Biotransformation of struvite by Aspergillus niger: phosphate release and magnesium biomineralization as glushinskite
© 2020 The Authors. Environmental Microbiology published by Society for Applied Microbiology and John Wiley & Sons Ltd. Struvite (magnesium ammonium phosphate-MgNH4PO4·6H2O), which can extensively crystallize in wastewater treatments, is a potential source of N and P as fertilizer, as well as...
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th-mahidol.535382020-03-26T11:48:54Z Biotransformation of struvite by Aspergillus niger: phosphate release and magnesium biomineralization as glushinskite Bongkotrat Suyamud John Ferrier Laszlo Csetenyi Duangrat Inthorn Geoffrey Michael Gadd State Key Laboratory of Heavy Oil Processing Thailand Ministry of Education Mahidol University University of Dundee Agricultural and Biological Sciences Immunology and Microbiology © 2020 The Authors. Environmental Microbiology published by Society for Applied Microbiology and John Wiley & Sons Ltd. Struvite (magnesium ammonium phosphate-MgNH4PO4·6H2O), which can extensively crystallize in wastewater treatments, is a potential source of N and P as fertilizer, as well as a means of P conservation. However, little is known of microbial interactions with struvite which would result in element release. In this work, the geoactive fungus Aspergillus niger was investigated for struvite transformation on solid and in liquid media. Aspergillus niger was capable of solubilizing natural (fragments and powder) and synthetic struvite when incorporated into solid medium, with accompanying acidification of the media, and extensive precipitation of magnesium oxalate dihydrate (glushinskite, Mg(C2O4).2H2O) occurring under growing colonies. In liquid media, A. niger was able to solubilize natural and synthetic struvite releasing mobile phosphate (PO43−) and magnesium (Mg2+), the latter reacting with excreted oxalate resulting in precipitation of magnesium oxalate dihydrate which also accumulated within the mycelial pellets. Struvite was also found to influence the morphology of A. niger mycelial pellets. These findings contribute further understanding of struvite solubilization, element release and secondary oxalate formation, relevant to the biogeochemical cycling of phosphate minerals, and further directions utilizing these mechanisms in environmental biotechnologies such as element biorecovery and biofertilizer applications. 2020-03-26T04:28:30Z 2020-03-26T04:28:30Z 2020-01-01 Article Environmental Microbiology. (2020) 10.1111/1462-2920.14949 14622920 14622912 2-s2.0-85081296573 https://repository.li.mahidol.ac.th/handle/123456789/53538 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85081296573&origin=inward |
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Agricultural and Biological Sciences Immunology and Microbiology Bongkotrat Suyamud John Ferrier Laszlo Csetenyi Duangrat Inthorn Geoffrey Michael Gadd Biotransformation of struvite by Aspergillus niger: phosphate release and magnesium biomineralization as glushinskite |
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© 2020 The Authors. Environmental Microbiology published by Society for Applied Microbiology and John Wiley & Sons Ltd. Struvite (magnesium ammonium phosphate-MgNH4PO4·6H2O), which can extensively crystallize in wastewater treatments, is a potential source of N and P as fertilizer, as well as a means of P conservation. However, little is known of microbial interactions with struvite which would result in element release. In this work, the geoactive fungus Aspergillus niger was investigated for struvite transformation on solid and in liquid media. Aspergillus niger was capable of solubilizing natural (fragments and powder) and synthetic struvite when incorporated into solid medium, with accompanying acidification of the media, and extensive precipitation of magnesium oxalate dihydrate (glushinskite, Mg(C2O4).2H2O) occurring under growing colonies. In liquid media, A. niger was able to solubilize natural and synthetic struvite releasing mobile phosphate (PO43−) and magnesium (Mg2+), the latter reacting with excreted oxalate resulting in precipitation of magnesium oxalate dihydrate which also accumulated within the mycelial pellets. Struvite was also found to influence the morphology of A. niger mycelial pellets. These findings contribute further understanding of struvite solubilization, element release and secondary oxalate formation, relevant to the biogeochemical cycling of phosphate minerals, and further directions utilizing these mechanisms in environmental biotechnologies such as element biorecovery and biofertilizer applications. |
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State Key Laboratory of Heavy Oil Processing |
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State Key Laboratory of Heavy Oil Processing Bongkotrat Suyamud John Ferrier Laszlo Csetenyi Duangrat Inthorn Geoffrey Michael Gadd |
| format |
Article |
| author |
Bongkotrat Suyamud John Ferrier Laszlo Csetenyi Duangrat Inthorn Geoffrey Michael Gadd |
| author_sort |
Bongkotrat Suyamud |
| title |
Biotransformation of struvite by Aspergillus niger: phosphate release and magnesium biomineralization as glushinskite |
| title_short |
Biotransformation of struvite by Aspergillus niger: phosphate release and magnesium biomineralization as glushinskite |
| title_full |
Biotransformation of struvite by Aspergillus niger: phosphate release and magnesium biomineralization as glushinskite |
| title_fullStr |
Biotransformation of struvite by Aspergillus niger: phosphate release and magnesium biomineralization as glushinskite |
| title_full_unstemmed |
Biotransformation of struvite by Aspergillus niger: phosphate release and magnesium biomineralization as glushinskite |
| title_sort |
biotransformation of struvite by aspergillus niger: phosphate release and magnesium biomineralization as glushinskite |
| publishDate |
2020 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/53538 |
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