Efficient use of limited irrigation water is essential for sustaining crop productivity in water-scarce regions of Ethiopia. Onion (Allium cepa L.), a high-value horticultural crop, is widely cultivated under small-scale irrigation systems, yet its production is often constrained by inefficient water management. This study evaluated the effects of three furrow irrigation methods — Alternative Furrow Irrigation (AFI), Fixed Furrow Irrigation (FFI), and Conventional Furrow Irrigation (CFI) — combined with three irrigation levels (50%, 70%, and 100% ETc) on the growth, yield, and water use efficiency of onion in the Jimma Zone of southwestern Oromia. A randomized complete block design with three replications was used over two cropping seasons. The results demonstrated that irrigation method and irrigation level had significant impacts on key agronomic traits, bulb yield components, and water use efficiencies. The highest marketable bulb yields were obtained from CFI100% ETc (9.3 t/ha) and CFI70% ETc, followed closely by AFI100% ETc (8.7 t/ha), which produced statistically comparable yields while using 50% less irrigation water. Deficit irrigation under AFI showed remarkable water-saving benefits without substantial yield penalties. AFI50% ETc and AFI70% ETc produced moderate yields but achieved the highest irrigation water use efficiency (IWUE) and crop water use efficiency (CWUE), reaching 74.37 kg/mm and 55.73 kg/m3, respectively. In contrast, FFI50% ETc produced the lowest yield performance due to prolonged water stress in non-irrigated furrows. Overall, AFI100% ETc provided the best balance between high yield and efficient water use, demonstrating its suitability for water-limited environments. The findings suggest that AFI, particularly at full irrigation, can serve as a sustainable alternative to conventional furrow irrigation, helping farmers optimize water productivity without compromising crop output. The study recommends wider adoption of AFI100% ETc in regions facing irrigation water shortages.
| Published in | Science Futures (Volume 1, Issue 1) |
| DOI | 10.11648/j.scif.20250101.23 |
| Page(s) | 115-126 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2025. Published by Science Publishing Group |
Furrow Irrigation Methods, Deficit Irrigation, Crop Water Use Efficiency (CWUE), Irrigation Water Use Efficiency (IWUE), Water-scarce Regions
| [1] | Rajwade, V. B., Banafar, R. N. S., & Pathak, A. C. (2000). Growth analysis of potato about biodynamic package and organic manures with chemical fertilizers. Journal of the Indian Potato Association, 27(1-2), 55–58. |
| [2] | Innocent, N., & Science, A. (2014). Onion production in tropical Africa: a review. Journal of Horticulture and Forestry, 6(4), 35-42. |
| [3] | Nigussie, A., et al. (2015). Onion production for income generation in small-scale irrigation users' agropastoral households of Ethiopia. |
| [4] | English, M. J. (1990). Deficit irrigation. I: Analytical framework. Journal of Irrigation and Drainage Engineering, 116(3), 399-412. |
| [5] | Karda, B., Miglani, S., & Sarangal, P. (1999). Water use efficiency of deficit irrigation about soil moisture and crop growth. Field Crops Research, 63(1), 1-10. |
| [6] | Karda, B. (2000). Deficit irrigation and water use efficiency in arid regions. Agricultural Water Management, 45(2), 107-121. |
| [7] | Karam, F., Breidy, J., Stephan, C., & Rouphael, Y. (2005). Evapotranspiration, yield, and water use efficiency of drip irrigated corn in the Bekaa Valley of Lebanon. Agricultural Water Management, 72(3), 237-249. |
| [8] | Kirnak, H., Kaya, C., Tas, I., & Higgs, D. (2002). The influence of water deficit on vegetative growth, physiology, fruit yield, and quality in eggplants. Bulgarian Journal of Plant Physiology, 28(1-2), 34-46. |
| [9] | Bekele, S., & Tilehun, K. (2007). Regulated deficit irrigation scheduling of onion in a semiarid region of Ethiopia. Agricultural water management, 89(1-2), 148-152. |
