Difference between revisions of "Greenhouse-Gas Emissions from the Production and Processing of Food"
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<font face="arial">The method of material flow analysis is applied i.e. starting with food consumption and tracking all associated uses of energy, materials and transport through the different stages.</font><br/> | <font face="arial">The method of material flow analysis is applied i.e. starting with food consumption and tracking all associated uses of energy, materials and transport through the different stages.</font><br/> | ||
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− | = <font face="arial">Results</font | + | = <font face="arial">Results</font><br/> = |
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− | The results are that "the demand category of food leads annually to around 4.4 tonnes of GHG emissions per average household". This coressponds to 16% of GHG emissions arising from total private consumption. "The production of food (including freight transport) constitues a share of 45% of this total; the rest is due to energy consumption for the storage and preparation of food as well as partial space heating (kitchen) and shopping trips".< | + | The results are that "the demand category of food leads annually to around 4.4 tonnes of GHG emissions per average household". This coressponds to 16% of GHG emissions arising from total private consumption. "The production of food (including freight transport) constitues a share of 45% of this total; the rest is due to energy consumption for the storage and preparation of food as well as partial space heating (kitchen) and shopping trips".<ref name="IINAS: http://www.iinas.org/tl_files/iinas/downloads/food/2009_GHG_food.pdf, p. 4">IINAS: http://www.iinas.org/tl_files/iinas/downloads/food/2009_GHG_food.pdf, p. 4fckLR</ref> |
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= Further Information<br/> = | = Further Information<br/> = | ||
− | *[[Portal: | + | *[[Portal:Powering Agriculture|Powering Agriculture Portal on energypedia]]<br/> |
*<font face="arial">Ulrike Eberle ,Uwe R. Fritsche, IINAS, 2009. </font>[http://www.iinas.org/tl_files/iinas/downloads/food/2009_GHG_food.pdf Greenhouse-Gas Emissions from the Production and Processing of Food.]<br/> | *<font face="arial">Ulrike Eberle ,Uwe R. Fritsche, IINAS, 2009. </font>[http://www.iinas.org/tl_files/iinas/downloads/food/2009_GHG_food.pdf Greenhouse-Gas Emissions from the Production and Processing of Food.]<br/> | ||
*<font face="arial">Fritsche U et al. 2011: BAU and SC Scenario Assumptions and the MFA Database; </font>[http://www.eupopp.net/docs/wp4.2_bau_sc_scenar.pdf EUPOPP Work Package 4 Deliverable 4.2; Darmstadt etc.]<br/> | *<font face="arial">Fritsche U et al. 2011: BAU and SC Scenario Assumptions and the MFA Database; </font>[http://www.eupopp.net/docs/wp4.2_bau_sc_scenar.pdf EUPOPP Work Package 4 Deliverable 4.2; Darmstadt etc.]<br/> | ||
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+ | [[Category:Agriculture]] | ||
+ | [[Category:Powering_Agriculture]] | ||
+ | [[Category:Impacts_Environmental]] | ||
[[Category:Food_and_Agriculture]] | [[Category:Food_and_Agriculture]] | ||
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Revision as of 13:13, 10 October 2014
Overview
Discussions on climate change have dran attention to the issue of climate footprint of foot. Follwoing, an article is recommended which provides aso-called material flow analysis, determining the climate footprints for the cultivation, processing and transport of selected food.
Material Flow Analysis
Ulrike Eberle and Uwe R. Fritsche, International Institute for Sustainability Analysis and Strategy (IINAS), published a working paper on "Greenhouse-Gas Emissions from the Production and Processing of Food". The article provides aquantitative analysis of the greenhouse gas emissions of selected food, and compares the supply of these products from conventional and organic farming.
The method of material flow analysis is applied i.e. starting with food consumption and tracking all associated uses of energy, materials and transport through the different stages.
Results
The results are that "the demand category of food leads annually to around 4.4 tonnes of GHG emissions per average household". This coressponds to 16% of GHG emissions arising from total private consumption. "The production of food (including freight transport) constitues a share of 45% of this total; the rest is due to energy consumption for the storage and preparation of food as well as partial space heating (kitchen) and shopping trips".[1]
Further Information
- Powering Agriculture Portal on energypedia
- Ulrike Eberle ,Uwe R. Fritsche, IINAS, 2009. Greenhouse-Gas Emissions from the Production and Processing of Food.
- Fritsche U et al. 2011: BAU and SC Scenario Assumptions and the MFA Database; EUPOPP Work Package 4 Deliverable 4.2; Darmstadt etc.
- OEKO (Öko-Institut) 2009: Global Emissions Model for Integrated Systems (GEMIS), Darmstadt, www.gemis.de
- WWF UK: How low can we go? An assessment of greenhouse gas emissions from the UK food system and the scope to reduce them by 2050
References
- ↑ IINAS: http://www.iinas.org/tl_files/iinas/downloads/food/2009_GHG_food.pdf, p. 4fckLR