Partial Budget Research Articles

Impact of NPSB fertilizer on yield of orange-fleshed sweet potato (Ipomoea batatas (L.) Lam.) varieties in Southern Ethiopia's agro-ecological zones

Root and tuber crops, particularly sweet potatoes, are vital to global food security, yet their potential for enhancing household nutrition and income remains largely untapped. Orange-fleshed sweet potato (OFSP) varieties are rich in pro-vitamin A, crucial for health. Despite their significance in Ethiopia, yields are often low due to inadequate location-specific fertilizer recommendations and limited access to high-yielding varieties. This study aimed to determine the optimal blended NPSB fertilizer rates and high-yielding OFSP varieties in the contrasting environments of Wolaita and Gamo zones, where these crops are staples. We evaluated three OFSP varieties (Alamura, Dilla, and Kabode) and four NPSB rates (0, 79.5, 159, and 238.5 kg ha−1 in a 3x4 factorial experiment using a randomized complete block design (RCBD) with three replications during the 2022 cropping season. Data on root yield and yield components were analyzed using the GLM procedure in SAS 9.2. Partial budget analysis and agronomic efficiency were also computed. Results showed that marketable root yield and root dry matter were significantly affected by the interaction of site, fertilizer rates, and OFSP varieties. The highest marketable root yield (49.84 t ha−1 and net benefit (342,856.6 ETB ha−1) were achieved with the Kabode variety at 238.5 kg NPSB in Arba Minch, while the same variety yielded the highest net benefit from 159 kg NPSB in Areka. The highest agronomic efficiency was recorded at 159 kg NPSB and 79 kg NPSB in Arba Minch (174.71) and Areka (288.67), respectively, indicating a negative relationship between net benefit, agronomic efficiency, and increasing NPSB rates. In conclusion, cultivating the Kabode variety with 159 kg ha−1 NPSB in Arba Minch and 79.5 kg ha−1 NPSB in Areka is recommended for enhancing sweet potato productivity, thereby improving food security and nutritional benefits for smallholder farmers in the region.

Cost of Productions and Partial Budget Analysis of Coffee (<i>Coffea arabica</i> L.) Seedling Across Various Pot Sizes and Biochar-Based Media Preparations

Coffee cultivation mainly lies in the production of coffee seedlings with desirable characteristics under the recommended nursery management operations. Any improper handling made at early stage would remain to cause poor field performances. Biochar is considered as a soil conditioner and a carrier for plant nutrients, which improve the different soil functions, as an amendment to improve soil fertility, soil pH, available phosphorus, organic carbon, and water retention. The experiment was conducted to provide detail information on production costs and gross net profits of reduced sizes poly bag and biochar application used for coffee seedling production under small scale farmers. Biochar to topsoil blended at 1:3 ratio was found to increase (SVI) over the local and standard practice by 66.50% and 7.50%, respectively. Hence, combined effects of reduced pot size (13x19cm) with biochar mixed topsoil 1:3 noticed to significantly improve soil chemical conditions and growth response of coffee seedlings under nursery conditions at the study area. Besides, the result of simple partial budget analysis indicated the cost effectiveness with reduced polybag sizes as compared to the conventional pot sizes, especially for production, transportation and early stage field transplanting of quality coffee seedlings in large quantities. However, it is imperative to assess the effects of the present promising pot size and pot media treatments under field performance by considering growth, yield, and quality performances and profitability to smallholder coffee farmers over locations and year in the study area and other similar agro ecological zones in the country.

Bulb Yield and Economic Return of Onion (Allium cepa L.) as Influenced by the Application of Integrated Nutrient Management at Selekleka, Northwestern Zone of Tigray, North Ethiopia

Onion is an important crop as a condiment and income generation for smallholder farmers in northwestern Zone of Tigray. However, Continuous use of inorganic fertilizers and inappropriate soil fertility management practices are among the major factors limiting onion productivity in the North Western Tigray. Therefore, a field experiment was undertaken in selekleka district from October 2015 to June 2016 to assess the effects of integrated nutrient management on bulb yield and economic return of onion (Allium cepa L.). The treatments consisted of combinations of two rates of farmyard manure (FYM) (10 and 20 t ha-1) and two rates of vermicompost (VC) (2.5 and 5 t ha-1) each combined with three rates of nitrogen (25, 50 and 75) of recommended N fertilizers, RDF. In addition, 100% RDF N (69 kg N ha-1), 100% (5 t ha-1) of VC, 100% (20 t ha-1) FYM and zero rates (unfertilized treatment) were used for comparison. The experiment was laid out in a randomized complete block design with three replications. (ANOVA) revealed that combined application of 5 t ha-1 VC+50% inorganic N fertilizers recorded the highest bulb yield (35.13 t ha-1) and economic return (246,354 Birr ha-1). On the other hand, the lowest bulb yield (18.48 t ha-1) and economic net return (143,018 Birr ha-1) were obtained from the control. It could, thus, be concluded that, based on the partial budget analysis and bulb yield result the application of 5 t ha-1 vermicompost and 50 % recommended inorganic nitrogen was the appropriate combination for better onion production and economic return in the study area.