| [10] | Nigatu, T., Sharma, J. J., & Tefera, T. (2010). Deficit irrigation and planting density of onion (Allium cepa L.) in a semiarid region of Ethiopia. Journal of Horticulture and Forestry, 2(8), 154-162. |
| [11] | FAO (2002). The state of food and agriculture 2002: The role of irrigation in food security. Food and Agriculture Organization of the United Nations, Rome. |
| [12] | Zhang, H., & Oweis, T. (1999). Water-yield relations and optimal irrigation scheduling of wheat in the Mediterranean region. Agricultural Water Management, 38(3), 195-211. |
| [13] | Getachew, T., Yilma, T., & Asefa, M. (2011). Onion production for income generation in small-scale irrigation users in agropastoral households of Ethiopia. Agricultural Systems, 104(7), 493-501. |
| [14] | Allen, R. G., Pereira, L. S., Raes, D., & Smith, M. (1998). Crop evapotranspiration: Guidelines for computing crop water requirements. FAO Irrigation and Drainage Paper No. 56. Food and Agriculture Organization of the United Nations (FAO), Rome, Italy. |
| [15] | Waller, R. A., & Duncan, D. B. (1969). A Bayes rule for the symmetric multiple comparisons problem. Journal of the American Statistical Association, 64(325), 1484-1503. |
| [16] | Gebre, H., Mekonnen, W., & Teshale, A. (2017). Effects of different irrigation regimes on the yield and quality of onion in a semiarid area. Ethiopian Journal of Agricultural Sciences, 25(1), 89-100. |
| [17] | Teshome, G., & Mekuria, W. (2019). Regulated deficit irrigation scheduling of onion in a semiarid region of Ethiopia. Agricultural Water Management, 89(1-2), 148-152. |
| [18] | Alemayehu, T., Teshome, M., & Admasu, T. (2020). Impact of deficit irrigation on yield and water productivity of onion (Allium cepa L.) in the semiarid region of Ethiopia. Journal of Agricultural Science and Technology, 16, 1291-1301. |
| [19] | Girma, H., Gebrehiwot, M., & Desalegn, A. (2019). Effect of different irrigation regimes on growth and yield of onion (Allium cepa L.) under drip irrigation. Ethiopian Journal of Agricultural Sciences, 25(1), 89-100. |
| [20] | Meena, R., Singh, P., & Verma, S. (2023). Improving irrigation strategies for onion yield under water-limited conditions. Journal of Irrigation Science, 42(2), 90–105. |
| [21] | Kumar, A., Patel, N., & Sharma, R. (2023). Impact of irrigation techniques on bulb crop performance and nutrient uptake. Journal of Agricultural Water Management, 150, 175-190. |
| [22] | Chaves, M. M., Pereira, J. S., Maroco, J., Rodrigues, M. L., Ricardo, C. P. P., Osório, M. L., & Pinheiro, C. (2002). How plants cope with water stress in the field: Photosynthesis and growth. Annals of Botany, 89(7), 907-916. |
| [23] | Shahrokhnia, M. H., & Sepaskhah, A. R. (2013). Single and dual crop coefficients and crop water requirement for wheat and maize in a semi-arid region. Agricultural Water Management, 120, 10-18. |
| [24] | Hadi, M., & Hussain, A. (2023). Impact of irrigation strategies on leaf morphology and crop performance under water-limited conditions. Journal of Irrigation Science, 41(1), 45-58. |
| [25] | Rana, R., Kumar, N., & Singh, V. (2023). Effect of water management practices on leaf development and yield in onion crops. Agricultural Water Management, 130, 125-140. |
| [26] | Sharma, R., & Patel, N. (2023). Irrigation techniques and their influence on crop morphology and yield stability. Journal of Agronomy and Crop Science, 209(3), 314-329. |
| [27] | Tardieu, F., Granier, C., & Muller, B. (2006). Water deficit and growth. Coordination of cell proliferation and expansion in response to changes in plant water status. Planta, 223(4), 1-11. |
| [28] | Bhatt, R., Singh, K., & Chauhan, H. (2023). Effect of irrigation regimes on the yield and quality of bulb crops in arid regions. Agricultural Sciences Journal, 27(2), 89-104. |
