Advanced search
Publication Cover
Critical Reviews in Food Science and Nutrition Volume 55, 2015 - Issue 9
Submit an article Journal homepage
3,633
Views
35
CrossRef citations to date
0
Altmetric
Reviews

Research Developments in Methods to Reduce the Carbon Footprint of the Food System: A Review

Zhongyue XuCollege of Light Industry & Food Sciences, South China University of Technology, Guangzhou510641, PR China
,
Da-Wen SunCollege of Light Industry & Food Sciences, South China University of Technology, Guangzhou510641, PR China;Food Refrigeration and Computerized Food Technology, University College Dublin, National University of Ireland, Agriculture and Food Science Centre, Belfield, Dublin 4, IrelandCorrespondence[email protected]
,
Xin-An ZengCollege of Light Industry & Food Sciences, South China University of Technology, Guangzhou510641, PR China
,
Dan LiuCollege of Light Industry & Food Sciences, South China University of Technology, Guangzhou510641, PR China
&
Hongbin PuCollege of Light Industry & Food Sciences, South China University of Technology, Guangzhou510641, PR China
Pages 1270-1286 | Published online: 03 Mar 2015

REFERENCES

  • Abdul Ghani, A. G. and Farid, M. M. (2007). Numerical simulation of solid–liquid food mixture in a high pressure processing unit using computational fluid dynamics. J. Food Eng. 80(4):1031–1042.
  • Abdul Ghani, A., Farid, M., Chen, X. and Richards, P. (1999). Numerical simulation of natural convection heating of canned food by computational fluid dynamics. J. Food Eng. 41(1):55–64.
  • Ahmad, M. M., Aziz, M. F., Inayat, A. and Yusup, S. (2011). Heat integration study on biomass gasification plant for hydrogen production. J. Appl. Sci. 11(21):3600–3606.
  • Amador, C., Emond, J.-P. and Nunes, M. C. d. N. (2009). Application of RFID technologies in the temperature mapping of the pineapple supply chain. Sens. Instrum. Food Qual. Saf. 3(1):26–33.
  • Ambaw, A., Verboven, P., Delele, M. A., Defraeye, T., Tijskens, E., Schenk, A. and Nicolai, B. M. (2012). CFD Modelling of the 3D Spatial and Temporal Distribution of 1-methylcyclopropene in a Fruit Storage Container. Food and Bioprocess Technology, 6(9):2235–2250.
  • Arikan, M. F., Ayhan, Z., Soysal, Y. and Esturk, O. (2011). Drying Characteristics and Quality Parameters of Microwave-Dried Grated Carrots. Food and Bioprocess Technology, 5(8):3217–3229.
  • Bahman, A., Rosario, L. and Rahman, M. M. (2012). Analysis of energy savings in a supermarket refrigeration/HVAC system. Appl. Energy 98:11–21.
  • Beccali, M., Cellura, M., Iudicello, M. and Mistretta, M. (2010). Life cycle assessment of Italian citrus-based products. Sensitivity analysis and improvement scenarios. J. Environ. Manage. 91(7):1415–1428.
  • Benders, R. M. J., Moll, H. C. and Nijdam, D. S. (2012). From energy to environmental analysis. J. Ind. Ecology 16(2):163–175.
  • Benjaafar, S., Li, Y. Z. and Daskin, M. (2013). Carbon Footprint and the Management of Supply Chains: Insights From Simple Models. IEEE Transactions on Automation Science and Engineering, 10(1):99–116.
  • Berge, N. D., Ro, K. S., Mao, J., Flora, J. R., Chappell, M. A. and Bae, S. (2011). Hydrothermal carbonization of municipal waste streams. Environ. Sci. Technol. 45(13):5696–5703.
  • Bernard, C., Broyart, B., Absi, R., Granda, P. and Relkin, P. (2012). Prediction of Thermohydric History of Whey Protein Concentrate Droplets during Spray Drying. Food and Bioprocess Technology, 6(10):2904–2915.
  • Berners-Lee, M., Hoolohan, C., Cammack, H. and Hewitt, C. N. (2012). The relative greenhouse gas impacts of realistic dietary choices. Energy Policy 43:184–190.
  • Bernstad, A. and la Cour Jansen, J. (2011). A life cycle approach to the management of household food waste—A Swedish full-scale case study. Waste Manage. 31(8):1879–1896.
  • Bernstad, A. and la Cour Jansen, J. (2012a). Review of comparative LCAs of food waste management systems—Current status and potential improvements. Waste Management, Available from http://dx.doi.org/10.1016/j.wasman.2012.07.023.
  • Bernstad, A. and la Cour Jansen, J. (2012a). Review of comparative LCAs of food waste management systems -Current status and potential improvements. Waste management, 32(12):2439–2455.
  • Bernstad, A. and la Cour Jansen, J. (2012b). Separate collection of household food waste for anaerobic degradation—Comparison of different techniques from a systems perspective. Waste Manage. 32(5):806–815.
  • Bernstad, A., Malmquist, L., Truedsson, C. and la Cour Jansen, J. (2013). Need for improvements in physical pretreatment of source-separated household food waste. Waste Management, 33(3):746–754.
  • Bernstein, L., Bosch, P., Canziani, O., Chen, Z., Christ, R., Davidson, O., Hare, W., Huq, S., Karoly, D. and Kattsov, V. (2007). Climate Change 2007: Synthesis Report: An Assessment of the Intergovernmental Panel on Climate Change. http://www.ipcc.ch/pdf/assessment-report/ar4/syr/ar4_syr.pdf
  • Bernstein, L., Bosch, P., Canziani, O., Chen, Z., Christ, R., Davidson, O., Hare, W., Huq, S., Karoly, D. and Kattsov, V. (2008). Climate Change 2007: Synthesis Report: An Assessment of the Intergovernmental Panel on Climate Change.
  • Bhattacharya, S. and Abdul Salam, P. (2002). Low greenhouse gas biomass options for cooking in the developing countries. Biomass Bioenergy 22(4):305–317.
  • Blesl, M., Das, A., Fahl, U. and Remme, U. (2007). Role of energy efficiency standards in reducing CO2 emissions in Germany: An assessment with TIMES. Energy Policy 35(2):772–785.
