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Technologies used in post harvest handling and storage of agriculture products in Nepal. Pragati Shrestha Department of Horticulture and Landscape Architecture. Outline. Background Limitations of post harvest technologies Prevailing postharvest h andling and s torage techniques
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Technologies used in post harvest handling and storage of agriculture products in Nepal PragatiShrestha Department of Horticulture and Landscape Architecture
Outline • Background • Limitations of post harvest technologies • Prevailing postharvest handling and storage techniques • Conclusion
Nepal Area- 147,181 sq. km -56,827 sq. miles
Three Ecological Zones High Hills (> 5000 amsl)- 35% Mid Hills (300- 5000 amsl)- 42% Plain/Terai(60-300 amsl)- 23%
Background • Agriculture contributes 36% of national GDP • Horticultural crops account for 14 % of the total value of the agricultural GDP • Approx. 1,799,973 Mt of vegetable crops are produced from 165,988 ha of land • Horticulture produce highly perishable (15-35% losses at diff. stages) • Commercializing in fruits and vegetables but still lacks consistency
Current Status of Post Harvest Management Hand picking Grading Packing
Marketing Storage
Constraints/ issues of Post harvest Losses • Limited level of production • Small land holdings • Small, scattered, remotely located production pockets with limited access to market centers • Poor post harvest management • Lack of sustainable technologies which result in high cost • Poor physical facilitates • Topography • Inadequate modern technologies and skills
Lower cost small scale storage facilities Improved Cellar Storage
3 sides enclosed by hill • outer and inner wall thickness 30 cm each • Space between wall filled with sand up to 2m height • generally 3 x 3x 3 m3 • a perforated pipe 2.5-5 cm diameter is laid over sand • 1m x 2m door • Bottom door 30 cm x 100 cm covered with wire mesh for fresh air circulation • two ventilators to circulate air • roof maintained 30 -60 cm mud to protect from direct sunlight
Features - Warehouse constructed from locally available materials such as stone, mud and sand - Temperature inside maintained between 4 - 9 0C (40 – 50 0 F) - Humidity between 75 - 90 % - Generally used for apples, mandarins, oranges and sweet oranges -reported up to 120 days of mandarin storage without any quality deterioration and with 11 % storage loss (DOA, 2004)
Features • No energy requirement • Based on principle of evaporative cooling • Made up of brick and sand • Rectangular shape with 75 cm x 50cm x 75 cm • Outer and inner wall separated and filled with sand • Sand frequently watered to maintain the temperature 7 -10 0 C (44.6 – 50 0 F) • Covered by bamboo frame and overlaid by jute matrix which is sprinkled by water to keep moistened • Jute matrix can be further covered to protect from sunlight - reported up to 22 days of mandarin storage without any quality deterioration (NARC, 1997)
Conclusion • Early stage of commercialization • Need proper postharvest management, adoption of standards, selection of appropriate varieties for competitiveness