Introduction to Economic Analysis of Pest Management: Concepts of Partial Budgeting Analysis

Pests have long posed a serious challenge in agricultural ecosystems, inflicting substantial economic losses on a global scale. In agricultural production, pests are often associated with crop yield losses, leading to a reduction in farm profits. This initial publication in the An Introduction to Economic Analysis of Pest Management series aims to educate agricultural producers, Extension agents, and researchers in other disciplines about partial budgeting analysis. Partial budgeting analysis is a fundamental tool widely used to analyze the economic viability of adopting various pest-management strategies.

Effects of NPS Fertilizer Rate on Yield and Yield Components of Bread Wheat Production in Degem District, North Shewa Zone, Oromia, Ethiopia

Productivity of wheat was low due to depleted soil fertility and the blanket use of fertilizers. Fertilizer is the most vital input, contributing significantly to final wheat yields although wheat yields have long been low due to a lack of soil test-based site-specific fertilizer recommendations. This study aimed to determine an economically appropriate rate of NPS fertilizer based on calibrated Phosphorus for bread wheat production in the Degem district. The experiments laid out in randomized complete block design (RCBD) with three replications. The treatments were based on already determined Phosphorous critical and requirement factors and consisted of 100% Pc from TSP fertilizer, 25%, 50%, 75%, and 100% Pc from NPS fertilizer and control (without fertilizer). The phosphorus requirement factor (Pf) (5.85), phosphorus critical (Pc) (22 ppm), and optimum nitrogen optimum nitrogen (92 kg ha<sup>-1</sup>) were used from previous studies. Improved bread wheat variety senete was used at 150 kg/ ha seeds rate. The results of a statistical analysis of variance demonstrated that NPS fertilizer rates based on calibrated phosphorus had significant effects on bread wheat production. Partial budget analysis shows the maximum net benefit (101,570.65 Birr ha<sup>-1</sup>) with an acceptable marginal rate of return (MRR) (932’52 %) through the application of 75% of Pc from NPS with optimum nitrogen fertilizer use. Consequently, 75% Pc from NPS should be used in the Degem district for bread wheat production, with the optimum nitrogen. Thus, further scaled-up and demonstration of the technologies for bread wheat production in the Degem district.

The Collaborative Role of Non-Synthetic Fertilizers on Production of Faba Bean (Vicia faba L.) in Ethiopia's Central Highlands, Ejere District

This study sought to determine how non-synthetic fertilizers collaborated to produce faba bean in the 2019–20 and 2021–2022 cropping seasons in agricultural settings in the Ethiopian district of Ejere. The treatments were laid out in a randomized complete block design with three replications. The collected data were subjected to analysis of variance by SAS statistical platform version 9.3. Means were compared with the Least Significance Difference (LSD) at a 5% probability level. To compute the economic advantage of the intervention, farm get prices of inputs and outputs were considered and marginal rate of return (% MRR) was work out for each treatment, and values ≥100 was set as profitable in absolute terms. The mean outcome of the two years’ worth of data analysis showed that there was substantial (p ≤ 0.05) difference in all parameters among the treatments at Ejere. At Ejere, the treatments (FB-17 + 0.76 ton ha-1 VC), (FB-17+ 0.57 ton ha-1 VC), (0.76 ton ha-1 VC) and (FB-17+ 0.38 ton ha-1 VC) yielded the highest mean GYs (3582kg ha-1), (3535kg ha-1), (3430 kg ha-1) and (3234 kg ha-1), respectively. However, the results of the partial budget analysis showed that the treatments (FB-17) and (FB-17 + 0.57 ton ha-1 VC) had the greater marginal rates of return 7218% and 1148%, respectively. These treatments are thought to be very good candidates for more testing in farmers' fields across various aggro-ecologies in order to determine which ones are the best substitute non-synthetic fertilizers for faba bean production in Ethiopia's Nitisol zones.