  • Bocken, N. M. P., Allwood, J. M., Willey, A. R. and King, J. M. H. (2012). Development of a tool for rapidly assessing the implementation difficulty and emissions benefits of innovations. Technovation 32(1):19–31.
  • Bogner, J., Pipatti, R., Hashimoto, S., Diaz, C., Mareckova, K., Diaz, L., Kjeldsen, P., Monni, S., Faaij, A., Qingxian, G., Tianzhu, Z., Mohammed Abdelrafie, A., Sutamihardja, R. T. M. and Gregory, R. (2008). Mitigation of global greenhouse gas emissions from waste: Conclusions and strategies from the Intergovernmental Panel on Climate Change (IPCC) Fourth Assessment Report. Working Group III (Mitigation). Waste Manage. Res. 26(1):11–32.
  • Boons, F., Spekkink, W. and Mouzakitis, Y. (2011). The dynamics of industrial symbiosis: A proposal for a conceptual framework based upon a comprehensive literature review. J. Cleaner Prod. 19(9):905–911.
  • Botto, S., Niccolucci, V., Rugani, B., Nicolardi, V., Bastianoni, S. and Gaggi, C. (2011). Towards lower carbon footprint patterns of consumption: The case of drinking water in Italy. Environ. Sci. Policy 14(4):388–395.
  • Calín-Sanchez, Á., Figiel, A., Szarycz, M., Lech, K., Nuncio-Jáuregui, N. and Carbonell-Barrachina, Á. A. (2013a). Drying Kinetics and Energy Consumption in the Dehydration of Pomegranate (Punica granatum L.) Arils and Rind. Food and Bioprocess Technology, 7(7):2071–2083.
  • Calín-Sánchez, Á., Figiel, A., Wojdyło, A., Szarycz, M. and Carbonell-Barrachina, Á. A. (2013b). Drying of Garlic Slices Using Convective Pre-drying and Vacuum-Microwave Finishing Drying: Kinetics, Energy Consumption, and Quality Studies. Food and Bioprocess Technology, 7(2):398–408.
  • Camillis, C., Bligny, J.-C., Pennington, D. and Pályi, B. (2012). Outcomes of the second workshop of the Food Sustainable Consumption and Production Round Table Working Group 1: Deriving scientifically sound rules for a sector-specific environmental assessment methodology. Int. J. Life Cycle Assess. 17(4):511–515.
  • Carraro, C., Favero, A. and Massetti, E. (2012). Investments and public finance in a green, low carbon, economy. Energy Econ. 34:S15–S28.
  • Cederberg, C., Persson, U. M., Neovius, K., Molander, S. and Clift, R. (2011). Including carbon emissions from deforestation in the carbon footprint of Brazilian beef. Environ. Sci. Technol. 45(5):1773–1779.
  • Cellura, M., Longo, S. and Mistretta, M. (2012). Life cycle assessment (LCA) of protected crops: An Italian case study. J. Cleaner Prod. 28:56–62.
  • Cerutti, A. K., Pairotti, B., Martini, F., Vesce, E., Beltramo, R. and Padovan, D. (2012). Evaluation of the energy consumption and greenhouse gas emission related to Italian food consumption with an hybrid LCA-IO method. http://www.carloalberto.org/research/working-papers
  • Chen, G., Baillie, C. and Kupke, P. (2009). Evaluating on-farm energy performance in agriculture. Aust. J. Multi-Discip. Eng. 7(1):55–61.
  • Chen, T. C. and Lin, C. F. (2008). Greenhouse gases emissions from waste management practices using Life Cycle Inventory model. J. Hazardous Mater. 155(1-2):23–31.
  • Chiellini, F. and Morelli, A. (2011). Ulvan: A versatile platform of biomaterials from renewable resources. pp. 75–98. Pignatello, R., Eds., Biomaterials - Physics and Chemistry, InTech China, Shanghai.
  • Cholette, S. and Venkat, K. (2009). The energy and carbon intensity of wine distribution: A study of logistical options for delivering wine to consumers. J. Cleaner Prod. 17(16):1401–1413.
  • Dagdougui, H. (2012). Models, methods and approaches for the planning and design of the future hydrogen supply chain. Int. J. Hydrog. Energy 37(6):5318–5327.
  • Das, T., Subramanian, R., Chakkaravarthi, A., Singh, V., Ali, S. Z. and Bordoloi, P. K. (2006). Energy conservation in domestic rice cooking. J. Food Eng. 75(2):156–166.
  • Davies, G. F., Man, C. M. D., Andrews, S. D., Paurine, A., Hutchins, M. G. and Maidment, G. G. (2012). Potential life cycle carbon savings with low emissivity packaging for refrigerated food on display. J. Food Eng. 109(2):202–208.
  • Davis, J., Sonesson, U., Baumgartner, D. U. and Nemecek, T. (2010). Environmental impact of four meals with different protein sources: Case studies in Spain and Sweden. Food Res. Int. 43(7):1874–1884.
  • De Monte, M., Padoano, E. and Pozzetto, D. (2005). Alternative coffee packaging: An analysis from a life cycle point of view. J. Food Eng. 66(4):405–411.
  • Delele, M. A., Ngcobo, M. E. K., Opara, U. L. and Meyer, C. J. (2012). Investigating the Effects of Table Grape Package Components and Stacking on Airflow, Heat and Mass Transfer Using 3-D CFD Modelling. Food and Bioprocess Technology, 6(9):2571–2585.
  • Delgado, A. E., Zheng, L. and Sun, D. -W. (2009). Influence of Ultrasound on Freezing Rate of Immersion-frozen Apples. Food and Bioprocess Technology. 2(3):263–270.
  • Delgado, A. E. and Sun, D.-W. (2002). Desorption isotherms for cooked and cured beef and pork. Journal of Food Engineering. 51(2):163–170.
  • Dempsey, P. and Bansal, P. (2012). The art of air blast freezing: Design and efficiency considerations. Appl. Therm. Eng. 41:71–83.
