Fredrik Hedenus scite author profile

For agriculture, there are three major options for mitigating greenhouse gas (GHG) emissions: 1) productivity improvements, particularly in the livestock sector; 2) dedicated technical mitigation measures; and 3) human dietary changes. The aim of the paper is to estimate long-term agricultural GHG emissions, under different mitigation scenarios, and to relate them to the emissions space compatible with the 2°C temperature target. Our estimates include emissions up to 2070 from agricultural soils, manure management, enteric fermentation and paddy rice fields, and are based on IPCC Tier 2 methodology. We find that baseline agricultural CO 2 -equivalent emissions (using Global Warming Potentials with a 100 year time horizon) will be approximately 13 Gton CO 2 eq/year in 2070, compared to 7.1 Gton CO 2 eq/year 2000. However, if faster growth in livestock productivity is combined with dedicated technical mitigation measures, emissions may be kept to 7.7 Gton CO 2 eq/year in 2070. If structural changes in human diets are included, emissions may be reduced further, to 3-5 Gton CO 2 eq/year in 2070. The total annual emissions for meeting the 2°C target with a chance above 50 % is in the order of 13 Gton CO 2 eq/year or less in 2070, for all sectors combined. We conclude that reduced ruminant meat and dairy consumption will be indispensable for reaching the 2°C target with a high probability, unless unprecedented advances in technology take place.

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Greenhouse gas taxes on animal food products: rationale, tax scheme and climate mitigation effects

Wirsenius

2010

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Agriculture is responsible for 25-30% of global anthropogenic greenhouse gas (GHG) emissions but has thus far been largely exempted from climate policies. Because of high monitoring costs and comparatively low technical potential for emission reductions in the agricultural sector, output taxes on emission-intensive agricultural goods may be an efficient policy instrument to deal with agricultural GHG emissions. In this study we assess the emission mitigation potential of GHG weighted consumption taxes on animal food products in the EU. We also estimate the decrease in agricultural land area through the related changes in food production and the additional mitigation potential in devoting this land to bioenergy production. Estimates are based on a model of food consumption and the related land use and GHG emissions in the EU. Results indicate that agricultural emissions in the EU27 can be reduced by approximately 32 million tons of CO 2 -eq with a GHG weighted tax on animal food products corresponding to C60 per ton CO 2 -eq. The effect of the tax is estimated to be six times higher if lignocellulosic crops are grown on the land made available and used to substitute for coal in power generation. Most of the effect of a GHG weighted tax on animal food can be captured by taxing the consumption of ruminant meat alone.

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How can the EU climate targets be met? A combined analysis of technological and demand-side changes in food and agriculture

et al. 2016

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Carbon Label at a University Restaurant – Label Implementation and Evaluation

Brunner

Kurz

Bryngelsson

et al. 2018

Ecological Economics

109

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The marginal system LCOE of variable renewables – Evaluating high penetration levels of wind and solar in Europe

Reichenberg

Hedenus

Odenberger

et al. 2018

Energy

107

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Concrete vs. wood in buildings – An energy system approach

Nässén

Hedenus

Karlsson

et al. 2012

Building and Environment

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An autopilot for energy models – Automatic generation of renewable supply curves, hourly capacity factors and hourly synthetic electricity demand for arbitrary world regions

Mattsson

Verendel

Hedenus

et al. 2021

Energy Strategy Reviews

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Trends in greenhouse gas emissions from consumption and production of animal food products – implications for long-term climate targets

Cederberg

Hedenus

Wirsenius

et al. 2013

Animal

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To analyse trends in greenhouse gas (GHG) emissions from production and consumption of animal products in Sweden, life cycle emissions were calculated for the average production of pork, chicken meat, beef, dairy and eggs in 1990 and 2005. The calculated average emissions were used together with food consumption statistics and literature data on imported products to estimate trends in per capita emissions from animal food consumption. Total life cycle emissions from the Swedish livestock production were around 8.5 Mt carbon dioxide equivalents (CO 2 e) in 1990 and emissions decreased to 7.3 Mt CO 2 e in 2005 (14% reduction). Around two-thirds of the emission cut was explained by more efficient production (less GHG emission per product unit) and one-third was due to a reduced animal production. The average GHG emissions per product unit until the farm-gate were reduced by 20% for dairy, 15% for pork and 23% for chicken meat, unchanged for eggs and increased by 10% for beef. A larger share of the average beef was produced from suckler cows in cow-calf systems in 2005 due to the decreasing dairy cow herd, which explains the increased emissions for the average beef in 2005. The overall emission cuts from the livestock sector were a result of several measures taken in farm production, for example increased milk yield per cow, lowered use of synthetic nitrogen fertilisers in grasslands, reduced losses of ammonia from manure and a switch to biofuels for heating in chicken houses. In contrast to production, total GHG emissions from the Swedish consumption of animal products increased by around 22% between 1990 and 2005. This was explained by strong growth in meat consumption based mainly on imports, where growth in beef consumption especially was responsible for most emission increase over the 15-year period. Swedish GHG emissions caused by consumption of animal products reached around 1.1 t CO 2 e per capita in 2005. The emission cuts necessary for meeting a global temperature-increase target of 28 might imply a severe constraint on the long-term global consumption of animal food. Due to the relatively limited potential for reducing food-related emissions by higher productivity and technological means, structural changes in food consumption towards less emission-intensive food might be required for meeting the 28 target.

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Fredrik Hedenus

The importance of reduced meat and dairy consumption for meeting stringent climate change targets

Greenhouse gas taxes on animal food products: rationale, tax scheme and climate mitigation effects

How can the EU climate targets be met? A combined analysis of technological and demand-side changes in food and agriculture

Carbon Label at a University Restaurant – Label Implementation and Evaluation

The marginal system LCOE of variable renewables – Evaluating high penetration levels of wind and solar in Europe

Concrete vs. wood in buildings – An energy system approach

An autopilot for energy models – Automatic generation of renewable supply curves, hourly capacity factors and hourly synthetic electricity demand for arbitrary world regions

Trends in greenhouse gas emissions from consumption and production of animal food products – implications for long-term climate targets

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