Effect of Integrated Application of Vermicompost and Inorganic Fertilizers on Yield and Yield Components of Bread Wheat in Adami Tulu Jido Kombolcha District of East Showa Zone, Ethiopia

A field experiment was conducted at Adami Tulu Agricultural Research Center during 2022 cropping season to evaluate the responses of vermin compost and inorganic fertilizers on bread wheat (Triticum aestivum). The experiment consists of eight treatments: T1= Control (without fertilizer), T2=50% RNP+4t/ha VC, T3= 50% RNP+ 8t/ha VC, T4=100% RNP, T5= 4t/ha VC, T6= 8t/ha VC, T7= 100% RNP+ 4t/ha VC, T8=100% RNP+8t/ha VC. The result revealed that grain yield affected by combined application of these two fertilizes. There are gradual changes in some major soil parameters have statistically affected by combined application of vermin compost and inorganic fertilizer. Accordingly maximum grain yield (4596.3kg/ha) was recorded from T2 where 50% recommended NP+4t/ha VC where as the lowest grain yield (2109.3kg/ka) was from control plot. Lastly partial budget analysis was also calculated to determine best treatment combination for future farther use. Accordingly maximum net benefit (155,870.50ETB) was obtained from T2 where 50% recommended NP+4t/ha VC was combined. Therefore this treatment was used as best treatment combination for this area, for this crop, it needed for large scale soil fertility management and increasing land productivity.

Medium-term economic impacts of cover crop adoption in Maryland

Cover cropping has the potential to generate private economic benefits to farm operations as well as larger-scale environmental benefits to the broader community. However, cover crop adoption remains limited in the United States (US) (i.e., 4.7 % in 2022 (USDA-NASS, 2024)), primarily due to uncertainty in economic outcomes, with several studies showing potentially negative net returns from cover crop use in the short-term (1–3 years). This study investigates the medium-term (5–7 years) economic impact of cover crop adoption using plot-level data from field experiments in the state of Maryland. The empirical analysis employs ordinary least squares (OLS) statistical models and partial budgeting techniques to achieve the study objective. Our results show that cover crops do not have a statistically significant effect on crop yield, fertilizer costs, or pesticide costs, but we find that cover crop use statistically increases field operation and seed expenses. As a result, the private net return from cover crop adoption in the medium term is generally negative based on the Maryland field trial data used in the analysis. Specifically, the average net return per acre with cover crops is approximately $60-$90 lower for corn and around $60 lower for soybeans compared to fields without cover crops. This empirical finding suggests that public support through incentive payments may help further incentivize cover crop adoption in the US, which can then provide environmental and ecosystem services that are of benefit to the general public.

Economic evaluation of corn relative maturity hybrids in corn–pennycress–soybean rotations

AbstractThis manuscript is a follow‐up of previously published results that presented findings on pennycress (Thlaspi arvense L.) establishment and agronomics in response to previous corn (Zea mays L.) relative maturity (CRM) hybrids grown for grain and silage in the corn–pennycress–soybean [Glycine max (L.)] rotations. In this manuscript, we compared the economics of grain corn–pennycress–soybean rotations (grain rotation) with silage corn–pennycress–soybean rotations (silage rotation). The treatments were CRM hybrids ranging from 76 to 95 days (full season) at northern sites (Morris and Rosemount, MN) and 95 to 113 days (full season) at southern sites (Lexington, IL, and Custar, OH). Full‐season corn harvested for silage was included as a control treatment representing optimum conditions for sowing pennycress. A partial budget procedure was used for economic analysis. The results showed that the annualized net benefits (ANBs) ranged from $315 to $945 ha−1. The silage rotation produced greater ANBs than the grain rotation at all sites due to increased pennycress seed yield. In the grain rotation, the 105 days in the south, 95 days corn at Morris, and 86 days corn at Rosemount resulted in minimal ANB losses compared with silage rotation. Among grain corn treatments, some of the early CRM hybrids resulted in greater ANBs (up to 40%) than the full season hybrid. Results demonstrate potential to integrate pennycress into a grain rotation using early CRM hybrids. In addition, valuing the diverse ecosystem benefits that pennycress offers as a cash cover crop during the offseason between corn and soybean rotation may help to attract growers.

