Madura has typical cassava-based food products including cassava chips, raw tette chips and fried tette chips produced by Small and Medium-sized Enterprises (SMEs). The production process of the three products varies and produces different environmental impacts. This study aims to evaluate and compare environmental impact assessments in the production of raw tette chips and fried tette chips using Life Cycle Assessment (LCA) approach. This study evaluates the product life cycle from the procurement of raw materials until the product is consumed. The results showed that fried tette chips had a lower environmental impact than raw tette chips per 500 gram basis. Climate change, photochemical oxidation and eutrophication are environmental impacts identified in this study. The results of this study are expected to get a comprehensive environmental footprint of the product system with respect to sustainable production and consumption.

Albino, V. Balice, A., and Dangelico, R.M. (2009) ‘Environmental strategies and green product development: An overview on sustainability-driven companies,’ Business Strategy and the Enviroment, 18, pp 83-96

Andersson, K., and Ohlsson, T. (1999) Including environmental aspects in production development: a case study of tomato ketchup,’

Lebensmittel-Wissenschaft UndTechnologie, 32, pp 134–141

Andersson, K., Ohlsson, T., and Olsson, P. (1994) ‘Life cycle assessment (LCA) of food products and production systems,’ Trends in Food Science and Technology, 5, pp 134–138

Andersson, K., Ohlsson, T., and Olsson, P. (1998) Screening life cycle assessment (LCA) of tomato ketchup: a case study,’ Journal of Cleaner Production, 6(3–4), pp 277–288

Boer, D.I.J.M. (2002) ‘Environmental impact assessment of conventional and organic milk production,’ Livestock Production Science, 80(1–2), pp 69–77

BPS Pamekasan (2014) ‘Pamekasan dalam Angka’, Badan Pusat Statistik, Pamekasan

Braschkat, J., Patyk, A., Quirin, M., and Reinhardt, G.A. (2003) ‘Life cycle assessment of bread production - a comparison of eight different scenarios,’ Proceedings of the Fourth International Conference on Life Cycle Assessment in the Agri-Food Sector, Bygholm, Denmark.

Hairiyah K., Rahayu S., Suprayogo D., and Prayogo C. (2016) ‘Perubahan Iklim: Sebab dan Dampaknya Terhadap Kehidupan. Bahan Ajar 1,’ Bogor, Indonesia: World Agroforestry Centre Southeast Asia Regional dan Malang, Indonesia: Universitas Brawijaya [In Indonesian]

Intergovernmental Panel on Climate Change (IPCC) (2007) ‘Contribution of Working Groups I, II and III to the Fourth Asseessment Report of the Intergovernmental Panel on Climate Change,’ Geneva, Switzerland, pp 104

ISO (International Organization for Standardization) (1997) ‘ISO 14040 Environmental Management - Life Cycle Assessment - Principles and Framework,’ International Organization for Standardization

ISO (International Organization for Standardization) (2006) ‘ISO 14040: 2006 (E) Environmental Management - Life Cycle Assessment - Principles and Framework

Mattsson, B., and Wallén, E. (2003) ‘Environmental LCA of organic

potatoes. Proceedings of the 26th International Horticultural Congress, ISHS, Acta Horticulturae 691

Nautiyal, S. (2013) ‘A trantition from wood fuel to LPG and its impact on energy conservation and health in the central Himalayas,’ India Journal of Mountain Science,10(50), pp 898-912

Payen, S., Basset-Mens, C., and Perret, S. (2014) LCA of local and imported tomato: an energy and water trade-off”, Journal of Cleaner

Production, 87, pp 1-10

Rosing, L., and Nielsen, A.M. (2003) ‘When a hole matters - the story of the hole in a bread fro French hotdog,’ Proceedings of the Fourth International Conference on Life Cycle Assessment in the Agri-Food Sector, Bygholm, Denmark

Roy, P., Nei, D., Orikasa, T., Xu, Q., Okadome, H., Nakamura, N., and Shiina, T. (2009) ‘A review of life cycle assessment (LCA) on some food products,’ Jurnal of Food Engineering, 90, pp 1-10

Takamoto, Y., Mitani, Y., Takashio, M., Itoi, K., and Muroyama, K. (2004) ‘Life cycle inventory analysis of a beer production process,’ Master Brewers Association of Americas, 41(4), pp 363–365

Tamami, N.D.B. (2013) ‘Peluang Usaha kuliner Khas Madura Berbahan Singkong pada Agroindustri Keripik Tette di Pamekasan’, Agriekonomika, 2(1), pp 40-48

Widodo, S., Amin, M.M., Sutrisman, A., and Putra A.A. (2017) ‘Design of CO, CO2 and CH4 levels of clean air and hazardous gas monitoring tools in a room based on microcontrollers’, Jurnal Pseudocode, 4(2), pp 105-119. [In Indonesian]

Williams, A.G., Audsley, E., and Sandars, D.L. (2006) ‘Determining the environmental burdens and resource use in the production of agricultural and horticultural commodities,’ In: Main Report, Defra Research Project IS0205, Cranfield University and Defra

WLPGA (2018) Subtituting LPG for wood: carbon and deforestation impact,’ A report to the world LPG association.