International food-miles account for practically 20% of whole food-systems emissions

International food-miles account for practically 20% of whole food-systems emissions

  • The State of Agricultural Commodity Markets 2020. Agricultural Markets and Sustainable Growth: International Worth Chains, Smallholder Farmers and Digital Improvements (FAO, 2020).

  • Martin, W. & Laborde Debucquet, D. in 2018 International Meals Coverage Report, Ch. 3 (IFPRI, 2018); https://doi.org/10.2499/9780896292970_03

  • Porkka, M., Kummu, M., Siebert, S. & Varis, O. From meals insufficiency in the direction of commerce dependency: a historic evaluation of world meals availability. PLoS ONE 8, e82714 (2013).

    ADS 
    PubMed 
    PubMed Central 
    Article 
    CAS 

    Google Scholar 

  • Porkka, M., Guillaume, J. H., Siebert, S., Schaphoff, S. & Kummu, M. Using meals imports to beat native limits to progress. Earth’s Future 5, 393–407 (2017).

    ADS 
    Article 

    Google Scholar 

  • MacDonald, G. Ok. et al. Rethinking agricultural commerce relationships in an period of globalization. BioScience 65, 275–289 (2015).

    Article 

    Google Scholar 

  • D’Odorico, P., Carr, J. A., Laio, F., Ridolfi, L. & Vandoni, S. Feeding humanity by international meals commerce. Earth’s Future 2, 458–469 (2014).

    ADS 
    Article 

    Google Scholar 

  • Kissinger, M. Worldwide commerce associated meals miles—the case of Canada. Meals Coverage 37, 171–178 (2012).

    Article 

    Google Scholar 

  • Meals Miles (DEFRA, 2011); http://adlib.everysite.co.uk/adlib/defra/content material.aspx?id=000HK277ZX.0C90163GX9GA35

  • Andersson, Ok., Ohlsson, T. & Olsson, P. Screening life cycle evaluation (LCA) of tomato ketchup: a case examine. J. Clear. Prod. 6, 277–288 (1998).

    Article 

    Google Scholar 

  • Marletto, G. & Sillig, C. Environmental impression of Italian canned tomato logistics: nationwide vs. regional provide chains. J. Transp. Geogr. 34, 131–141 (2014).

    Article 

    Google Scholar 

  • Wiedemann, S. et al. Environmental impacts and useful resource use of Australian beef and lamb exported to the USA decided utilizing life cycle evaluation. J. Clear. Prod. 94, 67–75 (2015).

    Article 

    Google Scholar 

  • Meisterling, Ok., Samaras, C. & Schweizer, V. Choices to scale back greenhouse gases from agriculture and product transport: LCA case examine of natural and standard wheat. J. Clear. Prod. 17, 222–230 (2009).

    CAS 
    Article 

    Google Scholar 

  • Denham, F. C., Biswas, W. Ok., Solah, V. A. & Howieson, J. R. Greenhouse fuel emissions from a Western Australian finfish provide chain. J. Clear. Prod. 112, 2079–2087 (2016).

    CAS 
    Article 

    Google Scholar 

  • Lenzen, M. Errors in typical and enter–output-based life-cycle inventories. J. Ind. Ecol. 4, 127–148 (2000).

    Article 

    Google Scholar 

  • Tobarra, M. A., Lopez, L. A., Cadarso, M. A., Gomez, N. & Cazcarro, I. Is seasonal households’ consumption good for the nexus carbon/water footprint? The Spanish fruit and veggies case. Environ. Sci. Technol. 52, 12066–12077 (2018).

    ADS 
    CAS 
    PubMed 
    Article 

    Google Scholar 

  • Smith, A., Watkiss, P., Tweddle, G. & McKinnon, A. C. The Validity of Meals Miles as an Indicator of Sustainable Growth (DEFRA, 2005).

  • Kissinger, M. Worldwide commerce associated meals miles—the case of Canada. Meals Coverage 37, 171–178 (2012).

    Article 

    Google Scholar 

  • Neira, D. P., Fernandez, X. S., Rodriguez, D. C., Montiel, M. S. & Cabeza, M. D. Evaluation of the transport of imported meals in Spain and its contribution to international warming. Renew. Agric. Meals Syst. 31, 37–48 (2016).

    Article 

    Google Scholar 

  • Mosammam, H. M., Sarrafi, M., Nia, J. T. & Mosammam, A. M. Analyzing the worldwide trade-related meals miles in Iran. Outlook Agric. 47, 36–43 (2018).

    Article 

    Google Scholar 

  • Pradhan, P. et al. City meals programs: how regionalization can contribute to local weather change mitigation. Environ. Sci. Technol. 54, 10551–10560 (2020).

    ADS 
    CAS 
    PubMed 
    Article 

    Google Scholar 

  • Poore, J. & Nemecek, T. Lowering meals’s environmental impacts by producers and shoppers. Science 360, 987–992 (2018).

    ADS 
    CAS 
    PubMed 
    Article 

    Google Scholar 

  • Crippa, M. et al. Meals programs are answerable for a 3rd of world anthropogenic GHG emissions. Nature Meals 2, 198–209 (2021).

