Abstract
An improved fallow experiment was established in 2013 to examine the contribution of shrub legume species, Tephrosia vogelii and Cajanus cajan, in improving the productivity of a degraded tropical soil and crop yields compared with traditional fallow. The study was conducted on five farmers’ fields in southwestern Ethiopia laid out in randomized complete block design with farmers as replicates. After 2 years, the amount of aboveground biomass produced was 5–8 t ha−1 for Tephrosia and 3–5 t ha−1 for Cajanus. Maize grain yield was 80% higher for Tephrosia and 41% for Cajanus compared with the traditional fallow. The legume species significantly increased soil pH, organic carbon and total nitrogen levels compared with the natural fallow but there was no significant effect for available phosphorus. The magnitude of fallow benefit from Tephrosia in terms of yield advantage and nitrogen availability could be related to its high biomass production capacity compared to Cajanus. Fallowing with Tephrosia has the potential for improving productivity of degraded tropical soils. Farmers’ responses to the improved fallows were in general positive and their preference was Tephrosia fallow. Farmers can therefore use Tephrosia to enhance soil fertility by increasing N-levels, soil pH and organic matter of the soil. However, phosphate fertilizer is required as basal application to enhance N-fixation by legumes.
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Acknowledgments
This study was part of the CASCAPE Joint Ethio-Netherlands project for increasing agricultural productivity in Ethiopia. The CASCAPE project is funded by the Dutch Ministry of Foreign Affairs through the Embassy of the Kingdom of The Netherlands in Addis Ababa, Ethiopia. The support of the project team and the contribution of BoA experts at district and sub-district level in managing experimental plots are highly appreciated.
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Mamuye, M., Nebiyu, A., Elias, E. et al. Short-term improved fallows of Tephrosia vogelii and Cajanus cajan enhanced maize productivity and soil chemical properties of a degraded fallow land in Southwestern Ethiopia. Agroforest Syst 94, 1681–1691 (2020). https://doi.org/10.1007/s10457-020-00485-7
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DOI: https://doi.org/10.1007/s10457-020-00485-7