| [29] | Singh, P., Kumar, S., & Yadav, R. (2022). Influence of water management practices on bulb yield and quality parameters. International Journal of Agronomy, 2022, 1-12. |
| [30] | Ferreira, T. C., Gonçalves, D. A., & Silva, M. A. (2015). Water stress effects on the growth and yield of bulb crops. Journal of Crop Production, 18(3), 245-260. |
| [31] | Ali, M., Hussain, F., & Khan, S. (2023). Effect of irrigation strategies on yield and marketability of onion bulbs. Agricultural Water Management, 160, 100-115. |
| [32] | Geerts, S., & Raes, D. (2009). Deficit irrigation as an on-farm strategy to maximize crop water productivity in dry areas. Agricultural Water Management, 96(9), 1275-1284. |
| [33] | Verma, S., Singh, A., & Yadav, P. (2023). Critical irrigation periods and their impact on bulb yield and quality. International Journal of Agronomy and Crop Science, 32(1), 85-100. |
| [34] | Ahmadi, S. H., & Bahrani, M. J. (2009). Yield and water use efficiency of forage corn as affected by deficit irrigation. Agricultural Water Management, 96(11), 1615-1620. |
| [35] | Sadras, V. O. (2009). Does partial root-zone drying improve irrigation water productivity in the field? A meta-analysis. Irrigation Science, 27(3), 183-190. |
| [36] | Zhang, H., Oweis, T. Y., & Paredes, P. (2013). Water use efficiency and yield of deficit-irrigated crops in a semi-arid environment. Agricultural Water Management, 117, 1-1. |
| [37] | Ilmi, A. D., Kebede, A., & Hordofa, T. (2025). Effect of water application level on garlic (Allium sativum L.) under different furrow irrigation systems, in Tiyo District, Central Ethiopia. Mediterranean Journal of Basic and Applied Sciences, 9(1), 77–99. |
| [38] | Ilmi, A. D. (2025). The role of deficit irrigation in enhancing water use efficiency in garlic (Allium sativum) production, Central Ethiopia's Tiyo District. International Interdisciplinary Journal of Scientific Research, 9(3), 35–45. |
| [39] | Ilmi, A. D. (2025). Optimizing garlic yield through furrow irrigation systems and deficit irrigation in Central Ethiopia, Tiyo District. Journal of Water Resources and Ocean Science, 14(3), 60–69. |
APA Style
Ilmi, A. D., Maru, R. A. (2025). Evaluation of Alternative, Fixed, and Conventional Furrow Irrigation on the Yield of Onion, Jimma Zone South Western Oromia. Science Futures, 1(1), 115-126. https://doi.org/10.11648/j.scif.20250101.23
ACS Style
Ilmi, A. D.; Maru, R. A. Evaluation of Alternative, Fixed, and Conventional Furrow Irrigation on the Yield of Onion, Jimma Zone South Western Oromia. Sci. Futures 2025, 1(1), 115-126. doi: 10.11648/j.scif.20250101.23
Share This Article
Twitter
Linked In
Facebook
Copy
Download@article{10.11648/j.scif.20250101.23,
author = {Abu Dedo Ilmi and Roba Adugna Maru},
title = {Evaluation of Alternative, Fixed, and Conventional Furrow Irrigation on the Yield of Onion, Jimma Zone South Western Oromia},
journal = {Science Futures},
volume = {1},
number = {1},
pages = {115-126},
doi = {10.11648/j.scif.20250101.23},
url = {https://doi.org/10.11648/j.scif.20250101.23},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.scif.20250101.23},
abstract = {Efficient use of limited irrigation water is essential for sustaining crop productivity in water-scarce regions of Ethiopia. Onion (Allium cepa L.), a high-value horticultural crop, is widely cultivated under small-scale irrigation systems, yet its production is often constrained by inefficient water management. This study evaluated the effects of three furrow irrigation methods — Alternative Furrow Irrigation (AFI), Fixed Furrow Irrigation (FFI), and Conventional Furrow Irrigation (CFI) — combined with three irrigation levels (50%, 70%, and 100% ETc) on the growth, yield, and water use efficiency of onion in the Jimma Zone of southwestern Oromia. A randomized complete block design with three replications was used over two cropping seasons. The results demonstrated that irrigation method and irrigation level had significant impacts on key