    CAS 
    Article 

    Google Scholar 

  • Rosenzweig, C. et al. Local weather change responses profit from a worldwide meals system method. Nat. Meals 1, 94–97 (2020).

    Article 

    Google Scholar 

  • Clark, M. A. et al. International meals system emissions may preclude reaching the 1.5° and a couple of °C local weather change targets. Science 370, 705–708 (2020).

    ADS 
    CAS 
    PubMed 
    Article 

    Google Scholar 

  • Lenzen, M. et al. Worldwide commerce drives biodiversity threats in creating nations. Nature 486, 109–112 (2012).

    ADS 
    CAS 
    PubMed 
    Article 

    Google Scholar 

  • Oita, A. et al. Substantial nitrogen air pollution embedded in worldwide commerce. Nat. Geosci. 9, 111–115 (2016).

    ADS 
    CAS 
    Article 

    Google Scholar 

  • Lenzen, M. et al. The carbon footprint of world tourism. Nat. Clim. Change 8, 522 (2018).

    ADS 
    Article 

    Google Scholar 

  • Janssens-Maenhout, G. et al. EDGAR v4.3.2 international atlas of the three main greenhouse fuel emissions for the interval 1970–2012. Earth Syst. Sci. Knowledge Focus on. 2017, 1–55 (2017).

    Google Scholar 

  • ITF Transport Outlook 2019 (ITF, 2019).

  • The Carbon Footprint of International Commerce (ITF, 2015).

  • Lenzen, M., Li, M. & Murray, S. A. Impacts of dangerous algal blooms on marine aquaculture in a low-carbon future. Dangerous Algae 110, 102143 (2021).

    CAS 
    PubMed 
    Article 

    Google Scholar 

  • The Way forward for Meals and Agriculture: Tendencies and Challenges (FAO, 2017).

  • Meals Product Environmental Footprint Literature Abstract: Meals Transportation (State of Oregon, Division of Environmental High quality, 2017).

  • Wakeland, W., Cholette, S. & Venkat, Ok. in Inexperienced Applied sciences in Meals Manufacturing and Processing (eds Boye, J. I. & Arcand, Y.) 211–236 (Springer, 2012).

  • Kreidenweis, U., Lautenbach, S. & Koellner, T. Regional or international? The query of low-emission meals sourcing addressed with spatial optimization modelling. Environ. Modelling Softw. 82, 128–141 (2016).

    Article 

    Google Scholar 

  • Born, B. & Purcell, M. Avoiding the native entice: scale and meals programs in planning analysis. J. Plan. Educ. Res. 26, 195–207 (2006).

    Article 

    Google Scholar 

  • Webb, J., Williams, A. G., Hope, E., Evans, D. & Moorhouse, E. Do meals imported into the UK have a higher environmental impression than the identical meals produced throughout the UK? Int. J. Life Cycle Assess. 18, 1325–1343 (2013).

    Article 

    Google Scholar 

  • Fairly, J. N., Ball, A. S., Lang, T. & Morison, J. I. Farm prices and meals miles: an evaluation of the total price of the UK weekly meals basket. Meals Coverage 30, 1–19 (2005).

    Article 

    Google Scholar 

  • Lopez, L. A., Cadarso, M. A., Gomez, N. & Tobarra, M. A. Meals miles, carbon footprint and international worth chains for Spanish agriculture: assessing the impression of a carbon border tax. J. Clear. Prod. 103, 423–436 (2015).

    Article 

    Google Scholar 

  • Weber, C. L. & Matthews, H. S. Meals-miles and the relative local weather impacts of meals decisions in america. Environ. Sci. Technol. 42, 3508–3513 (2008).

    ADS 
    CAS 
    PubMed 
    Article 

    Google Scholar 

  • Kinnunen, P. et al. Native meals crop manufacturing can fulfil demand for lower than one-third of the inhabitants. Nat. Meals 1, 229–237 (2020).

    Article 

    Google Scholar 

  • Wooden, S. A., Smith, M. R., Fanzo, J., Remans, R. & DeFries, R. S. Commerce and the equitability of world meals nutrient distribution. Nat. Maintain. 1, 34–37 (2018).

    Article 

    Google Scholar 

  • Cornwell, A. Lowering carbon dioxide emissions in Australia: a minimal disruption method. Aust. Econ. Rev. 29, 65–81 (1996).

    Article 

    Google Scholar 

  • Creedy, J. & Sleeman, C. Carbon dioxide emissions reductions in New Zealand: a minimal disruption method. Aust. Econ. Pap. 44, 199–220 (2005).

    Article 

    Google Scholar 

  • To Rework the International Meals System and Feed the World Sustainably, Begin on the Native Degree (IFPRI, 2019).

  • Pradhan, P., Lüdeke, M. Ok. B., Reusser, D. E. & Kropp, J. P. Meals self-sufficiency throughout scales: how native can we go? Environ. Sci. Technol. 48, 9463–9470 (2014).

