Evolution and future direction of intensified agriculture in the central mid-hills of Nepal |
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Authors: | Nani Raut Bishal K. Sitaula Jens B. Aune Roshan M. Bajracharya |
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Affiliation: | 1. Department of International Environment and Development Studies (Noragric) , Agricultural University of Norway , PO Box 5001, N-1432 ?s, Norway nani.raut@umb.no;3. Department of International Environment and Development Studies (Noragric) , Agricultural University of Norway , PO Box 5001, N-1432 ?s, Norway;4. Department of Environmental Science and Engineering , Kathmandu University , PO Box 6250, Dhulikhel, Nepal |
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Abstract: | Nepalese mid-hill farmers have shifted from a subsistence-based farming system to an intensified farming system. This paper attempts to describe the evolution of the process of agricultural intensification in the mid-hill region by examining external drivers, trends in fertilizer use, landholding, cropping patterns, irrigation and labour use in the years 1989, 1999 and 2009. Data were obtained by means of structured interviews, focus group discussions, key informant interviews and field observations. The study revealed that modern technology and the involvement of NGOs have facilitated the agricultural intensification process in three ways: (i) by providing access to technology without any financial cost to the farmer, (ii) by increasing the variety and number of crops and encouraging farmers to discontinue crops that had pest problems and (iii) by maximizing the use of chemical fertilizers to increase production. Results showed a significant increase in the application of urea and diammonium phosphate (DAP) and a decrease in the application of farm yard manure (FYM) and muriate of potash from 1989 to 2009 (p < 0.001). The average landholding of 0.76ha in 1989 was reduced to 0.63ha by 2009. The number of crops (rice, maize or millet) cultivated per year increased to at least three crops with the introduction of potatoes and spring rice; however, some crops such as sugarcane and tobacco were not continued as a result of pest problems. Increased nitrogen input could lead to increased N2O emissions; therefore, a better understanding of nitrogen fertilization and quantification of N2O emissions from intensified agriculture is urgently needed to assess the possible environmental impact of input intensification. |
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Keywords: | agricultural intensification DAP FYM N2O potash urea |
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