EU land use futures: modelling food, bioenergy and carbon dynamics

EU land use futures: modelling food, bioenergy and carbon dynamics

This paper presents an original system dynamics model, which aims to assess how changes in diet, agricultural practices, bioenergy and forestry could help reduce greenhouse gas emissions. We demonstrate that changes in types and quantities of food consumed and reductions in food wastes along with su...

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Main Authors: Alexandre Strapasson, Jeremy Woods, Jerome Meessen, Onesmus Mwabonje, Gino Baudry, Kofi Mbuk
Format: Article
Language:English
Published: Elsevier 2020-09-01
Series:Energy Strategy Reviews
Subjects:
Climate change mitigation
System dynamics
Land use
Bioenergy
EULUF model
Online Access:http://www.sciencedirect.com/science/article/pii/S2211467X20300985
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spelling doaj-6498c37c1cd642099c4ccd7fefc916382020-11-25T03:37:42ZengElsevierEnergy Strategy Reviews2211-467X2020-09-0131100545EU land use futures: modelling food, bioenergy and carbon dynamicsAlexandre Strapasson0Jeremy Woods1Jerome Meessen2Onesmus Mwabonje3Gino Baudry4Kofi Mbuk5Centre for Environmental Policy, Imperial College London, United Kingdom; Belfer Center for Science and International Affairs, Harvard University, Cambridge, MA, United States; Corresponding author. Centre for Environmental Policy, Imperial College London, United Kingdom.Centre for Environmental Policy, Imperial College London, United KingdomCLIMACT, Louvain-la-Neuve, BelgiumCentre for Environmental Policy, Imperial College London, United KingdomCentre for Environmental Policy, Imperial College London, United KingdomCentre for Environmental Policy, Imperial College London, United KingdomThis paper presents an original system dynamics model, which aims to assess how changes in diet, agricultural practices, bioenergy and forestry could help reduce greenhouse gas emissions. We demonstrate that changes in types and quantities of food consumed and reductions in food wastes along with sustainable bioenergy and forestry dynamics would materially assist the EU in meeting its 2050 climate mitigation obligations. We find that overall rates of EU-28 greenhouse gas emissions are highly sensitive to the food trade balance, both within and outside the EU. Land use itself is often under-represented as a major option for carbon mitigation in policy strategies, but our results show that it must become a central component aligned with energy system decarbonization if material levels of warming mitigation are to be achieved.http://www.sciencedirect.com/science/article/pii/S2211467X20300985Climate change mitigationSystem dynamicsLand useBioenergyEULUF model
collection DOAJ
language English
format Article
sources DOAJ
author Alexandre Strapasson
Jeremy Woods
Jerome Meessen
Onesmus Mwabonje
Gino Baudry
Kofi Mbuk
spellingShingle Alexandre Strapasson
Jeremy Woods
Jerome Meessen
Onesmus Mwabonje
Gino Baudry
Kofi Mbuk
EU land use futures: modelling food, bioenergy and carbon dynamics
Energy Strategy Reviews
Climate change mitigation
System dynamics
Land use
Bioenergy
EULUF model
author_facet Alexandre Strapasson
Jeremy Woods
Jerome Meessen
Onesmus Mwabonje
Gino Baudry
Kofi Mbuk
author_sort Alexandre Strapasson
title EU land use futures: modelling food, bioenergy and carbon dynamics
title_short EU land use futures: modelling food, bioenergy and carbon dynamics
title_full EU land use futures: modelling food, bioenergy and carbon dynamics
title_fullStr EU land use futures: modelling food, bioenergy and carbon dynamics
title_full_unstemmed EU land use futures: modelling food, bioenergy and carbon dynamics
title_sort eu land use futures: modelling food, bioenergy and carbon dynamics
publisher Elsevier
series Energy Strategy Reviews
issn 2211-467X
publishDate 2020-09-01
description This paper presents an original system dynamics model, which aims to assess how changes in diet, agricultural practices, bioenergy and forestry could help reduce greenhouse gas emissions. We demonstrate that changes in types and quantities of food consumed and reductions in food wastes along with sustainable bioenergy and forestry dynamics would materially assist the EU in meeting its 2050 climate mitigation obligations. We find that overall rates of EU-28 greenhouse gas emissions are highly sensitive to the food trade balance, both within and outside the EU. Land use itself is often under-represented as a major option for carbon mitigation in policy strategies, but our results show that it must become a central component aligned with energy system decarbonization if material levels of warming mitigation are to be achieved.
topic Climate change mitigation
System dynamics
Land use
Bioenergy
EULUF model
url http://www.sciencedirect.com/science/article/pii/S2211467X20300985
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