  • Djanibekov, U., Djanibekov, N. and Khamzina, A. (2012). CDM afforestation for managing water, energy and rural income nexus in irrigated drylands. International Association of Agricultural Economists (IAAE) Triennial Conference (1824 August, 2012), Foz do Iguacu, Brazil. http://ageconsearch.umn.edu/bitstream/126765/2/Djanibekov.pdf
  • Du, C. J. and Sun, D.-W. (2005). Comparison of three methods for classification of pizza topping using different colour space transformations. Journal of Food Engineering. 68(3):277–287.
  • Duic, N. (2003). Potential of Kyoto protocol clean development mechanism in transfer of clean energy technologies to small island developing states: Case study of Cape Verde. Renew. Sustainable Energy Rev. 7(1):83–98.
  • Edwards-Jones, G., Plassmann, K., York, E. H., Hounsome, B., Jones, D. L. and Milà i Canals, L. (2009). Vulnerability of exporting nations to the development of a carbon label in the United Kingdom. Environ. Sci. Policy 12(4):479–490.
  • ElMasry, G., Sun, D.-W. and Allen, P. (2012). Near-infrared hyperspectral imaging for predicting colour, pH and tenderness of fresh beef. Journal of Food Engineering. 110(1):127–140.
  • ElMasry, G., Sun, D.-W. and Allen, P. (2011). Non-destructive determination of water-holding capacity in fresh beef by using NIR hyperspectral imaging. Food Research International. 44(9):2624–2633.
  • Environmental Leader (2009). Carbon trading market undergoes growing pains. Available from http://www.environmentalleader.com/2009/09/05/carbon-trading-market-undergoes-growing-pains/.
  • Escobar, J. C., Lora, E. S., Venturini, O. J., Yáñez, E. E., Castillo, E. F. and Almazan, O. (2009). Biofuels: Environment, technology and food security. Renew. Sustainable Energy Rev. 13(6):1275–1287.
  • Ferrua, M. J. and Singh, R. P. (2011). Improved airflow method and packaging system for forced-air cooling of strawberries. Int. J. Refrig. 34(4):1162–1173.
  • Foolmaun, R. K. and Ramjeeawon, T. (2012). Disposal of post-consumer polyethylene terephthalate (PET) bottles: Comparison of five disposal alternatives in the small island state of Mauritius using a life cycle assessment tool. Environ. Technol. 33(5):563–572.
  • Foster, C., Green, K., Bleda, M., Dewick, P., Evans, B., Flynn, A. and Mylan, J. (2006). Environmental Impacts of Food Production And Consumption: A Report to the Department for Environment, Food and Rural Affairs. Manchester Business School. Defra, London.
  • Friedler, F. (2010). Process integration, modelling and optimisation for energy saving and pollution reduction. Appl. Therm. Eng. 30(16):2270–2280.
  • Friedrich, E., Pillay, S. and Buckley, C. A. (2009). Carbon footprint analysis for increasing water supply and sanitation in South Africa: A case study. J. Cleaner Prod. 17(1):1–12.
  • Galitsky, C., Worrel, E. and Ruth, M. (2003). Energy efficiency improvement and cost saving opportunities for the corn wet milling industry: An ENERGY STAR guide for energy and plant managers. Lawrence Berkeley National Laboratory. http://www.energystar.gov/ia/business/industry/LBNL-52307.pdf
  • Galitsky, C., Worrell, E., Radspieler, A., Healy, P. and Zechiel, S. (2005). BEST Winery Guidebook: Benchmarking and energy and water savings tool for the wine industry. Lawrence Berkeley National Laboratory. http://escholarship.org/uc/item/7qb4h9g0
  • Gan, Y., Liang, C., Wang, X. and McConkey, B. (2011). Lowering carbon footprint of durum wheat by diversifying cropping systems. Field Crops Res. 122(3):199–206.
  • Garnett, T. (2007b). Food refrigeration: what is the contribution to greenhouse gas emissions and how might emissions be reduced. A working paper produced as part of the Food Climate Research Network. Centre for Environmental Strategy, University of Surrey, UK. http://fcrn.org.uk/sites/default/files/FCRN%20refrigeration%20paper%20final.pdf
  • Garnett, T. (2008). Cooking up a storm: Food, greenhouse gas emissions and our changing climate. A working paper produced as part of the Food Climate Research Network. Centre for Environmental Strategy, University of Surrey, UK. http://www.fcrn.org.uk/fcrn/publications/cooking-up-a-storm
  • Garnett, T. (2008). Cooking up a storm: Food, greenhouse gas emissions and our changing climate. In: Food Climate Research Network, Centre for Environmental Strategy, University of Surrey, Guildford, UK.
  • Garnett, T. (2011). Where are the best opportunities for reducing greenhouse gas emissions in the food system (including the food chain)? Food Policy 36:S23–S32.
  • Gerber, P. J., Vellinga, T. V. and Steinfeld, H. (2010). Issues and options in addressing the environmental consequences of livestock sector's growth. Meat Sci. 84(2):244–247.
  • Gibbs, H. K., Johnston, M., Foley, J. A., Holloway, T., Monfreda, C., Ramankutty, N. and Zaks, D. (2008). Carbon payback times for crop-based biofuel expansion in the tropics: The effects of changing yield and technology. Environ. Res. Lett. 3(3):1–10.
  • González, A. D., Frostell, B. and Carlsson-Kanyama, A. (2011). Protein efficiency per unit energy and per unit greenhouse gas emissions: Potential contribution of diet choices to climate change mitigation. Food Policy 36(5):562–570.
  • Griffiths-Sattenspiel, B. and Wilson, W. (2009). The Carbon Footprint of Water. River Network, Portland.
  • Gunasekaran, S. (1999). Pulsed microwave—vacuum drying of food materials. Drying Technol. 17(3):395–412.
  • Hémous, D. (2012). Environmental Policy and Directed Technical Change in a Global Economy: The Dynamic Impact of Unilateral Environmental Policies. http://www-2.iies.su.se/Nobel2012/Papers/Hemous.pdf
  • Hergoualc’h, K., Blanchart, E., Skiba, U., Hénault, C. and Harmand, J.-M. (2012). Changes in carbon stock and greenhouse gas balance in a coffee (Coffea arabica) monoculture versus an agroforestry system with Inga densiflora, in Costa Rica. Agric. Ecosystems Environ. 148:102–110.
