Cassava consumption and the occurrence of cyanide in cassava in Vietnam, Indonesia and Philippines

1.Food and Agriculture Organization, World Food Programme & International Fund for Agricultural Development (2018) The state of food security and nutrition in the world 2018 – UNICEF DATA. https://data.unicef.org/resources/sofi-2018/ (accessed November 2018).

2.Langendorf, C, Roederer, T, de Pee, Set al. (2014) Preventing acute malnutrition among young children in crises: a prospective intervention study in Niger. PLoS Med 11, e1001714.

3.Wakeel, A, Farooq, M, Bashir, Ket al. (2018) Micronutrient malnutrition and biofortification: recent advances and future perspectives. In Plant Micronutrient Use Efficiency, pp. 225244 [Wakeel, A, Farooq, M, Bashir, Ket al., editors]. London: Elsevier.

5.Howeler, R, Thomas, N, Holst Sanjuán, Ket al. (2013) Save and Grow: Cassava. A Guide to Sustainable Production Intensification, Produire Plus Avec Moins, Ahorrar Para Crecer. Roma, Italy: FAO.

7.Barratt, N, Chitundu, D, Dover, Oet al. (2006) Cassava as drought insurance: food security implications of cassava trials in Central Zambia. Agrekon 45, 106123.

9.Riis, L, Bellotti, AC, Bonierbale, Met al. (2003) Cyanogenic potential in cassava and its influence on a generalist insect herbivore Cyrtomenus bergi (Hemiptera: cydnidae). J Econ Entomol 96, 19051914.

10.Bennet, RN & Wallsgrove, RM (1994) Secondary metabolites in plant defence mechanisms. New Phytol 127, 617633.

11.Cliff, J, Muquingue, H, Nhassico, Det al. (2011) Konzo and continuing cyanide intoxication from cassava in Mozambique. Food Chem Toxicol 49, 631635.

13.McMahon, JM, White, WLB & Sayre, RT (1995) Cyanogenesis in cassava (Manihot esculenta Crantz). J Exp Bot 46, 731741.

14.Mlingi, N, Poulter, N & Rosling, H (1992) An outbreak of acute intoxications from consumption of insufficiently processed cassava in Tanzania. Nutr Res 12, 677687.

15.Banea-Mayambu, JP, Tylleskär, T, Tylleskär, Ket al. (2000) Dietary cyanide from insufficiently processed cassava and growth retardation in children in the Democratic Republic of Congo (formerly Zaire). Ann Trop Paediatr 20, 3440.

16.Codex Alimentarius Commission (2009) Joint FAO/WHO Food Standards Programme. Codex Committee on Contaminants in Foods, 3rd Session. Discussion paper on cyanogenic glycosides. 9, 23.

17.World Health Organization (2011) Evaluation of Certain Food Additives and Contaminants: Seventy-fourth (74th) Report of the Joint FAO/WHO Expert Committee on Food Additives (JECFA). WHO Technical Report Series no. 966. Geneva: WHO. https://apps.who.int/iris/handle/10665/44788 (accessed November 2018).

18.Brimer, L (2010) Cyanogenic glycosides in food, feeding stuffs and green medicine. In Bioactive Compounds in Plants Benefits and Risks for Man and Animals, pp. 125143 [Bernhoft, A, editor]. Proceedings from a symposium held at the Norwegian Academy of Science and Letters, Oslo, 13–14 November 2008.

19.Vietnamese National Institute of Nutrition (2010) General Nutrition Survey 2009–2010. Hanoi, Vietnam: Medical Publishing House.

20.National Socioeconomic Survey (2014) Consumption of Calorie and Protein of Indonesia and Province. Jakarta, Indonesia: Badan Pusat Statistik.

21.Bureau of Agricultural Statistics (2012) Annual Per Capita Consumption of Agricultural Commodities, Provinces, Reference Period and Classification of Baragays Statistics. http://countrystat.psa.gov.ph/selection.asp (accessed November 2018).

23.Djazuli, M & Bradbury, JH (1999) Cyanogen content of cassava roots and flour in Indonesia. Food Chem 65, 523525.

24.Food and Agriculture Organization/World Health Organization (2013) Codex standard for sweet cassava. Food and Agriculture Organization and World Health Organization of the United Nations, Rome, Italy 238–2003, 1–4.

25.Ayetigbo, O, Latif, S, Abass, Aet al. (2018) Comparing characteristics of root, flour and starch of biofortified yellow-flesh and white-flesh cassava variants, and sustainability considerations: a review. Sustainability 10, 132.

26.Hidayat, A, Zuaraida, N, Hanarida, Iet al. (2000) Cyanogenic content of cassava root of 179 cultivars grown in Indonesia. J Food Compos Anal 13, 7182.

27.O’Brien, GM, Ong, YL, Koh, RANet al. (2018) Snapshot Survey of the Cyanogenic Potential of Fresh Cassava Roots on Retail Sale in Singapore. Cassava Transformation in Africa. IVth International Cassava Conference – GCP21-IV, Cotonou, Benin. http://www.gcp21.org/beninconference/ (accessed November 2018).
28.O’Brien, GM, Toh, KH, Lim, BJet al. (2018) Snapshot Survey of the Cyanogenic Potential of Cassava Products on Retail Sale in Singapore. Cassava Transformation in Africa. IVth International Cassava Conference – GCP21-IV, Cotonou, Benin. http://www.gcp21.org/beninconference/video.html (accessed November 2018).

