Post on 09-Jan-2016
description
Aflatoxins in Ethiopia
Alemayehu Chala (PhD, Hawassa University)Usha Kulkarni (PhD, Mekelle University)
Background
18 major and 49 sub agro-ecological zones
Various crops are produced
Total crop production (2008/09)
17.12 million tones on 12.4 million ha (11.3% of total area)
2
Very low productivity
Ethiopia
Total crop production (2010/11)
22.5 million tones on 13.5 million ha
EARO, 1999
04/21/23
Aflatoxins affect at all levels of value chain Aflatoxins affect at all levels of value chain systems systems
Status of Aflatoxin in Ethiopia Endemic in the country, due to predisposing pre and post harvest
factors:◦ Frequent end season drought (soil water stress)◦ Lack of resistant varieties???◦ Harvesting methods ◦ Storage facility and conditions (sanitary level, pest, moisture level….)
Low or limited knowledge of Aflatoxin by value chain actors
Lack of regulation framework and monitoring facilities both at National and Regional level- Zero protocols, standards and regulations
Limited research/lab facilities and trained personnel
Institutions with food safety related activities
• Ministry of Agriculture• Ministry of Health• Ethiopian Standards Authority• Institute of Nutrition• Food processing industry • Universities and research institutes
Recent activities in Ethiopia
- Survey
- Laboratory analysis of samples- Mycological
- Toxin analysis
- Field experiments
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Laboratory capacity
• Hilina Food Processing Company• Ethiopian Standards Authority• Nutrition Institute• Universities??
Earlier reports
• A mean levels of aflatoxin B1 of 34.7 and 105 µg/kg in samples of groundnut and peanut butter, respectively (Besrat & Gebre, 1981)
• Aflatoxin levels of 5 to 250 µg/kg in groundnut seeds (Ayalew et al., 1995).
District Positive sample
Negative sample
Total
Babile 34 5 39
Darolabu 35 5 40
Gursum 24 17 41
Total 93 27 120
Total aflatoxin contamination of samples from East Ethiopia (Chala et al., 2013)
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Aflatoxin concentration in groundnut samples from East Ethiopia (Chala et al., 2013)
District Store (µg/kg) Market (µg/kg)
Babile 293 - 11,865 15 - 9765
Darolabu 15 - 4939 15 - 1977
Gursum 15 - 5563 16 - 10087
EU limit: 4 µg/kg
FAO/WHO: 15 (µg/kg)
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Total aflatoxin level in selected groundnut varieties in southern Ethiopia (Chala et al., 2012)
Aflatoxin (ppb)
Variety No. of fields Range Mean
NC-4x 6 0-2.13 0.78
NC-343 5 0.66-3.14 1.71
Roba 6 0-5.97 2.04
Sedi 9 0-2.96 0.62
Lote 7 0-2.68 0.85
Bulki 7 0-12.71 3.01
Werer-961 6 0-14.81 2.96
Werer-962 5 0-7.36 2.33
Werer-963 5 0-1.82 0.30
Werer-964 7 0-4.72 1.80
Tole-1 9 0-3.38 0.57
Tole-2 6 0-3.14 0.77
Fayo 5 0-14.08 3.85
Fetan 6 0-7.86 2.7404/21/23 11
Conclusion and recommendation
• Total aflatoxin recorded from each of the survey districts exceeds international standards
• The current results should also serve as a wakeup call to create awareness on the aflatoxin problem in the country and possible remedies
• Such studies will contribute to understand the full extent of the problem and also to work on appropriate control measures
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• Regular monitoring/ surveillance is needed– PACA’s role
• Contribute in developing standard protocols for the region
• More awareness creation to improve the perception towards toxigenic fungi and associated mycotoxins
Conclusion and recommendation cont.
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Conclusion and recommendation cont.
• Focus on
– Adjusting planting and harvesting dates
– Sanitation of fields and stores
– Sorting out damaged kernels
– Proper storage conditions
– Biological control
• Education and regulation for safe groundnut production and
processing
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Metabolites present in sorghum samples (N=70 for Sorghum and 34 for finger millets)
Analyte Sorghum Finger millet
Major mycotoxins and derivatives 16 11Fusarium metabolites 17 13Aflatoxin precursors 8 8Alternaria metabolites 6 6Other Aspergillus metabolites 11 7Penicillium metabolites 11 5Unspefic metabolites 11 8Bacterial metabolites 4 4Total 84 62
Opportunities and Invitation to PACA• Design a model of integrating Agriculture, Nutrition and Public
Health (consumption level) and Hospital based strategies to combat Aflatoxins
• Private Public Partnership /investments in sophisticated infrastructure to manage outbreaks, monitor health risks, establish regulations and standards
• Role of universities in PACA- Systematic research and dissemination• Filling up Critical Capacity Buildings in the area of FOOD SAFETY; • Deepening of awareness of all stakeholders right from communities
to Policy makers ; Awareness creations• Strategies for Integrated approach to develop capacity of Health
Extension Workers & Agriculture Extension Workers• Assessment
Aflatoxins Control in Ethiopia from Nutrition and Health Perspective• Nutrition Education Programs and capacity building of Health Extension
Workers and mothers development army at the community level• Behavior change Communication strategies and IEC materials
combined with Awareness Creation campaigns • Inclusion of course materials on dangers of Aflatoxins on children,
Opportunistic infections with HIV aids into Public health/Nutrition curriculum
• Nutrition Screening, cooking/recipe demonstration and low cost diagnostic nutrition and food science lab in conjunction with Agriculture research in Aflatoxins
• Designing One Health Concept: Human and Animal Nutrition to control • Hospital based studies in determining aflatoxin level using human
blood biomarkers
Thank You