Response of Carrot (Daucus carota L.) to Supplementary Irrigation under Rain-Fed Agriculture at Jimma and Gera, Jimma Zone, South West Ethiopia

IF 1.8 Q2 AGRONOMY

Advances in Agriculture Pub Date : 2024-01-25 DOI:10.1155/2024/3976619

Etefa Tilahun Ashine, Minda Tadesse Bedane, Adissu Asefa Mengesha

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引用次数: 0

Abstract

Evaluating supplementary irrigation under rain-fed agriculture could help to determine the amount of water depth for water management and increasing productivity. Thus, this study was conducted at the Jimma and Gera to determine the effect of supplementary irrigation (SI) on carrot production. Eight treatments with three replications on a field plot of 9 m2 were used for conducting the experiment. Crop water requirement (ETc) was calculated from reference evapotranspiration (ETo) and crop coefficient (Kc) using CropWat 8.0 software. Yield and yield component data were collected from the field and analyzed using the statistical analysis system (SAS) software 9.0. The result revealed that root shoulder diameter, fresh biomass, and fresh root weight had significant (p <0.05) effects between the treatments, but there was no significant difference (p >0.05) between treatments on plant height and carrot root length at both locations. The highest and lowest plant heights were recorded at 75% SI and at a rain-fed treatment. A root shoulder diameters of 38.37 and 37.86 mm were recorded at Jimma and Gera, respectively, from the application of 75% and two SI at flowering and fruit setting treatment. The application of 75% SI gave the highest root length. A maximum fresh biomass of 3,038.6 kg/ha was obtained at 75% SI, and a minimum fresh biomass of 1,640.00 kg/ha was recorded from the rain-fed treatment at JARC. Application of 75% SI gave the maximum fresh biomass (2,388.9 kg/ha) at Gera, and a minimum fresh biomass of 1,277.8 kg/ha was recorded from rain fed. An application of 75% SI gave the highest fresh root weight of 7,430.6 kg/ha at JARC. In the study, the application of 75% SI gave the highest (6,388.9 kg/ha) fresh root weight, and the lowest was recorded at rain fed (3,883.3 kg/ha). Therefore, for optimum production, 75% SI was recommended for the production of carrots. The total net benefit from the production of carrots was in the range of 36,659–46,950 ETB per hectare at Jimma and from 24,828 up to 39,399 ETB per hectar at Gera. The maximum and minimum marginal return rate (MRR) at Jimma were 300.97%, which is at 75% SI and 43.69%, which is at 25% supplementary irrigation, respectively. At Gera, the maximum and minimum MRR were 490.95%, which were at 25% supplementary irrigation, and the minimum was 23.18%, which was at full supplementary irrigation. Therefore, to get an economic benefit, supplementing carrot crop at 75% irrigation was recommended for both Gera and JARC.

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埃塞俄比亚西南部吉马区吉马和格拉雨养农业下胡萝卜（Daucus carota L.）对补充灌溉的反应

对雨水灌溉农业的补充灌溉进行评估，有助于确定水的深度，以进行水资源管理并提高生产率。因此，本研究在吉马和格拉进行，以确定补充灌溉（SI）对胡萝卜产量的影响。在一块 9 平方米的田块上进行了 8 个处理 3 次重复的试验。使用 CropWat 8.0 软件根据参考蒸散量（ETo）和作物系数（Kc）计算作物需水量（ETc）。从田间收集了产量和产量成分数据，并使用统计分析系统（SAS）软件 9.0 进行分析。结果表明，两地处理间的根肩直径、新鲜生物量和新鲜根重对植株高度和胡萝卜根长的影响显著（P 0.05）。75% SI 和雨水灌溉处理的植株高度最高，植株高度最低。在吉马和格拉，开花期和坐果期施用 75% SI 和两种 SI 的根肩直径分别为 38.37 毫米和 37.86 毫米。施用 75% SI 的根长最高。在 75% SI 处理中，新鲜生物量最高达 3,038.6 千克/公顷，而在 JARC 的雨水灌溉处理中，新鲜生物量最低为 1,640.00 千克/公顷。在 Gera，施用 75% SI 可获得最大新鲜生物量（2,388.9 千克/公顷），而雨水灌溉可获得最小新鲜生物量（1,277.8 千克/公顷）。在 JARC，施用 75% SI 可获得最高的鲜根重（7,430.6 公斤/公顷）。在这项研究中，施用 75% SI 可获得最高（6388.9 千克/公顷）的鲜根重量，而雨水灌溉的鲜根重量最低（3883.3 千克/公顷）。因此，为了获得最佳产量，建议在胡萝卜生产中使用 75% 的 SI。在吉马，胡萝卜生产的总净收益为每公顷 36 659-46 950 英镑，在格拉，则为每公顷 24 828-39 399 英镑。吉马的最高和最低边际收益率（MRR）分别为 300.97%（75% SI）和 43.69%（25% 补充灌溉）。在格拉，最大和最小边际收益率分别为 490.95%（补充灌溉 25%）和 23.18%（完全补充灌溉）。因此，为了获得经济效益，建议 Gera 和 JARC 的胡萝卜作物补充 75% 的灌溉。

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来源期刊

Advances in Agriculture Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)

CiteScore

2.60

自引率

0.00%

发文量

100

审稿时长

18 weeks