Effects of Mela Organics' New Liquid Fertilizer on Tomato Yield in Semi-Arid Areas of Ethiopia

Soil organic matter depletion is mainly caused by crop residue removal, and low or no application of organic fertilizers often results in nutrient exhaustion and low crop yields. This challenge requires the evaluation of different organic fertilizer resources to provide new alternative fertilizer products to an Ethiopian production system. Based on this fact, an experiment was conducted to evaluate the effects of mela organic fertilizer as a supplementary fertilizer to improve the yield of tomatoes under irrigation in the Central Rift Valley of Ethiopia from 2020 to 2021. The experiment consisted of eight treatments (Control, 100% recommended fertilizer, 100% recommended fertilizer + 30 L/ha Mela, 100% recommended fertilizer + 45 L/ha Mela, 75% recommended fertilizer +30 L/ha Mela, 75% recommended fertilizer + 45 L/ha Mela, 50% recommended fertilizer +30 L/ha Mela and 50% recommended fertilizer + 45 L/ha Mela) laid out in randomized complete block design with three replications. The results revealed that the highest agronomic yield was obtained by applying the 100% recommended fertilizer + 30 L/ha Mela. However, based on the partial budget analysis, the highest marginal rate of return was obtained from 50% recommended fertilizer + 45 L/ha Mela. Thus, it can be concluded that the application of Mela Organics up to 45 L/ha, integrated with chemical fertilizer applications, can increase tomatoes' economic yields and reduce fertilizer costs.

Financial impact of low pathogenic avian influenza virus subtype H9N2 on commercial broiler chicken and egg layer production systems in Pakistan

Low Pathogenic Avian Influenza (LPAI) subtype H9N2 is endemic in Pakistan and impacts poultry farming through disease related mortality, poor weight gain and reduced egg production. This study aims to estimate the farm-level financial impact of LPAI H9N2 infection on commercial broiler and layer production systems in Pakistan.A questionnaire based cross-sectional survey of 138 broiler farms and 136 layer farms in Pakistan was conducted in 2019. Primary data collected by cross-sectional survey along with expert opinion and published literature were used to parameterize five stochastic production and gross margin models for three broiler and two layer production systems: fully integrated production (FIP), partially integrated production (PIP) and independent farming production (IP) systems. Partial budget analysis were then carried out to estimate the financial impact of LPAI H9N2.Results indicate that in broiler production systems, starting with 35,000 day old chicks (DOC) per batch, the net cost of disease (million PKR/production cycle) was estimated at 4.10 (14,862 USD), 4.62 (16,747 USD) and 2.46 (8917 USD) for IP, PIP and FIP systems, respectively. The disease produced a negative gross margin (defined here as revenue minus replacement and variable costs) in IP (-53 PKR (-0.19 USD)/DOC bought) and PI (-25 PKR (-0.091 USD)/DOC bought) systems, while remained positive for FIP systems (87 PKR (0.32 USD)/DOC bought). For layer production systems, (mean flock size as 48,000 DOCs) the net cost (million PKR/production cycle) was 29.75 (107,095.21 USD) and 29.51 (106,223.45 USD) IP and PIP systems, respectively, and produced negative gross margin in both systems.The outcomes of the study highlight the vulnerability of independent and partially integrated production systems to the disease. These findings also offer a decision-making tool to the farmers and policy makers to evaluate avian influenza surveillance systems and control interventions in Pakistan.

Response of Potato (Solanum tuberosum L) Varieties to Blended NPSZnB and Potassium Chloride Fertilizers Rates at Assosa District, Western Ethiopia

Potato production is constrained by a number of biotic and abiotic factors, among which poor soil fertility is the prime one. Thus, the objectives of the study were to evaluate effect of NPSZnB plus potassium chloride rates fertilizer on growth performance, yield and yield components of potato and to determine optimum fertilizer rate and economically feasible for potato production at target Assosa areas. The experiment was laid out in RCBD with split plot arrangement with three replications. Two potato varieties, Belete and Gudane were assigned to main plot whereas six blended NPSZnB with potassium chloride fertilizers rates assigned to subplots. Totally, the experiment had twelve treatments. The interaction effects of blended NPSZnB and potassium chloride fertilizers rates not significantly (P>0.05) influenced marketable yield, unmarketable yield and total tuber yield. However, the main effects of blended NPSZnB and potassium chloride fertilizers rates were highly significantly (P<0.01) affected marketable tuber yield. The partial budget analysis was revealed that highest net benefit with acceptable marginal rate of return (1027.27%) was obtained with the application of NPK (110 kg N + 90 kg P2O5 + 69 kg K2O ha-1) fertilizers. We conclude that application of NPK (110 kg N + 90 kg P2O5 + 69 kg K2O ha-1) fertilizers were economically feasible to recommend for potato production in the study area.

