattle grazing area found to be the best site for sampling and isolation for citric acid-producing A. niger by using Czapek-Dox as a medium of isolation.

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从土壤和有机废物中分离产柠檬酸黑曲霉

引进比目前使用的产量更高的黑曲霉新菌株是促进更有效的商业柠檬酸生产的重要步骤之一。本研究从埋竹土壤、表面有竹土壤、放牧土壤、芒果果园土壤、腐烂的李子果实和腐烂的面包等土壤和有机废弃物中分离和鉴定了土生黑僵菌。根据分生孢子、囊泡、花梗和孢子的长度和宽度对黑曲霉进行形态学鉴定。根据产柠檬酸指标对产柠檬酸曲霉进行了筛选。放牧土壤真菌孢子数最高(3.35±0.15 × 107孢子/g样品)，黑曲霉孢子数最高(7.25±0.05 × 106孢子/g样品)。腐烂李果的真菌总数最低(4.70±0.10 × 105孢子/g)。共收集到14株分离株，其中5株(NSA03、NSA06、NSA09、NSA12和NSA14)与参考分离株A. niger Tiegh形态相似。所有菌株都能产生柠檬酸，但根据其柠檬酸生产指标的不同，效率不同。以Czapek-Dox为分离培养基，发现放牧区土壤是产柠檬酸黑曲霉取样和分离的最佳场所。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Journal of Phytology

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