  • Hermansen, J. E. and Nguyen, T. L. T. (2012). Life cycle assessment and the agri-food chain. pp. 43–60. Boye, J. and Arcand, Y., Eds., Green Technologies in Food Production and Processing, Springer, Berlin.
  • Hertwich, E. G. and Peters, G. P. (2009). Carbon footprint of nations: A global, trade-linked analysis. Environ. Sci. Technol. 43(16):6414–6420.
  • Hoen, K., Tan, T., Fransoo, J. and van Houtum, G. (2010). Effect of Carbon Emission Regulations on Transport Mode Selection in Supply Chains. Eindhoven University of Technology. http://cms.ieis.tue.nl/Beta/Files/WorkingPapers/Beta_wp308.pdf
  • Hospido, A., Milà i Canals, L., McLaren, S., Truninger, M., Edwards-Jones, G. and Clift, R. (2009). The role of seasonality in lettuce consumption: A case study of environmental and social aspects. Int. J. Life Cycle Assess. 14(5):381–391.
  • Hospido, A., Vazquez, M. E., Cuevas, A., Feijoo, G. and Moreira, M. T. (2006). Environmental assessment of canned tuna manufacture with a life-cycle perspective. Resour. Conservation Recycling 47(1):56–72.
  • Hu, Z. H. and Sun, D.-W. (2000). CFD simulation of heat and moisture transfer for predicting cooling rate and weight loss of cooked ham during air-blast chilling process. Journal of Food Engineering. 46(3):189–197.
  • Hua, G., Cheng, T. C. E. and Wang, S. (2011). Managing carbon footprints in inventory management. Int. J. Prod. Econ. 132(2):178–185.
  • Humbert, S., Rossi, V., Margni, M., Jolliet, O. and Loerincik, Y. (2009). Life cycle assessment of two baby food packaging alternatives: Glass jars vs. plastic pots. Int. J. Life Cycle Assess. 14(2):95–106.
  • Hwang, J. J. (2011). Policy review of greenhouse gas emission reduction in Taiwan. Renew. Sustainable Energy Rev. 15(2):1392–1402.
  • Hwang, I. H., Aoyama, H., Matsuto, T., Nakagishi, T. and Matsuo, T. (2012). Recovery of solid fuel from municipal solid waste by hydrothermal treatment using subcritical water. Waste Manage. 32(3):410–416.
  • Hwang, H.-S., Hong, S.-W., Seo, I.-H., Bitog, J., Kwon, K.-S., Kim, Y.-H., Lee, I.-B. and Yoo, J.-I. (2009). Modeling and simulation of the growth of microalgae in photobioreactors. International Symposium on High Technology for Greenhouse Systems: GreenSys2009 893 http://www.actahort.org/books/893/893_67.htm
  • Hyder, P. (2008). Recycling revenue from an international carbon tax to fund an integrated investment programme in sustainable energy and poverty reduction. Glob. Environ. Change 18(3):521–538.
  • Ingwersen, W. W. (2012). Life cycle assessment of fresh pineapple from Costa Rica. J. Cleaner Prod. 35:152–163.
  • Inland Transport Committee of Economic Comission for Europe (ITCECE). (2010). ATP as amended on 2 January 2011 : Agreement on the International Carriage of Perishable Foodstuffs and on the Special Equipment to Be Used for Such Carriage (ATP), United Nations, New York and Geneva.
  • Intini, F., Kühtz, S. and Rospi, G. (2012). Life cycle assessment (LCA) of an energy recovery plant in the olive oil industries. Int. J. Energy Environ. 3(4):541–552.
  • Iribarren, D., Hospido, A., Moreira, M. T. and Feijoo, G. (2010). Carbon footprint of canned mussels from a business-to-consumer approach. A starting point for mussel processors and policy makers. Environ. Sci. Policy 13(6):509–521.
  • ISO. (2006). Environmental management - Life cycle assessment -principles and framework. ISO 14040:2006(E). International Organization for Standardization. Geneva, Switzerland.
  • Jaber, J. O. (2002). Future energy consumption and greenhouse gas emissions in Jordanian industries. Appl. Energy 71(1):15–30.
  • Jones, A. (2002). An environmental assessment of food supply chains: A case study on dessert apples. Environ. Manage. 30(4):560–576.
  • Jones, C. D., Fraisse, C. W. and Ozores-Hampton, M. (2012). Quantification of greenhouse gas emissions from open field-grown Florida tomato production. Agric. Syst. 113, 64–72.
  • Jugjai, S. and Rungsimuntuchart, N. (2002). High efficiency heat-recirculating domestic gas burners. Exp. Therm. Fluid Sci. 26(5):581–592.
  • Jungbluth, N., Büsser, S., Frischknecht, R., Flury, K. and Stucki, M. (2012). Feasibility of environmental product information based on life cycle thinking and recommendations for Switzerland. J. Cleaner Prod. 28, 187–197.
  • Kamruzzaman, M., ElMasry, G., Sun, D.-W. and Allen, P. (2012). Prediction of some quality attributes of lamb meat using near-infrared hyperspectral imaging and multivariate analysis. Analytica Chimica Acta. 714:57–67.
  • Kamruzzaman, M., ElMasry, G., Sun, D. -W. and Allen, P. (2011). Application of NIR hyperspectral imaging for discrimination of lamb muscles. Journal of Food Engineering. 104(3):332–340.
  • Khoo, H. H., Lim, T. Z. and Tan, R. B. (2010). Food waste conversion options in Singapore: Environmental impacts based on an LCA perspective. Sci. Total Environ. 408(6):1367–1373.
  • Kim, M. H. and Kim, J. W. (2010). Comparison through a LCA evaluation analysis of food waste disposal options from the perspective of global warming and resource recovery. Sci. Total Environ. 408(19):3998–4006.
  • Kollmuss, A., Zink, H. and Polycarp, C. (2008). Making Sense of The Voluntary Carbon Market: A Comparison of Carbon Offset Standards. WWF Germany, Berlin.
  • Kramer, K. J., Moll, H. C., Nonhebel, S. and Wilting, H. C. (1999). Greenhouse gas emissions related to Dutch food consumption. Energy Policy 27(4):203–216.
  • Krohn, B. J. and Fripp, M. (2012). A life cycle assessment of biodiesel derived from the “niche filling” energy crop camelina in the USA. Appl. Energy 92:92–98.