29.Yeoh, HH & Truong, VD (1993) Quantitative analysis of Linamarin in cassava using a cassava β-glucosidase electrode. Food Chem 47, 295298.

30.Burns, AE, Bradbury, JH, Cavagnaro, TRet al. (2012) Total cyanide content of cassava food products in Australia. J Food Compos Anal 25, 7982.

31.Ogle, BM, Hung, PH & Tuyet, HT (2001) Significance of wild vegetables in micronutrient intakes of women in Vietnam: an analysis of food variety. Asia Pacific J Clin Nutr 10, 2130.

32.Serra-Majem, L, MacLean, D, Ribas, Let al. (2003) Comparative analysis of nutrition data from national, household, and individual levels: results from a WHO-CINDI collaborative project in Canada, Finland, Poland, and Spain. J Epidemiol Commun Health 57, 7480.

33.Atthasampunna, P (1990) Cassava processing and utilization in Thailand. In Regional Workshop on Cassava Breeding, Agronomy and Utilization Research in Asia (3, 1990, Malang, Indonesia) [RH Howeler, editor]. Cassava Breeding, Agronomy and Utilization Research in Asia: Proceedings.

34.Dixon, J (1979) Production and consumption of cassava in Indonesia. Bull Indones Econ Stud 15, 83106.

35.Mennen, LI, Mbanya, JC, Cade, Jet al. (2000) The habitual diet in rural and urban Cameroon. Eur J Clin Nutr 54, 150154.

37.Edison, S & Srinivas, T (2006) Status of cassava in India an overall view. Crops. Central Tuber Crops Research Institute, Indian Council of Agricultural Research.

38.Nayar, TV, Kabeerathumma, S, Potty, Vet al. (1993) Recent progress in cassava agronomy research in India. In Cassava Breeding, Agronomy Research and Technology Transfer in Asia: Proceedings of the Fourth Regional Workshop held in Trivandrum, Kerala, India.

39.Pingali, P (2007) Westernization of Asian diets and the transformation of food systems: implications for research and policy. Food Policy 32, 281298.

40.Popkin, BM (2001) Nutrition in transition: the changing global nutrition challenge. Asia Pac J Clin Nutr 10, S13S18.

41.Abdullah, S (2014) Local community resilience in the context of global climate change: a case from Maluku Indonesia. Sociol Anthropol 2, 309316.

42.Bureau of Agricultural Statistics (2008) Annual per capita consumption of agricultural commodities, provinces, reference period and classification of Baragays. Statistics. http://countrystat.psa.gov.ph/selection.asp (accessed November 2018).

43.Nhassico, D, Muquingue, H, Cliff, Jet al. (2008) Rising African cassava production, diseases due to high cyanide intake and control measures. J Sci Food Agric 88, 20432049.

44.Armah, FA, Odoi, JO, Yengoh, GTet al. (2011) Food security and climate change in drought-sensitive savanna zones of Ghana. Mitig Adapt Strateg Glob Chang 16, 291306.

45.Sagoe, R (2006) Climate change and root crop production in Ghana. A report prepared for Environmental Protection Agency (EPA), Accra-Ghana.

46.Thompson, FE & Byers, T (1994) Dietary assessment resource manual. J Nutr 124, 2245s2317s.

47.Kowalkowska, J, Slowinska, MA, Slowinski, Det al. (2013) Comparison of a full food-frequency questionnaire with the three-day unweighted food records in young Polish adult women: implications for dietary assessment. Nutrients 5, 27472776.

48.Naska, A, Berg, MA, Cuadrado, Cet al. (2009) Food balance sheet and household budget survey dietary data and mortality patterns in Europe. Br J Nutr 102, 166171.

50.Balagopalan, C (2002) Cassava utilization in food, feed and industry. In Cassava Biology, Production and Utilization, pp. 301318 [Hillocks, RJ, Thresh, JG & Bellotti, AC, editors]. Oxon, UK: CABI Publishing.

51.Howeler, R (2006) Cassava in Asia: trends in cassava production, processing and marketing. Partnership in Modern Science to Develop a Strong Cassava Commercial Sector in Africa and Appropriate Varieties by 2020, pp. 1–38.

52.O’Brien, GM, Weir, RR, Moody, Ket al. (2013) Cyanogenic potential of fresh and frozen cassava on retail sale in three Irish cities: a snapshot survey. Int J Food Sci Technol 48, 18151821.

53.Egan, SV, Yeoh, HH & Bradbury, JH (1998) Simple picrate paper kit for determination of the cyanogenic potential of cassava flour. J Sci Food Agric 76, 3948.

54.Shephard, GS, Burger, HM, Rheeder, JPet al. (2019) The effectiveness of regulatory maximum levels for fumonisin mycotoxins in commercial and subsistence maize crops in South Africa. Food Control 97, 7780.

55.Whankaew, S, Poopear, S, Kanjanawattanawong, Set al. (2011) A genome scan for quantitative trait loci affecting cyanogenic potential of cassava root in an outbred population. BMC Genomics 12, 266277.

56.United Nations International Children’s Emergency Fund/World Health Organization/World bank (2017) Joint Child Malnutrition Estimates – Levels and Trends (2015 edition). World Health Organization.

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