Possibilities for near-term bioenergy production and GHG-mitigation through sustainable intensification of agriculture and forestry in Denmark

Søren Larsen; Niclas Scott Bentsen; Tommy Dalgaard; Uffe Jørgensen; Jørgen E. Olesen; Claus Felby

doi:10.1088/1748-9326/aa9001

Possibilities for near-term bioenergy production and GHG-mitigation through sustainable intensification of agriculture and forestry in Denmark

Søren Larsen, Niclas Scott Bentsen, Tommy Dalgaard, Uffe Jørgensen, Jørgen E. Olesen, Claus Felby

Forest, Nature and Biomass

11 Citations (Scopus)

163 Downloads (Pure)

Abstract

To mitigate climate change it is necessary to further increase the deployment of renewable energy, including bioenergy. This analysis shows how this can be achieved in Danish agriculture and forestry before 2020. The key is a sustainable intensification and we show through three scenarios how it is possible to increase production while at the same time decreasing environmental impact and with only minor consequences on food and feed production. An additional ~10 Tg biomass can be available in 2020 for the Danish energy sector. By converting the biomass in a biorefinery concept it is possible to supply relevant, domestically produced energy carriers that amounts to ~ 5-13 % of 2020 Danish energy consumption. This has the potential to reduce the GHG emissions with 13-21 % of 2020 emissions. These results are possible because Danish net primary production and the human appropriation hereof can be increased. We show that biomass for bioenergy has a large near-term potential to supply relevant energy carriers to the society while at the same time achieving significant GHG emission mitigation.

Original language	English
Article number	114032
Journal	Environmental Research Letters
Volume	12
Issue number	114032
Number of pages	7
ISSN	1748-9326
DOIs	https://doi.org/10.1088/1748-9326/aa9001
Publication status	Published - 13 Nov 2017

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Possibilities for near-term bioenergy production and GHG-mitigation through sustainable intensification of agriculture and forestry in Denmark. / Larsen, Søren; Bentsen, Niclas Scott; Dalgaard, Tommy et al.

In: Environmental Research Letters, Vol. 12, No. 114032, 114032, 13.11.2017.

Research output: Contribution to journal › Journal article › Research › peer-review

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AU - Olesen, Jørgen E.

AU - Felby, Claus

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AB - To mitigate climate change it is necessary to further increase the deployment of renewable energy, including bioenergy. This analysis shows how this can be achieved in Danish agriculture and forestry before 2020. The key is a sustainable intensification and we show through three scenarios how it is possible to increase production while at the same time decreasing environmental impact and with only minor consequences on food and feed production. An additional ~10 Tg biomass can be available in 2020 for the Danish energy sector. By converting the biomass in a biorefinery concept it is possible to supply relevant, domestically produced energy carriers that amounts to ~ 5-13 % of 2020 Danish energy consumption. This has the potential to reduce the GHG emissions with 13-21 % of 2020 emissions. These results are possible because Danish net primary production and the human appropriation hereof can be increased. We show that biomass for bioenergy has a large near-term potential to supply relevant energy carriers to the society while at the same time achieving significant GHG emission mitigation.

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Possibilities for near-term bioenergy production and GHG-mitigation through sustainable intensification of agriculture and forestry in Denmark

Abstract

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