  • Kumar, V., Wee, A. P., Birla, S., Subbiah, J. and Thippareddi, H. (2012). A 3-D computational fluid dynamics model for forced air cooling of eggs placed in trays. J. Food Eng. 108(3):480–492.
  • Kwon, S., Fan, M., DaCosta, H. F. M. and Russell, A. G. (2011). Factors affecting the direct mineralization of CO2 with olivine. J. Environ. Sci. 23(8):1233–1239.
  • Lal, R. (2004). Soil carbon sequestration impacts on global climate change and food security. Sci. 304(5677):1623–1627.
  • Lau, L. C., Lee, K. T. and Mohamed, A. R. (2012). Global warming mitigation and renewable energy policy development from the Kyoto Protocol to the Copenhagen Accord-A comment. Renew. Sustainable Energy Rev. 16(7):5280–5284.
  • Lee, S. C., Sum Ng, D. K., Yee Foo, D. C. and Tan, R. R. (2009). Extended pinch targeting techniques for carbon-constrained energy sector planning. Appl. Energy 86(1):60–67.
  • Lespinard, A. R. and Mascheroni, R. H. (2012). Influence of the Geometry Aspect of Jars on the Heat Transfer and Flow Pattern during Sterilization of Liquid Foods. J. Food Process Eng. 35(5):751–762.
  • Lim, S. R. and Park, J. M. (2008). Cooperative water network system to reduce carbon footprint. Environ. Sci. Technol. 42(16):6230–6236.
  • Liu, D., Ma, J., Sun, D. -W., Pu, H., Gao, W., Qu, J., Zeng, X. -A. (2014). Prediction of Color and pH of Salted Porcine Meats Using Visible and Near-Infrared Hyperspectral Imaging. Food and Bioprocess Technology. In press, DOI: 10.1007/s11947-014-1327-5.
  • Lu, X., Jordan, B. and Berge, N. D. (2012). Thermal conversion of municipal solid waste via hydrothermal carbonization: Comparison of carbonization products to products from current waste management techniques. Waste Manage. 32(7):1353–1365.
  • Lung, R. B., Masanet, E. and McKane, A. (2006). The role of emerging technologies in improving energy efficiency: Examples from the food processing industry. Lawrence Berkeley National Laboratory. http://escholarship.org/uc/item/43c841xs#page-1
  • Maraseni, T. N. and Cockfield, G. (2011). Does the adoption of zero tillage reduce greenhouse gas emissions? An assessment for the grains industry in Australia. Agric. Syst. 104(6):451–458.
  • Maraseni, T. N., Mushtaq, S., Hafeez, M. and Maroulis, J. (2010). Greenhouse gas implications of water reuse in the Upper Pumpanga River Integrated Irrigation System, Philippines. Agric. Water Manage. 97(3):382–388.
  • Maraseni, T. N., Mushtaq, S. and Maroulis, J. (2009). Greenhouse gas emissions from rice farming inputs a cross-country assessment. J. Agric. Sci. 147:117–126.
  • Maraseni, T. N., Mushtaq, S. and Reardon-Smith, K. (2012a). Climate change, water security and the need for integrated policy development: The case of on-farm infrastructure investment in the Australian irrigation sector. Environ. Res. Lett. 7(3):034006.
  • Maraseni, T. N., Mushtaq, S. and Reardon-Smith, K. (2012b). Integrated analysis for a carbon- and water-constrained future: An assessment of drip irrigation in a lettuce production system in eastern Australia. J. Environ. Manage. 111:220–226.
  • Markewitz, P., Kuckshinrichs, W., Leitner, W., Linssen, J., Zapp, P., Bongartz, R., Schreiber, A. and Müller, T. E. (2012). Worldwide innovations in the development of carbon capture technologies and the utilization of CO2. Energy Environ. Sci. 5(6):7281–7305.
  • Marsh, K. and Bugusu, B. (2007). Food packaging—roles, materials, and environmental issues. J. Food Sci. 72(3):R39–55.
  • Masanet, E., Worrell, E., Graus, W. and Galitsky, C. (2008). Energy efficiency improvement and cost saving opportunities for the fruit and vegetable processing industry.An Energy Star Guide for Energy and Plant Managers. Lawrence Berkeley National Laboratory. https://escholarship.org/uc/item/8h25n5pr#page-1
  • Matsuda, T., Yano, J., Hirai, Y. and Sakai, S.-i. (2012). Life-cycle greenhouse gas inventory analysis of household waste management and food waste reduction activities in Kyoto, Japan. Int. J. Life Cycle Assess. 17(6):743–752.
  • Minx, J., Wiedmann, T., Barrett, J. and Suh, S. (2008). Methods review to support the PAS process for the calculation of the greenhouse gas emissions embodied in goods and services. Report to the UK Department for Environment, Food and Rural Affairs by Stockholm Environment Institute at the University of York and Department for Bio-based Products at the University of Minnesota, DEFRA, London, UK.
  • Mrini, M., Senhaji, F. and Pimentel, D. (2001). Energy analysis of sugarcane production in Morocco. Environ. Dev. Sustainability 3(2):109–126.
  • Mushtaq, S., Maraseni, T. N. and Reardon-Smith, K. (2013). Climate change and water security: Estimating the greenhouse gas costs of achieving water security through investments in modern irrigation technology. Agric. Syst. 117:78–89.
  • Muthu, S. S., Li, Y., Hu, J. Y. and Mok, P. Y. (2011). Carbon footprint of shopping (grocery) bags in China, Hong Kong and India. Atmos. Environ. 45(2):469–475.
  • Nemecek, T., Weiler, K., Plassmann, K., Schnetzer, J., Gaillard, G., Jefferies, D., García–Suárez, T., King, H. and Milà i Canals, L. (2012). Estimation of the variability in global warming potential of worldwide crop production using a modular extrapolation approach. J. Cleaner Prod. 31:106–117.
  • Norton, T. and Sun, D. W. (2006). Computational fluid dynamics (CFD)—an effective and efficient design and analysis tool for the food industry: A review. Trends Food Sci. Technol. 17(11):600–620.
