Meat alternatives: life cycle assessment of most known meat substitutes
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Alig M, Grandl F, Mieleitner J et al. (2012) Life cycle assessment of beef, pork and poultry
Bellarby J, Foereid B, Hastings A, Smith P (2008) Cool farming: climate impacts of agriculture and mitigation potential. Amsterdam
Berardy A (2012) A consequential comparative life cycle assessment of seitan and beef. SSEBE-CESEM-2012-CPR-002 Course Project Report Series
Berk Z (1992) Technology of production of edible flours and protein products from soybeans, FAO AGRICU. FAO, United Nations, Rome
Berlin J (2002) Environmental life cycle assessment (LCA) of Swedish semi-hard cheese. Int Dairy J 12:939–953
Blonk H, Kool A, Luske B, et al. (2008) Milieueffecten van Nederlandse consumptie van eiwitrijke producten. Gevolgen van vervanging van dierlijke eiwitten anno 2008
BSI (2008) PAS2050: specification for the assessment of the life cycle greenhouse gas emissions of goods and services
Cederberg C, Sonesson U, Henriksson M et al. (2009) Greenhouse gas emissions from Swedish production of meat, milk and eggs 1990 and 2005. SIK-Institutet för livsmedel och bioteknik
Dalgaard R, Schmidt J, Halberg N et al (2008) LCA of soybean meal. Int J Life Cycle Assess 10:240–254
Deng Y, Achten WMJ, Van Acker K, Duflou JR (2013) Life cycle assessment of wheat gluten powder and derived packaging film. Biofuels Bioprod Bioref 7:429–458
Ellingsen H, Aanondsen SA (2006) Environmental impacts of wild caught cod and farmed salmon—a comparison with chicken (7 pp). Int J Life Cycle Assess 11:60–65
European Commission (2014) Technology readiness levels (TRL). Horizon 2020—Work Programme 2014–2015. General Annexes, Extract from Part 19—Commission Decision C(2014)4995
FAO (2009) How to feed the world in 2050
FAO (2014) Food Price Index 2000–2014. In: FAOSTAT. http://faostat3.fao.org/faostat-gateway/go/to/home/E
Finnigan T, Lemon M, Allan B, Paton I (2010) Mycoprotein, life cycle analysis and the food 2030 challenge. Asp Appl Biol 102:81–90
Flynn HC, Canals LMi, Keller E et al (2012) Quantifying global greenhouse gas emissions from land-use change for crop production. Glob Chang Biol 18:1622–1635
Foster C, Green K, Bleda M et al. (2006) Environmental impacts of food production and consumption: a report to the department for environment, food and rural affairs. London
Garnett T (2014) Three perspectives on sustainable food security: efficiency, demand restraint, food system transformation. What role for LCA? J Clean Prod 73:10–18
Goedkoop M, Spriensma R (2001) The Eco-indicator 99. A damage oriented method for Life Cycle Impact Assessment. Methodology Report. Amersfoort
Goedkoop M, Heijungs R, Huijbregts M et al. (2013) A life cycle impact assessment method which comprises harmonised category indicators at the midpoint and the endpoint level. ReCiPe 2008. First edition (version 1.08). Report I: characterisation
Goedkoop M, Heijungs R, De Schryver A et al. (2013) ReCiPe 2008. A LCIA method which comprises harmonised category indicators at the midpoint and the endpoint level. Characterisation. A life cycle impact. http://www.lcia-recipe.net
Guinée JB, Gorree M, Heijungs R et al (2002) Handbook on life cycle assessment: operational guide to the ISO standards. Series: eco-efficiency in industry and science. Kluwer Academic Publishers, Dordrecht
Guinée JB, Heijungs R, Huppes G et al (2011) Life cycle assessment: past, present, and future. Environ Sci Technol 45:90–96
Håkansson S, Gavrilita P, Bengoa X (2005) Comparative life cycle assessment pork vs tofu. Stockholm
Head M, Sevenster M, Croezen H (2011) Life cycle impacts of protein-rich foods for superwijzer. Delft
Hoekstra AY, Mekonnen MM (2012) The water footprint of humanity. Proc Natl Acad Sci USA 109:3232–3237
Hoffman J, Falvo M (2004) Protein—which is best? J Sports Sci Med 3:118–130
IPCC (2007) Climate change 2007: an assessment of the intergovernmental panel on climate change. Synth Report. doi: 10.1256/004316502320517344
ISO 14040 (2006) Environmental management—life cycle assessment—principles and framework
ISO 14044 (2006) Environmental management—life cycle assessment—requirements and guidelines
Jiménez-Colmenero F, Carballo J, Cofrades S (2001) Healthier meat and meat products: their role as functional foods. Meat Sci 59:5–13
Katajajuuri J-M, Grönroos J, Usva K (2008) Environmental impacts and related options for improving the chicken meat supply chain. 6th Int. Conf. LCA Agri-Food Sect. Zurich
Longvah T, Mangthya K, Ramulu P (2011) Nutrient composition and protein quality evaluation of eri silkworm (Samia ricinii) prepupae and pupae. Food Chem 128:400–403
McEachern MG, Warnaby G (2006) Food shopping behaviour in Scotland: the influence of relative rurality. Int J Consum Stud 30:189–201
