Abstract
Improved irrigation use efficiency is an important tool for intensifying and diversifying agriculture in Nepal, resulting in higher economic yield from irrigated farmlands with a minimum input of water. Research was conducted to evaluate the effect of irrigation method (furrow vs. drip) on the productivity of nutritious fodder species during off-monsoon dry periods in different elevation zones of central Nepal. A split-block factorial design was used. The factors considered were treatment location, fodder crop, and irrigation method. Commonly used local agronomical practices were followed in all respects except irrigation method. Results revealed that location effect was significant (p < 0.01) with highest fodder productivity seen for the middle elevation site, Syangja. Species effects were also significant, with teosinte (Euchlaena mexicana) having higher yield than cowpea (Vigna unguiculata). Irrigation method impacted green biomass yield (higher with furrow irrigation) but both methods yielded similar dry biomass, while water use was 73% less under drip irrigation. Our findings indicated that the controlled application of water through drip irrigation is able to produce acceptable yields of nutritionally dense fodder species during dry seasons, leading to more effective utilization and resource conservation of available land, fertilizer and water. Higher productivity of these nutritional fodders resulted in higher milk productivity for livestock smallholders. The ability to grow fodder crops year-round in lowland and hill regions of Nepal with limited water storages using low-cost, water-efficient drip irrigation may greatly increase livestock productivity and, hence, the economic security of smallholder farmers.
Highlights
Agriculture is one of the most susceptible sectors to climate change [1], with livestock production being the most climate sensitive economic area [2]
One of the major challenges faced by livestock farmers in Nepal is obtaining fodder due to lack of rainfall and water availability outside the monsoon season. We propose that this problem can be minimized by adopting efficient irrigation technologies [18,19], such as drip irrigation, for cultivating nutritious fodder varieties during the dry season
The relative yields were affected by the crop species: Kapilvastu had the highest yield for cowpea, but the lowest yield for teosinte (Table 2)
Summary
Agriculture is one of the most susceptible sectors to climate change [1], with livestock production being the most climate sensitive economic area [2]. Climate change may adversely affect various aspects of livestock production systems including animal health and productivity, fodder production, water availability, pests, and diseases [3]. The livestock sector—an integral part of the mixed farming. Climate 2016, 4, 4; doi:10.3390/cli4010004 www.mdpi.com/journal/climate system of Nepal—isfarmers facing adverse impacts from are climate variability and extremesvulnerable [4,5]. Smallholder [4,5]. Smallholder with low income a large and group. Farmers with low income are a large and vulnerable group
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