  • Ogino, A., Ishida, M., Ohmori, H., Tanaka, Y., Yamashita, T., Yokoyama, H., Tatsugawa, K., Ijiri, S. and Kawashima, T. (2012). Life cycle assessment of animal feeds prepared from liquid food residues: A case study of rice-washing water. J. Environ. Qual. 41(6):1982–1988.
  • Okareh, O. T., Oyewole, S. A. and Taiwo, L. (2012). Conversion of food wastes to organic fertilizer: A strategy for promoting food security and institutional waste management in Nigeria. J. Res. Environ. Sci. Toxicology 1(2):29–35.
  • Olsen, K. H. (2007). The clean development mechanism's contribution to sustainable development: A review of the literature. Clim. Change 84(1):59–73.
  • Ould Ahmedou, S. A., Rouaud, O. and Havet, M. (2008). Assessment of the Electrohydrodynamic Drying Process. Food and Bioprocess Technology, 2(3):240–247.
  • Ousegui, A., Moresoli, C., Dostie, M. and Marcos, B. (2012). Optimal control and CFD modeling for heat flux estimation of a baking process. Comput. Chem. Eng. 38:139–150.
  • Padmavati, R. and Anandharamakrishnan, C. (2012). Computational Fluid Dynamics Modeling of the Thermal Processing of Canned Pineapple Slices and Titbits. Food and Bioprocess Technology, 6(4):882–895.
  • Pandey, D., Agrawal, M. and Pandey, J. S. (2011). Carbon footprint: Current methods of estimation. Environ. Monit. Assess. 178(1–4):135–160.
  • Pardo, G. and Zufia, J. (2012). Life cycle assessment of food-preservation technologies. J. Cleaner Prod. 28:198–207.
  • Pazheri, F., Kaneesamkandi, Z. M. and Othman, M. (2012). Bagasse saving and emission reduction in power dispatch at sugar factory by co-generation and solar energy. 2012 IEEE International Power Engineering and Optimization Conference (6-7June, 2012), Melaka, Malaysia http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=6230898&tag=1
  • Pękala, Ł. M., Tan, R. R., Foo, D. C. Y. and Jeżowski, J. M. (2010). Optimal energy planning models with carbon footprint constraints. Appl. Energy 87(6):1903–1910.
  • Pereira, R. N. and Vicente, A. A. (2010). Environmental impact of novel thermal and non-thermal technologies in food processing. Food Res. Int. 43(7):1936–1943.
  • Peters, G. M., Rowley, H. V., Wiedemann, S., Tucker, R., Short, M. D. and Schulz, M. (2010). Red meat production in Australia: Life cycle assessment and comparison with overseas studies. Environ. Sci. Technol. 44(4):1327–1332.
  • Peters, G. P. (2010). Carbon footprints and embodied carbon at multiple scales. Curr. Opin. Environ. Sustainability 2(4):245–250.
  • Philippe, F. X., Laitat, M., Nicks, B. and Cabaraux, J. F. (2012). Ammonia and greenhouse gas emissions during the fattening of pigs kept on two types of straw floor. Agric. Ecosystems Environ. 150:45–53.
  • Pimentel, D., Williamson, S., Alexander, C. E., Gonzalez-Pagan, O., Kontak, C. and Mulkey, S. E. (2008). Reducing Energy Inputs in the US Food System. Hum. Ecology 36(4):459–471.
  • Pirog, R., Van Pelt, T., Enshayan, K. and Cook, E. (2001). Food, Fuel, and Freeways : An Iowa Perspective on How Far Food Travels, Fuel Usage, and Greenhouse Gas Emissions. Leopold Center for Sustainable Agriculture, Iowa State University, Ames, Iowa.
  • Point, E. V. (2008). Life Cycle Environmental Impacts of Wine Production and Consumption in Nova Scotia, Canada. Dalhousie University, Nova Scotia.
  • Ponsioen, T. C. and Blonk, T. J. (2012). Calculating land use change in carbon footprints of agricultural products as an impact of current land use. J. Cleaner Prod. 28:120–126.
  • Poovarodom, N., Ponnak, C. and Manatphrom, N. (2012). Comparative carbon footprint of packaging systems for tuna products. Packag. Technol. Sci. 25(5):249–257.
  • Poulsen, T. G. and Hansen, J. A. (2009). Assessing the impacts of changes in treatment technology on energy and greenhouse gas balances for organic waste and wastewater treatment using historical data. Waste Manage. Res. 27(9):861–870.
  • Pradhan, P., Reusser, D. and Kropp, J. (2012). Food transitions in last 50 years and related environmental implications. http://meetingorganizer.copernicus.org/EGU2012/EGU2012-14049.pdf
  • Pu, H., Sun, D.-W., Ma, J., Liu, D. and Cheng, J. (2014). Using wavelet textural features of visible and near infrared hyperspectral image to differentiate between fresh and frozen-thawed pork. Food and Bioprocess Technology. In press, DOI: 10.1007/s11947-014-1330-x.
  • Rao, A. B. and Rubin, E. S. (2002). A technical, economic, and environmental assessment of amine-based CO2 capture technology for power plant greenhouse gas control. Environ. Sci. Technol. 36(20):4467–4475.
  • Reay, D. (2008). The role of process intensification in cutting greenhouse gas emissions. Appl. Therm. Eng. 28(16):2011–2019.
  • Romero-Gámez, M., Suárez-Rey, E. M., Antón, A., Castilla, N. and Soriano, T. (2012). Environmental impact of screenhouse and open-field cultivation using a life cycle analysis: The case study of green bean production. J. Cleaner Prod. 28:63–69.
  • Roy, P., Ijiri, T., Nei, D., Orikasa, T., Okadome, H., Nakamura, N. and Shiina, T. (2009a). Life cycle inventory (LCI) of different forms of rice consumed in households in Japan. J. Food Eng. 91(1):49–55.
  • Roy, P., Nei, D., Orikasa, T., Xu, Q., Okadome, H., Nakamura, N. and Shiina, T. (2009b). A review of life cycle assessment (LCA) on some food products. J. Food Eng. 90(1):1–10.
  • Roy, P., Orikasa, T., Thammawong, M., Nakamura, N., Xu, Q. and Shiina, T. (2012). Life cycle of meats: An opportunity to abate the greenhouse gas emission from meat industry in Japan. J. Environ. Manage. 93(1):218–224.