    ADS 
    CAS 
    PubMed 
    Article 

    Google Scholar 

  • Kriewald, S., Pradhan, P., Costa, L., Ros, A. G. C. & Kropp, J. P. Hungry cities: how native meals self-sufficiency pertains to local weather change, diets, and urbanisation. Environ. Res. Lett. 14, 094007 (2019).

    ADS 
    CAS 
    Article 

    Google Scholar 

  • Smith, A. et al. The Validity of Meals Miles as an Indicator of Sustainable Growth (DEFRA, 2005).

  • Godfray, H. C. J. et al. The way forward for the worldwide meals system. Philos. Trans. R. Soc. B Biol. Sci. 365, 2769–2777 (2010).

    Article 

    Google Scholar 

  • Meals Programs Maintain Key to Ending World Starvation (United Nations Atmosphere Programme, 2021).

  • Tackling Local weather Change by Livestock (FAO, 2014).

  • Meals Loss and Waste Should Be Decreased for Higher Meals Safety and Environmental Sustainability (United Nations Atmosphere Programme, 2020).

  • Fischedick, M. et al. Trade. In Local weather Change 2014: Mitigation of Local weather Change (eds Edenhofer, O. et al.) (Cambridge Univ. Press, 2014).

  • The International Meals System: An Evaluation (World Extensive Fund for Nature, 2017).

  • Spencer, S. & Kneebone, M. FoodMap: A Comparative Evaluation of Australian Meals Distribution Channels (Australian Authorities Division of Agriculture, Fisheries and Forestry, 2007).

  • Abate-Kassa, G. & Peterson, H. C. Market entry for native meals by the standard meals provide chain. Int. Meals Agribus. Handle. Rev. 14, 63–82 (2011).

    Google Scholar 

  • Sustainable Meals Programs: Idea and Framework (FAO, 2018).

  • Mbow, C., et al. in Local weather Change and Land: An IPCC Particular Report on Local weather Change, Desertification, Land Degradation, Sustainable Land Administration, Meals Safety, and Greenhouse Gasoline Fluxes in Terrestrial Ecosystems (eds Shukla, P. R. et al.) Ch. 5 (2019).

  • Leontief, W. Enter–Output Economics (Oxford College Press, 1966).

  • Lenzen, M., Moran, D., Kanemoto, Ok. & Geschke, A. Constructing Eora: a worldwide multi-region enter–output database at excessive nation and sector decision. Econ. Syst. Res. 25, 20–49 (2013).

    Article 

    Google Scholar 

  • Lenzen, M., Kanemoto, Ok., Moran, D. & Geschke, A. Mapping the construction of the world economic system. Environ. Sci. Technol. 46, 8374–8381 (2012).

    ADS 
    CAS 
    PubMed 
    Article 

    Google Scholar 

  • Lenzen, M. et al. The International MRIO Lab—charting the world economic system. Econ. Syst. Res. 29, 158–186 (2017).

    Article 

    Google Scholar 

  • Nationwide Accounts Foremost Aggregates Database (United Nations Statistics Division, 2020); https://unstats.un.org/unsd/snaama/

  • Nationwide Accounts Official Knowledge (United Nations Statistics Division, 2019); http://knowledge.un.org/Browse.aspx?d=SNA

  • Industrial Statistics Database on the 4-digit Degree of ISIC (INDSTAT4) (UNIDO, 2019); http://www.unido.org/assets/statistics/statistical-databases.html

  • UN Comtrade—United Nations Commodity Commerce Statistics Database (United Nations Statistics Division, 2019); http://comtrade.un.org

  • UN ServiceTrade (United Nations Statistics Division, 2019); https://unstats.un.org/unsd/servicetrade/default.aspx

  • FishStat—Software program for Fishery and Aquaculture Statistical Time Sequence (FAO, 2017).

  • Geschke, A., Ugon, J., Lenzen, M., Kanemoto, Ok. & Moran, D. D. Balancing and reconciling massive multi-regional enter–output databases utilizing parallel optimisation and high-performance computing. J. Econ. Struct. 8, 2 (2019).

    Article 

    Google Scholar 

  • Lenzen, M., Gallego, B. & Wooden, R. Matrix balancing beneath conflicting data. Econ. Syst. Res. 21, 23–44 (2009).

    Article 

    Google Scholar 

  • Meals Merchandise Imports by World 2018 (WITS, 2018); https://wits.worldbank.org/CountryProfile/en/Nation/WLD/12 months/2018/TradeFlow/Import/Accomplice/all/Product/16-24_FoodProd

  • FAOSTAT Database (FAO, 2018).

  • Corridor, O., Bustos, M. F. A., Olén, N. B. & Niedomysl, T. Inhabitants centroids of the world administrative items from nighttime lights 1992−2013. Sci. Knowledge 6, 235 (2019).

    PubMed 
    PubMed Central 
    Article 

    Google Scholar 

  • Items Transport (ITF, 2017); https://www.oecd-ilibrary.org/content material/knowledge/g2g5557d-en

  • Elvidge, C. D. et al. Relation between satellite tv for pc noticed visible-near infrared emissions, inhabitants, financial exercise and electrical energy consumption. Int. J. Distant Sens. 18, 1373–1379 (1997).

    Article 

    Google Scholar 

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