Skip Navigation
Skip to contents

Journal of Microbiology : Journal of Microbiology

OPEN ACCESS
SEARCH
Search
Advanced Search
mobile menu button

Search

Page Path
HOME > Search
1 "alternative strain"
Filter
Filter
Article category
Keywords
Publication year
Journal Article
A study of P release from Fe-P and Ca-P via the organic acids secreted by Aspergillus niger
Da Tian , Liyan Wang , Jun Hu , Liangliang Zhang , Ningning Zhou , Jingjing Xia , Meiyue Xu , Kianpoor Kalkhajeh Yusef , Shimei Wang , Zhen Li , Hongjian Gao
J. Microbiol. 2021;59(9):819-826.   Published online August 12, 2021
DOI: https://doi.org/10.1007/s12275-021-1178-5
  • 55 View
  • 0 Download
  • 21 Web of Science
  • 22 Crossref
AbstractAbstract
Phosphate solubilizing fungi (PSF) have been widely applied to dissolve insoluble phosphates (IPs). However, the PSF usually demonstrates a different phosphate solubilizing capacity for various IPs. This study explored the mechanisms of Aspergillus niger for the dissolution of ferric phosphate (FePO4, Fe-P), and tricalcium phosphate (Ca3[PO4]2, Ca-P) regarding the tricarboxylic acid (TCA) cycle. Aspergillus niger has higher phosphorus (P) content released from Ca-P, reached the maximum value of 861 mg/L after seven days of incubation, compared with the 169 mg/L from Fe-P. Oxalic acid promoted the release of P from Ca-P through the formation of calcium oxalate. The presence of Fe-P can stimulate A. niger to secrete large amounts of citric acid, confirmed by the enhancement of citrate synthase (CS) activity. However, citric acid only promotes 0.5% of P released from Fe-P. Meanwhile, although oxalic acid still dominates the release of P from Fe-P, its abundance was significantly declined. In contrast, oxalic acid also shows a higher P release ratio in Ca-P than citric acid, i.e., 36% vs. 22%. This study points to the future usage of A. niger to dissolve IPs in soil required to enhance oxalic acid secretion.

