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Peatland rewetting: Exploring soil-specific climate mitigation potentials in Exploring soil-specific climate mitigation potentials in paludiculture for green protein biorefinerpaludiculture for green protein biorefinery

Publikation: Bog/antologi/afhandling/rapportPh.d.-afhandling

Standard

Peatland rewetting: Exploring soil-specific climate mitigation potentials in Exploring soil-specific climate mitigation potentials in paludiculture for green protein biorefinerpaludiculture for green protein biorefinery. / Nielsen, Claudia.
Aarhus Universitet, 2023. 200 s.

Publikation: Bog/antologi/afhandling/rapportPh.d.-afhandling

Harvard

Nielsen, C 2023, Peatland rewetting: Exploring soil-specific climate mitigation potentials in Exploring soil-specific climate mitigation potentials in paludiculture for green protein biorefinerpaludiculture for green protein biorefinery. Aarhus Universitet.

APA

Nielsen, C. (2023). Peatland rewetting: Exploring soil-specific climate mitigation potentials in Exploring soil-specific climate mitigation potentials in paludiculture for green protein biorefinerpaludiculture for green protein biorefinery. Aarhus Universitet.

CBE

Nielsen C 2023. Peatland rewetting: Exploring soil-specific climate mitigation potentials in Exploring soil-specific climate mitigation potentials in paludiculture for green protein biorefinerpaludiculture for green protein biorefinery. Aarhus Universitet. 200 s.

MLA

Nielsen, Claudia Peatland rewetting: Exploring soil-specific climate mitigation potentials in Exploring soil-specific climate mitigation potentials in paludiculture for green protein biorefinerpaludiculture for green protein biorefinery Aarhus Universitet. 2023.

Vancouver

Nielsen C. Peatland rewetting: Exploring soil-specific climate mitigation potentials in Exploring soil-specific climate mitigation potentials in paludiculture for green protein biorefinerpaludiculture for green protein biorefinery. Aarhus Universitet, 2023. 200 s.

Author

Nielsen, Claudia. / Peatland rewetting : Exploring soil-specific climate mitigation potentials in Exploring soil-specific climate mitigation potentials in paludiculture for green protein biorefinerpaludiculture for green protein biorefinery. Aarhus Universitet, 2023. 200 s.

Bibtex

@phdthesis{53ae2f6eadf040ad8510de9ea53f7cc2,
title = "Peatland rewetting: Exploring soil-specific climate mitigation potentials in Exploring soil-specific climate mitigation potentials in paludiculture for green protein biorefinerpaludiculture for green protein biorefinery",
abstract = "Rewetting of drained peatlands is a nature-based solution to atmospheric decarbonisation, simultaneously restoring habitats and offering sustainable land use options, e.g., 'paludiculture'. However, how affect soil-specific biogeochemical properties and sustainable peatland management emission dynamics? This study assessed different peatlands and found that I) rewetting of fens resulted in higher emission reductions compared to bogs, II) paludiculture management intensities did not affect emissions, and III) high biomass and crude protein yields were achievable for paludiculture grasses, having a potential in green protein biorefineries.",
author = "Claudia Nielsen",
year = "2023",
month = aug,
language = "English",
publisher = "Aarhus Universitet",

}

RIS

TY - BOOK

T1 - Peatland rewetting

T2 - Exploring soil-specific climate mitigation potentials in Exploring soil-specific climate mitigation potentials in paludiculture for green protein biorefinerpaludiculture for green protein biorefinery

AU - Nielsen, Claudia

PY - 2023/8

Y1 - 2023/8

N2 - Rewetting of drained peatlands is a nature-based solution to atmospheric decarbonisation, simultaneously restoring habitats and offering sustainable land use options, e.g., 'paludiculture'. However, how affect soil-specific biogeochemical properties and sustainable peatland management emission dynamics? This study assessed different peatlands and found that I) rewetting of fens resulted in higher emission reductions compared to bogs, II) paludiculture management intensities did not affect emissions, and III) high biomass and crude protein yields were achievable for paludiculture grasses, having a potential in green protein biorefineries.

AB - Rewetting of drained peatlands is a nature-based solution to atmospheric decarbonisation, simultaneously restoring habitats and offering sustainable land use options, e.g., 'paludiculture'. However, how affect soil-specific biogeochemical properties and sustainable peatland management emission dynamics? This study assessed different peatlands and found that I) rewetting of fens resulted in higher emission reductions compared to bogs, II) paludiculture management intensities did not affect emissions, and III) high biomass and crude protein yields were achievable for paludiculture grasses, having a potential in green protein biorefineries.

M3 - Ph.D. thesis

BT - Peatland rewetting

PB - Aarhus Universitet

ER -