2020
DOI: 10.1111/jam.14939
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Isolation of cold‐adapted nitrate‐reducing fungi that have potential to increase nitrate removal in woodchip bioreactors

Abstract: The aim of this study was to obtain cold-adapted denitrifying fungi that could be used for bioaugmentation in woodchip bioreactors to remove nitrate from agricultural subsurface drainage water. Methods and Results: We isolated a total of 91 nitrate-reducing fungal strains belonging to Ascomycota and Mucoromycota from agricultural soil and a woodchip bioreactor under relatively cold conditions (5°C and 15°C). When these strains were incubated with 15 N labeled nitrate, 29 N 2 was frequently produced, suggesting… Show more

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Cited by 19 publications
(6 citation statements)
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“…In contrast, it prospered while other fungal groups diminished, indicating high tolerance to changing environmental conditions for this fungal genus. Aldossari and Ishii ( 2021 ) detected Cadophora in soil and woodchip bioreactors at relatively low temperatures (5–15 °C) and confirmed the nitrate-reducing capability of this genus. It is likely that Cadophora is an important contributor in the nitrogen cycle also in our BSR bioreactors, especially when the sulfate loading was gradually increased.…”
Section: Discussionmentioning
confidence: 84%
“…In contrast, it prospered while other fungal groups diminished, indicating high tolerance to changing environmental conditions for this fungal genus. Aldossari and Ishii ( 2021 ) detected Cadophora in soil and woodchip bioreactors at relatively low temperatures (5–15 °C) and confirmed the nitrate-reducing capability of this genus. It is likely that Cadophora is an important contributor in the nitrogen cycle also in our BSR bioreactors, especially when the sulfate loading was gradually increased.…”
Section: Discussionmentioning
confidence: 84%
“…So far, however, little is known about the life and ecological role of fungi in denitrifying woodchip bioreactors. Remarkably, and in addition a role in lignocellulose degradation, Aldossari and Ishii (2020) newly reported the occurrence of denitrifying fungi from a woodchip bioreactor in Minnesota (United States), where these organisms seemingly contributed directly to anaerobic N transformations, thus indicating a novel physiological and ecological role to be further examined.…”
Section: Functional Groupsmentioning
confidence: 99%
“…We previously isolated 91 nitrate-reducing fungal strains from woodchip bioreactors and the adjacent cornfield soil in Minnesota, USA ( 3 ). One of the strains, Linnemannia hyalina strain SCG-10, can reduce 15 N-labeled nitrate to 30 N 2 at cold temperature (5°C) and therefore has strong potential for bioaugmentation applications.…”
Section: Announcementmentioning
confidence: 99%
“…One of the strains, Linnemannia hyalina strain SCG-10, can reduce 15 N-labeled nitrate to 30 N 2 at cold temperature (5°C) and therefore has strong potential for bioaugmentation applications. However, nirK and p450nor are not detected by PCR ( 3 ). To detect these genes and other genes important for denitrification, we sequenced the whole genome of Linnemannia hyalina strain SCG-10.…”
Section: Announcementmentioning
confidence: 99%
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