Citations

Citations to this article as recorded by  
  • Mechanism of A. oleivorans S4 treating soluble phosphorus deficiency and hydrocarbon contamination simultaneously
    Panpan Wang, Chaoqi Chen, Kejun Liao, Yue Tao, Yaojia Fu, Lanzhou Chen
    Science of The Total Environment.2024; 949: 175215.     CrossRef
  • Heavy Metal Remediation Using Phosphate-Solubilizing Fungi: From Bioprocess to Application
    Da Tian, Shuo Zhang, Dechao Wang, Liangliang Zhang, Haoming Chen, Xinxin Ye
    Agronomy.2024; 14(11): 2638.     CrossRef
  • Lead remediation by geological fluorapatite combined with Penicillium Oxalicum and Red yeast
    Qiang Guan, Xiaohui Cheng, Yue He, Yifan Yan, Lei Zhang, Zhan Wang, Liangliang Zhang, Da Tian
    Microbial Cell Factories.2024;[Epub]     CrossRef
  • Application of phosphogypsum and phosphate-solubilizing fungi to Pb remediation: From simulation to in vivo incubation
    Lingzi Meng, Kejin Ding, Yige Qiu, Yunhui Chen, Hongxun Huo, Dan Yu, Da Tian, Zhen Li
    Science of The Total Environment.2024; 933: 173171.     CrossRef
  • Improvement of fungal extraction of phosphorus from sewage sludge ash by Aspergillus niger using sludge filtrate as nutrient substrate
    Long Su, Lingyu Hu, Qinghong Sui, Chengcheng Ding, Di Fang, Lixiang Zhou
    Waste Management.2023; 157: 25.     CrossRef
  • The Regulation of Phosphorus Release by Penicillium chrysogenum in Different Phosphate via the TCA Cycle and Mycelial Morphology
    Liyan Wang, Da Tian, Xiaoru Zhang, Mingxue Han, Xiaohui Cheng, Xinxin Ye, Chaochun Zhang, Hongjian Gao, Zhen Li
    Journal of Microbiology.2023; 61(8): 765.     CrossRef
  • Nematophagous Fungi: A Review of Their Phosphorus Solubilization Potential
    Marcos Vera-Morales, Segundo E. López Medina, Jaime Naranjo-Morán, Adela Quevedo, María F. Ratti
    Microorganisms.2023; 11(1): 137.     CrossRef
  • Bioleaching rare earth elements from coal fly ash by Aspergillus niger
    Juanjuan Ma, Shuyan Li, Jinxi Wang, Shuting Jiang, Balaji Panchal, Yuzhuang Sun
    Fuel.2023; 354: 129387.     CrossRef
  • The Production of Oxalate by Aspergillus niger under Different Lead Concentrations
    Yijun Huang, Liangliang Zhang, Shijia Yuan, Wenpei Liu, Chaochun Zhang, Da Tian, Xinxin Ye
    Agronomy.2023; 13(4): 1182.     CrossRef
  • Characterization and genome analysis of Acinetobacter oleivorans S4 as an efficient hydrocarbon-degrading and plant-growth-promoting rhizobacterium
    Panpan Wang, Haiying Wei, Tan Ke, Yaojia Fu, Yuyang Zeng, Chaoqi Chen, Lanzhou Chen
    Chemosphere.2023; 331: 138732.     CrossRef
  • Electron microscopic imaging and NanoSIMS investigation on physiological responses of Aspergillus niger under Pb(II) and Cd(II) stress
    Shang Pan, Zhaoyan Li, Jiayi Wang, Xuefei Li, Lingzi Meng, Yunhui Chen, Mu Su, Zhen Li
    Frontiers in Bioengineering and Biotechnology.2023;[Epub]     CrossRef
  • Lead remediation is promoted by phosphate-solubilizing fungi and apatite via the enhanced production of organic acid
    Da Tian, Xiaoru Zhang, Liyan Wang, Mingxue Han, Chaochun Zhang, Xinxin Ye
    Frontiers in Bioengineering and Biotechnology.2023;[Epub]     CrossRef
  • Screening of calcium- and iron-targeted phosphorus solubilizing fungi for agriculture production
    Xin Zhang, Aravindan Rajendran, Sarah Grimm, Xiao Sun, Hongjian Lin, Ruo He, Bo Hu
    Rhizosphere.2023; 26: 100689.     CrossRef
  • Evaluating the survival of Aspergillus niger in a highly polluted red soil with addition of Phosphogypsum and bioorganic fertilizer
    Lingzi Meng, Shang Pan, Limin Zhou, Choochad Santasup, Mu Su, Da Tian, Zhen Li
    Environmental Science and Pollution Research.2022; 29(50): 76446.     CrossRef
  • Phosphorus-Solubilizing Capacity of Mortierella Species Isolated from Rhizosphere Soil of a Poplar Plantation
    Yue Sang, Long Jin, Rui Zhu, Xing-Ye Yu, Shuang Hu, Bao-Teng Wang, Hong-Hua Ruan, Feng-Jie Jin, Hyung-Gwan Lee
    Microorganisms.2022; 10(12): 2361.     CrossRef
  • Remediation of Lead-Contaminated Water by Red Yeast and Different Types of Phosphate
    Da Tian, Xiaohui Cheng, Liyan Wang, Jun Hu, Ningning Zhou, Jingjing Xia, Meiyue Xu, Liangliang Zhang, Hongjian Gao, Xinxin Ye, Chaochun Zhang
    Frontiers in Bioengineering and Biotechnology.2022;[Epub]     CrossRef
  • Decomposition of Maize Straw between Two Phosphate Solubilizing Fungi: Aspergillus Niger and Penicillium Chrysogenum
    Liyan Wang, Jun Hu, Hao Guan, Da Tian, Hongjian Gao, C. Yang, H. Chen, P. Duan, F. Jiao, C. Wen
    E3S Web of Conferences.2022; 350: 01028.     CrossRef
  • The Utilization of Phosphogypsum as a Sustainable Phosphate-Based Fertilizer by Aspergillus niger
    Da Tian, Jingjing Xia, Ningning Zhou, Meiyue Xu, Xiang Li, Liangliang Zhang, Shuhua Du, Hongjian Gao
    Agronomy.2022; 12(3): 646.     CrossRef
  • Remediation of Lead Contamination by Aspergillus niger and Phosphate Rocks under Different Nitrogen Sources
    Yi Feng, Liangliang Zhang, Xiang Li, Liyan Wang, Kianpoor Kalkhajeh Yusef, Hongjian Gao, Da Tian
    Agronomy.2022; 12(7): 1639.     CrossRef
  • Aspergillus nigerEnhances Organic and Inorganic Phosphorus Release from Wheat Straw by Secretion of Degrading Enzymes and Oxalic Acid
    Liyan Wang, Hao Guan, Jun Hu, Yi Feng, Xiang Li, Kianpoor Kalkhajeh Yusef, Hongjian Gao, Da Tian
    Journal of Agricultural and Food Chemistry.2022; 70(35): 10738.     CrossRef
  • A Study of Phosphate Solubilizing Capacity by Penicillium Aurantiogriseum under Different Carbon and Nitrogen Resources
    Jun Hu, Liyan Wang, Liangliang Zhang, Hongjian Gao, Da Tian, C. Yang, H. Chen, P. Duan, F. Jiao, C. Wen
    E3S Web of Conferences.2022; 350: 03002.     CrossRef
  • Phosphorus biogeochemistry regulated by carbonates in soil
    Yuanyuan Geng, Shang Pan, Lin Zhang, Jingjing Qiu, Kun He, Hongjian Gao, Zhen Li, Da Tian
    Environmental Research.2022; 214: 113894.     CrossRef
Journal of Microbiology : Journal of Microbiology
© The Microbiological Society of Korea.
TOP