Microalgae-bacteria symbiosis in microalgal growth and biofuel production: a review

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Microalgae-bacteria symbiosis in microalgal growth and biofuel production : a review. / Yao, S.; Lyu, S.; An, Y.; Lu, J.; Gjermansen, C.; Schramm, A.

I: Journal of Applied Microbiology, Bind 126, Nr. 2, 02.2019, s. 359-368.

Publikation: Bidrag til tidsskrift/Konferencebidrag i tidsskrift /Bidrag til avisReviewForskningpeer review

Harvard

Yao, S, Lyu, S, An, Y, Lu, J, Gjermansen, C & Schramm, A 2019, 'Microalgae-bacteria symbiosis in microalgal growth and biofuel production: a review', Journal of Applied Microbiology, bind 126, nr. 2, s. 359-368. https://doi.org/10.1111/jam.14095

APA

Yao, S., Lyu, S., An, Y., Lu, J., Gjermansen, C., & Schramm, A. (2019). Microalgae-bacteria symbiosis in microalgal growth and biofuel production: a review. Journal of Applied Microbiology, 126(2), 359-368. https://doi.org/10.1111/jam.14095

CBE

Yao S, Lyu S, An Y, Lu J, Gjermansen C, Schramm A. 2019. Microalgae-bacteria symbiosis in microalgal growth and biofuel production: a review. Journal of Applied Microbiology. 126(2):359-368. https://doi.org/10.1111/jam.14095

MLA

Vancouver

Yao S, Lyu S, An Y, Lu J, Gjermansen C, Schramm A. Microalgae-bacteria symbiosis in microalgal growth and biofuel production: a review. Journal of Applied Microbiology. 2019 feb;126(2):359-368. https://doi.org/10.1111/jam.14095

Author

Yao, S. ; Lyu, S. ; An, Y. ; Lu, J. ; Gjermansen, C. ; Schramm, A. / Microalgae-bacteria symbiosis in microalgal growth and biofuel production : a review. I: Journal of Applied Microbiology. 2019 ; Bind 126, Nr. 2. s. 359-368.

Bibtex

@article{4517de3e12b6480cb9ba71aca64ff0e2,
title = "Microalgae-bacteria symbiosis in microalgal growth and biofuel production: a review",
abstract = "Photosynthetic microalgae can capture solar energy and convert it to bioenergy and biochemical products. In nature or industrial processes, microalgae live together with bacterial communities and may maintain symbiotic relationships. In general interactions, microalgae exude dissolved organic carbon that becomes available to bacteria. In return, the bacteria remineralize sulphur, nitrogen and phosphorous to support the further growth of microalgae. In specific interactions, heterotrophic bacteria supply B vitamins as organic cofactors or produce siderophores to bind iron, which could be utilized by microalgae, while the algae supply fixed carbon to the bacteria in return. In this review, we focus on mutualistic relationship between microalgae and bacteria, summarizing recent studies on the mechanisms involved in microalgae-bacteria symbiosis. Symbiotic bacteria on promoting microalgal growth are described and the relevance of microalgae-bacteria interactions for biofuel production processes is discussed. Symbiotic microalgae-bacteria consortia could be utilized to improve microalgal biomass production and to enrich the biomass with valuable chemical and energy compounds. The suitable control of such biological interactions between microalgae and bacteria will help to improve the microalgae-based biomass and biofuel production in the future.",
keywords = "bacteria, biofuel, growth, microalgae, symbiosis, MARINE-BACTERIA, IRON ACQUISITION, ALGAE, PHYTOPLANKTON, EVOLUTION, MICROORGANISMS",
author = "S. Yao and S. Lyu and Y. An and J. Lu and C. Gjermansen and A. Schramm",
year = "2019",
month = "2",
doi = "10.1111/jam.14095",
language = "English",
volume = "126",
pages = "359--368",
journal = "Journal of Applied Microbiology",
issn = "1364-5072",
publisher = "Wiley-Blackwell Publishing Ltd",
number = "2",

}

RIS

TY - JOUR

T1 - Microalgae-bacteria symbiosis in microalgal growth and biofuel production

T2 - a review

AU - Yao, S.

AU - Lyu, S.

AU - An, Y.

AU - Lu, J.

AU - Gjermansen, C.

AU - Schramm, A.

PY - 2019/2

Y1 - 2019/2

N2 - Photosynthetic microalgae can capture solar energy and convert it to bioenergy and biochemical products. In nature or industrial processes, microalgae live together with bacterial communities and may maintain symbiotic relationships. In general interactions, microalgae exude dissolved organic carbon that becomes available to bacteria. In return, the bacteria remineralize sulphur, nitrogen and phosphorous to support the further growth of microalgae. In specific interactions, heterotrophic bacteria supply B vitamins as organic cofactors or produce siderophores to bind iron, which could be utilized by microalgae, while the algae supply fixed carbon to the bacteria in return. In this review, we focus on mutualistic relationship between microalgae and bacteria, summarizing recent studies on the mechanisms involved in microalgae-bacteria symbiosis. Symbiotic bacteria on promoting microalgal growth are described and the relevance of microalgae-bacteria interactions for biofuel production processes is discussed. Symbiotic microalgae-bacteria consortia could be utilized to improve microalgal biomass production and to enrich the biomass with valuable chemical and energy compounds. The suitable control of such biological interactions between microalgae and bacteria will help to improve the microalgae-based biomass and biofuel production in the future.

AB - Photosynthetic microalgae can capture solar energy and convert it to bioenergy and biochemical products. In nature or industrial processes, microalgae live together with bacterial communities and may maintain symbiotic relationships. In general interactions, microalgae exude dissolved organic carbon that becomes available to bacteria. In return, the bacteria remineralize sulphur, nitrogen and phosphorous to support the further growth of microalgae. In specific interactions, heterotrophic bacteria supply B vitamins as organic cofactors or produce siderophores to bind iron, which could be utilized by microalgae, while the algae supply fixed carbon to the bacteria in return. In this review, we focus on mutualistic relationship between microalgae and bacteria, summarizing recent studies on the mechanisms involved in microalgae-bacteria symbiosis. Symbiotic bacteria on promoting microalgal growth are described and the relevance of microalgae-bacteria interactions for biofuel production processes is discussed. Symbiotic microalgae-bacteria consortia could be utilized to improve microalgal biomass production and to enrich the biomass with valuable chemical and energy compounds. The suitable control of such biological interactions between microalgae and bacteria will help to improve the microalgae-based biomass and biofuel production in the future.

KW - bacteria

KW - biofuel

KW - growth

KW - microalgae

KW - symbiosis

KW - MARINE-BACTERIA

KW - IRON ACQUISITION

KW - ALGAE

KW - PHYTOPLANKTON

KW - EVOLUTION

KW - MICROORGANISMS

U2 - 10.1111/jam.14095

DO - 10.1111/jam.14095

M3 - Review

VL - 126

SP - 359

EP - 368

JO - Journal of Applied Microbiology

JF - Journal of Applied Microbiology

SN - 1364-5072

IS - 2

ER -