  • Saarinen, M., Kurppa, S., Virtanen, Y., Usva, K., Mäkelä, J. and Nissinen, A. (2012). Life cycle assessment approach to the impact of home-made, ready-to-eat and school lunches on climate and eutrophication. J. Cleaner Prod. 28:177–186.
  • Sanyé, E., Oliver-Solà, J., Gasol, C. M., Farreny, R., Rieradevall, J. and Gabarrell, X. (2012). Life cycle assessment of energy flow and packaging use in food purchasing. J. Cleaner Prod. 25:51–59.
  • Sanyé-Mengual, E., Cerón-Palma, I., Oliver-Solà, J., Montero, J. I. and Rieradevall, J. (2013). Environmental analysis of the logistics of agricultural products from roof top greenhouses in Mediterranean urban areas. J. Sci. Food Agric. 93(1):100–109.
  • Schnitzer, H., Brunner, C. and Gwehenberger, G. (2007). Minimizing greenhouse gas emissions through the application of solar thermal energy in industrial processes. J. Cleaner Prod. 15(13):1271–1286.
  • Sinden, G. (2009). The contribution of PAS 2050 to the evolution of international greenhouse gas emission standards. Int. J. Life Cycle Assess. 14(3):195–203.
  • Smith, A., Watkiss, P., Tweddle, G., McKinnon, A., Browne, M., Hunt, A., Treleven, C., Nash, C. and Cross, S. (2005). The Validity of Food Miles as an Indicator of Sustainable Development—Final Report. Department of Environment, Food and Rural Affairs, London.
  • Smith, P., Martino, D., Cai, Z., Gwary, D., Janzen, H., Kumar, P., McCarl, B., Ogle, S., O’Mara, F., Rice, C., Scholes, B., Sirotenko, O., Howden, M., McAllister, T., Pan, G., Romanenkov, V., Schneider, U., Towprayoon, S., Wattenbach, M. and Smith, J. (2008). Greenhouse gas mitigation in agriculture. Phil. Trans. R. Soc. 363(1492):789–813.
  • Sovacool, B. K. (2010). Building umbrellas or arks? Three alternatives to carbon credits and offsets. Electr. J. 23(2):29–40.
  • Sun, D.-W. (1999). Comparison and selection of EMC ERH isotherm equations for rice. Journal of Stored Products Research. 35(3):249–264.
  • Sun, D.-W. and Byrne, C. (1998). Selection of EMC/ERH isotherm equations for rapeseed. Journal of Agricultural Engineering Research. 9(4):307–315.
  • Sun, D.-W. and Woods, J. L. (1997). Simulation of the heat and moisture transfer process during drying in deep grain beds. Drying Technology. 15(10):2749–2508.
  • Sun, D.-W. and Woods, J. L. (1994). Low-Temperature Moisture Transfer Characteristics of Barley: Thin-Layer Models and Equilibrium Isotherms. Journal of Agricultural Engineering Research. 56(4):273–283.
  • Sun, D.-W. and Woods, J. L. (1993). The Moisture-Content Relative-Humidity Relationshiop of Wheat: A Review. Drying Technology. 11(7):1523–1551.
  • Sundblad, E. L., Biel, A. and Garling, T. (2014). Intention to change activities that reduce carbon dioxide emissions related to worry about global climate change consequences. European Review of Applied Psychology-Revue Europeenne De Psychologie Appliquee, 64(1):13–17.
  • Sutter, C. and Parreño, J. C. (2007). Does the current Clean Development Mechanism (CDM) deliver its sustainable development claim? An analysis of officially registered CDM projects. Clim. Change 84(1):75–90.
  • Takata, M., Fukushima, K., Kino-Kimata, N., Nagao, N., Niwa, C. and Toda, T. (2012). The effects of recycling loops in food waste management in Japan: Based on the environmental and economic evaluation of food recycling. Sci. Total Environ. 432:309–317.
  • Tan, M. Q. B., Tan, R. B. H. and Khoo, H. H. (2014). Prospects of carbon labelling - a life cycle point of view. Journal of Cleaner Production, 72:76–88.
  • Tan, R. R. and Foo, D. C. Y. (2007). Pinch analysis approach to carbon-constrained energy sector planning. Energy 32(8):1422–1429.
  • Tan, R. R., Sum Ng, D. K. and Yee Foo, D. C. (2009). Pinch analysis approach to carbon-constrained planning for sustainable power generation. J. Cleaner Prod. 17(10):940–944.
  • Tassou, S. A., De-Lille, G. and Ge, Y. T. (2009). Food transport refrigeration – Approaches to reduce energy consumption and environmental impacts of road transport. Appl. Therm. Eng. 29(8-9):1467–1477.
  • Töpfl, S. (2006). Pulsed Electric Fields (PEF) for Permeabilization of Cell Membranes in Food and Bioprocessing—Applications, Process and Equipment Design and Cost Analysis. Universitätsbibliothek, Berlin.
  • Tuan, C. I., Yeh, Y. L., Chen, C. J. and Chen, T. C. (2012). Performance assessment with Pinch technology and integrated heat pumps for vaporized concentration processing. J. Taiwan Inst. Chem. Eng. 43(2):226–234.
  • Tukker, A., Huppes, G., Guinée, J., Heijungs, R., Koning, A., Oers, L., Suh, S., Geerken, T., Holderbeke, M. and Jansen, B. (2006). Environmental Impact of Products (EIPRO) Analysis of the life cycle environmental impacts related to the final consumption of the EU-25. In: Technical Report Series, EUR 22284 EN, pp. 1–136. European Commission, Joint Research Centre, Institute for Prospective Technological Studies.
  • Tukker, A., Huppes, G., Guinee, J., Heijungs, R., Koning, A., Oers, L., Suh, S., Geerken, T., van Holderbeke, M., Jansen, B. and Nielsen, P. (2006). Environmental Impact of Products (EIPRO): Analysis of the life cycle environmental impacts related to the final consumption of the EU-25. http://ec.europa.eu/environment/ipp/pdf/eipro_report.pdf
  • Tzilivakis, J., Green, A., Warner, D., McGeevor, K., MacMillan, T. and Lewis, K. (2011). Effective approaches to environmental labelling of food products: Final Report for Project FO0419. http://uhra.herts.ac.uk/handle/2299/8070
  • Tzilivakis, J., Green, A., Warner, D., McGeevor, K., MacMillan, T. and Lewis, K. (2011). Effective Approaches to Environmental Labelling of Food Products: Final Report for Project FO0419.