agronomic traits, bulb yield components, and water use efficiencies. The highest marketable bulb yields were obtained from CFI100% ETc (9.3 t/ha) and CFI70% ETc, followed closely by AFI100% ETc (8.7 t/ha), which produced statistically comparable yields while using 50% less irrigation water. Deficit irrigation under AFI showed remarkable water-saving benefits without substantial yield penalties. AFI50% ETc and AFI70% ETc produced moderate yields but achieved the highest irrigation water use efficiency (IWUE) and crop water use efficiency (CWUE), reaching 74.37 kg/mm and 55.73 kg/m3, respectively. In contrast, FFI50% ETc produced the lowest yield performance due to prolonged water stress in non-irrigated furrows. Overall, AFI100% ETc provided the best balance between high yield and efficient water use, demonstrating its suitability for water-limited environments. The findings suggest that AFI, particularly at full irrigation, can serve as a sustainable alternative to conventional furrow irrigation, helping farmers optimize water productivity without compromising crop output. The study recommends wider adoption of AFI100% ETc in regions facing irrigation water shortages.},
year = {2025}
}
TY - JOUR T1 - Evaluation of Alternative, Fixed, and Conventional Furrow Irrigation on the Yield of Onion, Jimma Zone South Western Oromia AU - Abu Dedo Ilmi AU - Roba Adugna Maru Y1 - 2025/12/19 PY - 2025 N1 - https://doi.org/10.11648/j.scif.20250101.23 DO - 10.11648/j.scif.20250101.23 T2 - Science Futures JF - Science Futures JO - Science Futures SP - 115 EP - 126 PB - Science Publishing Group UR - https://doi.org/10.11648/j.scif.20250101.23 AB - Efficient use of limited irrigation water is essential for sustaining crop productivity in water-scarce regions of Ethiopia. Onion (Allium cepa L.), a high-value horticultural crop, is widely cultivated under small-scale irrigation systems, yet its production is often constrained by inefficient water management. This study evaluated the effects of three furrow irrigation methods — Alternative Furrow Irrigation (AFI), Fixed Furrow Irrigation (FFI), and Conventional Furrow Irrigation (CFI) — combined with three irrigation levels (50%, 70%, and 100% ETc) on the growth, yield, and water use efficiency of onion in the Jimma Zone of southwestern Oromia. A randomized complete block design with three replications was used over two cropping seasons. The results demonstrated that irrigation method and irrigation level had significant impacts on key agronomic traits, bulb yield components, and water use efficiencies. The highest marketable bulb yields were obtained from CFI100% ETc (9.3 t/ha) and CFI70% ETc, followed closely by AFI100% ETc (8.7 t/ha), which produced statistically comparable yields while using 50% less irrigation water. Deficit irrigation under AFI showed remarkable water-saving benefits without substantial yield penalties. AFI50% ETc and AFI70% ETc produced moderate yields but achieved the highest irrigation water use efficiency (IWUE) and crop water use efficiency (CWUE), reaching 74.37 kg/mm and 55.73 kg/m3, respectively. In contrast, FFI50% ETc produced the lowest yield performance due to prolonged water stress in non-irrigated furrows. Overall, AFI100% ETc provided the best balance between high yield and efficient water use, demonstrating its suitability for water-limited environments. The findings suggest that AFI, particularly at full irrigation, can serve as a sustainable alternative to conventional furrow irrigation, helping farmers optimize water productivity without compromising crop output. The study recommends wider adoption of AFI100% ETc in regions facing irrigation water shortages. VL - 1 IS - 1 ER -
Oromia Agricultural Research Institute, Jimma Agricultural Engineering Research Center, Jimma, Ethiopia
Oromia Agricultural Research Institute, Jimma Agricultural Engineering Research Center, Jimma, Ethiopia
Information