Milà i Canals L, Rigarlsford G, Sim S (2012) Land use impact assessment of margarine. Int J Life Cycle Assess 18:1265–1277
Milà i Canals L, Rigarlsford G, Sim S (2013) Land use impact assessment of margarine. Int J Life Cycle Assess 18:1265–1277
Muñoz I, Flury K, Jungbluth N et al (2013) Life cycle assessment of bio-based ethanol produced from different agricultural feedstocks. Int J Life Cycle Assess 19:109–119
Nemecek T, Frick C, Dubois D, Gaillard G (2001) Comparing farming systems at crop rotation level by LCA. Proc. Int. Conf. LCA Foods. SIK, VITO, Gothenburg, pp 65–69
Nielsen PH, Nielsen AM, Weidema BP, et al. (2003) LCA food data base. http://www.lcafood.dk/
Nonhebel S, Raats J (2007) Environmental impact of meat substitutes: comparison between Quorn and pork. Proc. 5th Int. Conf. LCA foods. Gothenburg, Sweden, pp 73–75
Oonincx DG, de Boer IJ (2012) Environmental impact of the production of mealworms as a protein source for humans—a life cycle assessment. PLoS ONE 7
Pelletier N (2008) Environmental performance in the US broiler poultry sector: life cycle energy use and greenhouse gas, ozone depleting, acidifying and eutrophying emissions. Agric Syst 98:67–73
Pelletier N, Arsenault N, Tyedmers P (2008) Scenario modeling potential eco-efficiency gains from a transition to organic agriculture: life cycle perspectives on Canadian canola, corn, soy, and wheat production. Environ Manag 42:989–1001
Pennington DW, Margni M, Ammann C, Jolliet O (2005) Multimedia fate and human intake modeling: spatial versus nonspatial insights for chemical emissions in western Europe. Environ Sci Technol 39:1119–1128
Pfister S, Bayer P (2014) Monthly water stress: spatially and temporally explicit consumptive water footprint of global crop production. J Clean Prod 73:52–62
Pfister S, Bayer P, Koehler A, Hellweg S (2011) Environmental impacts of water use in global crop production: hotspots and trade-offs with land use. Environ Sci Technol 45:5761–5768
PYR Ltd (2014) Packaging weight units. http://www.pyr.fi/eng/forms/packaging-data-declaration-form/packaging-weight-units.html#6
Raats J (2007) Meat (substitutes) comparing environmental impacts. A case study comparing Quorn and pork. Training thesis at Centre for Energy and Environmental Studies, University of Groningen. Retrieved from http://www.temoa.info/node/209029 . University of Groningen
Roy P, Nei D, Orikasa T et al (2009) A review of life cycle assessment (LCA) on some food products. J Food Eng 90:1–10
Schau EM, Fet AM (2008) LCA studies of food products as background for environmental product declarations. Int J Life Cycle Assess 13:255–264
Shiklomanov IA (2003) World water resources at the beginning of the 21st century. Cambridge University Press, Cambridge
Steinfeld H, Gerber P, Wassenaar T et al (2006) Livestock’s long shadow. Environmental issues and options. Food and Agriculture Organization of the United Nations (FAO), Rome
Tijhuis MJ, Ezendam J, Westenbrink S et al. (2011) Replacement of meat and dairy by more sustainable protein sources in the Netherlands. Quality of the diet. RIVM Letter Report 350123001/2011
Tuomisto H, De Mattos M (2010) Life cycle assessment of cultured meat production. 7th Int. Conf. Life Cycle Assess. Agri-Food Sect. 22nd–24th Sept. 2010, Bari, Italy
Tuomisto HL, de Mattos MJT (2011) Environmental impacts of cultured meat production. Environ Sci Technol 45:6117–6123
Tuomisto HL, Roy AG (2012) Could cultured meat reduce environmental impact of agriculture in Europe? 8th Int. Conf. LCA Agri-Food Sect. Rennes, Fr. 2–4 Oct. 2012
USDA (2014) USDA National Nutrient Database for Standard Reference, Release 27. In: U.S. Dep. Agric. Agric. Res. Serv. Nutr. Data Lab. http://www.ars.usda.gov/ba/bhnrc/ndl
Van Huis A, Van Itterbeeck J, Klunder H et al. (2013) Edible insects: future prospects for food and feed security, FAO Forest. FAO, United Nations, Rome
Van Zeist WJ, Marinussen M, Broekema R et al. (2012) LCI data for the calculation tool Feedprint for greenhouse gas emissions of feed production and utilization. Wet Milling Industry
Vermeulen SJ, Campbell BM, Ingram JSI (2012) Climate change and food systems. Annu Rev Environ Resour 37:195–222
Weidema BP, Bauer C, Hischier R et al. (2013) Overview and methodology. Data quality guideline for the Ecoinvent database version 3. Ecoinvent Report 1(v3). St. Gallen
Wiedemann S, McGahan E, Poad G (2012) Using life cycle assessment to quantify the environmental impact of chicken meat production
Williams A, Audsley E, Sandars D (2006) Determining the environmental burdens and resource use in the production of agricultural and horticultural commodities: Defra project report IS0205
Williams AG, Audsley E, Sandars DL (2006b) Energy and environmental burdens of organic and non-organic agriculture and horticulture. Asp Appl Biol 79:19–23