  • United Nations. (1992). United Nations Framwork Convention on Climate Change. United Nations, New York.
  • United Nations Framework Convention on Climate Change (UNFCCC). (1998). Kyoto Protocol to the United Nations Framework Convention on Climate Change, United Nations, Kyoto.
  • United States Environmental Production Agency (USEPA). (2012). Executive Summary. In: Inventory of U.S. greenhouse gas emissions and sinks: 1990–2010. Available from http://www.epa.gov/climatechange/ghgemissions/usinventoryreport.html.
  • United States Environmental Production Agency (USEPA). (2012). Executive Summary. Inventory of U.S. greenhouse gas emissions and sinks: 1990–2010. Available from: http://www.epa.gov/climatechange/ghgemissions/
  • Valous, N. A., Mendoza, F., Sun, D.-W. and Allen, P. (2009). Colour calibration of a laboratory computer vision system for quality evaluation of pre-sliced hams. Meat Science. 81(1):132–141.
  • Van Hauwermeiren, A., Coene, H., Engelen, G. and Mathijs, E. (2007). Energy lifecycle inputs in food systems: A comparison of local versus mainstream cases. J. Environ. Policy Plan. 9(1):31–51.
  • Ventour, L. (2008). The food we waste. WRAP and Exodus market research, WRAP Banbury/Oxon.
  • VijayaVenkataRaman, S., Iniyan, S. and Goic, R. (2012). A review of solar drying technologies. Renew. Sustainable Energy Rev. 16(5):2652–2670.
  • Von Stein, J. (2008). The international law and politics of climate change: Ratification of the United Nations framework convention and the Kyoto protocol. J. Conflict Resolution 52(2):243–268.
  • Vorobiev, E. and Lebovka, N. (2010). Enhanced extraction from solid foods and biosuspensions by pulsed electrical energy. Food Eng. Rev. 2(2):95–108.
  • Wallén, A., Brandt, N. and Wennersten, R. (2004). Does the Swedish consumer's choice of food influence greenhouse gas emissions? Environ. Sci. Policy 7(6):525–535.
  • Wan Alwi, S. R., Mohammad Rozali, N. E., Abdul-Manan, Z. and Klemeš, J. J. (2012). A process integration targeting method for hybrid power systems. Energy 44(1):6–10.
  • Wang, J., Rothausen, S. G. S. A., Conway, D., Zhang, L., Xiong, W., Holman, I. P. and Li, Y. (2012). China's water–energy nexus: Greenhouse-gas emissions from groundwater use for agriculture. Environ. Res. Lett. 7(1):014035.
  • Wang, L. J. and Sun, D. -W. (2001). Rapid cooling of porous and moisture foods by using vacuum cooling technology. Trends in Food Science & Technology. 12(5-6):174–184.
  • Wang, J. and Sheng, K. (2006). Far-infrared and microwave drying of peach. LWT - Food Sci. Technol. 39(3):247–255.
  • Wang, J. F., Xie, J., Tao, L. R., Wang, Y. H. and Yang, X. Y. (2011). Cooling process after HTST orange juice sterilization optimization based on CFD. Adv. Mater. Res. 201:2727–2730.
  • Warwick, H. and Park, N. S. (2007). AC0401: Direct energy use in agriculture: Opportunities for reducing fossil fuel inputs. Final report to DEFRA. University of Warwick, Warwick. http://ukerc.rl.ac.uk/pdf/AC0401_Final.pdf
  • Weber, C. L. and Matthews, H. S. (2008). Food-miles and the relative climate impacts of food choices in the United States. Environ. Sci. Technol. 42(10):3508–3513.
  • Whitman, T., Nicholson, C. F., Torres, D. and Lehmann, J. (2011). Climate change impact of biochar cook stoves in western Kenyan farm households: System dynamics model analysis. Environ. Sci. Technol. 45(8):3687–3694.
  • Wiedmann, T. and Minx, J. (2007). A definition of ‘carbon footprint’. Ecological Econ. Res. Trends 2:55–65.
  • Xia, B. and Sun, D. W. (2002). Applications of computational fluid dynamics (CFD) in the food industry: A review. Comput. Electron. Agric. 34(1):5–24.
  • Xu, S. Y., Chen, X. F. and Sun, D.-W. (2001). Preservation of kiwifruit coated with an edible film at ambient temperature. Journal of Food Engineering. 50(4):211–216.
  • Yang, H., Xu, Z., Fan, M., Gupta, R., Slimane, R. B., Bland, A. E. and Wright, I. (2008). Progress in carbon dioxide separation and capture: A review. J. Environ. Sci. 20(1):14–27.
  • Yuan, Z., Zhu, Y., Wang, Y. and Zhang, L. (2012). Conserving energy by optimizing the heat exchanger networks of glyphosate production with pinch technology. Clean Technol. Environ. Policy 14(4):749–757.
  • Zandonadi, D. B. and Busato, J. G. (2012). Vermicompost humic substances: Technology for converting pollution into plant growth regulators. Int. J. Environ. Sci. Eng. Res. 3(2):73–84.
  • Zentner, R. P., Lafond, G. P., Derksen, D. A., Nagy, C. N., Wall, D. D. and May, W. E. (2004). Effects of tillage method and crop rotation on non-renewable energy use efficiency for a thin Black Chernozem in the Canadian Prairies. Soil Tillage Res. 77(2):125–136.
  • Zhou, Q., Chan, C. and Tontiwachiwuthikul, P. (2010). Monitoring and diagnosis of the carbon dioxide capture process using an intelligent system approach. Procedia Environ. Sci. 2:2–8.
  • Zietsman, J., Bari, M. E., Rand, A. J., Gokhale, B., Lord, D. and Kumar, S. (2008). Feasibility of landfill gas as a liquefied natural gas fuel source for refuse trucks. J. Air Waste Manage. Assoc. 58(5):613–619.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.