Assessing the role of technology transfer and participatory technology development on farmers crop yield and income in Shawa village of Zalingei, Central Darfur State

This study is aiming at assessing the role of technology transfer and participatory technology development on farmers’ crop yield and income in Shawa village of Zalingei locality during 2022/2023 cropping rainy season. Clustered random sampling technique applied. Demonstration farm was established in an area of 1.5 feddan. Farmers field schools (FFSs) of 25 men and women farmers selected. Participatory Technology Development (PTD) for men and women farmers was also developed in an area of 1.5 feddan. Improved seeds will be grown versus local check. Each treatment comprising NPK fertilizer micro dose (0. 0.3, 0.6 and 0.9 gram/ hole) randomly practiced. Fertilizer micro dose with percentage of 17-17-17 was added and mixed with seeds per hole at planting method. All farmers experienced to practical and theoretical farming of FFSs training in all research technical packages of land preparation, sowing date, seed preparation, seed dressing, thinning, weeding, water harvesting, soil conservation, pests and diseases control, seed production technologies, harvest and post harvest technologies. Results of partial crop budget revealed that all crops finically gave positive net returns. The highest yield kg/ha was obtained by Sorghum Wad-Ahmed 3500, Sorghum Butana with 3250, 3000 kg/ha for sorghum local and G/nut Gibaish, while the lowest yield/ha shown by sesame local (776 kg/ha). Therefore, the highest net returns was recorded by sorghum Butana (SDG 329048), sorghum wad-Ahmed (SDG 295477), sorghum local (SDG 269048) and G/nut Gibaish (SDG 108990). While the lowest net returns was computed by G/nut local with SDG 21,381. Results of marginal analysis revealed that sorghum Butana gave the highest MRR 1230. Results of Participatory Technology Development (PTD) of improved yields against local indicated that, the highest yield obtained by sorghum Wad-Ahmed and G/nut Gibaish (1100 and 950 kg/feddan), respectively. While the lowest yield obtained by sesame local (195 kg/feddan). The increased over decreased of improved versus local showed that sorghum wad-ahmed exceed local by 11%, millet Ashana 36%, sesame Promio 13% and groundnut Gibaish exceed local by 25%. The study recommended strengthening research extension farmers and enhancing farmers’ participatory technology development.

Evaluation of Growth Performance and Carcass Characteristics of Guraghe Bulls Under Various Feeding Regimes

The experiment was conducted on yearling Guraghe bulls, with an average initial body weight of 111.91 ± 3.98 kg, to evaluate their growth performances and carcass characteristics under three different feeding options and to identify the most economical dietary rations. Twenty-one experimental bulls were randomly assigned to three dietary rations: T1 = Rhodes grass hay ad-libitum + 20% molasses + 40% wheat bran + 40% noug seed cake, T2 = Rhodes grass hay ad-libitum + 20% maize grain + 45% wheat bran + 35% noug seed cake and T3 = Rhodes grass hay ad-libitum + 65% wheat bran + 35% cotton seed cake. The bulls were acclimatized to the experimental diets for days, and the actual feeding trial lasted for 26 weeks. The animals’ weights were recorded at 14-day intervals. At the end of the 26 weeks three bulls from each treatment group were randomly selected for carcass evaluation. There were no significant differences (P>0.05) in live weight parameters and carcass characteristics among the treatments. The overall means for total weight gain, average daily gain, and carcass dressing percentage were 112.86 kg, 620g/day, and 57.34%, respectively. The yearling Guraghe bulls did not reach export market weight within 26-weeks of the feeding period. Additionally, the partial budget analysis indicated that fattening yearling Guraghe bulls with the current feeding options were not profitable. This suggests that fattening Guraghe bulls with the current feeding options for twenty-six months is economically not viable. It is recommended to evaluate the growth performances of Guraghe bulls with other feeding options to achieve an export market weight of 250-300 Kg.

Optimum Seeding and Nitrogen Fertilizer Rates for Maximizing Yield and Sustaining Rain-Fed Lowland Rice (<i>Oryza Sativa </i>L.) in Fogera Plain North-western Ethiopia

Rice (<i>Oryza sativa</i> L.) is increasingly becoming an important food crop in Ethiopia. However, the average rice productivity in Ethiopia is estimated at 2.8 t ha<sup>-1</sup> which is much lower than the world average, 4.6 t ha<sup>-1</sup>. Its productivity is challenged due to a lack of appropriate and location-specific agronomic practices like the application of optimum doses of nitrogen fertilizer and the use of optimum seeding rates. Thus, a field experiment was conducted in Fogera district in South Gondar Zone, Northwestern Ethiopia during the 2021 main cropping season to determine the optimum dose of N level and seeding rate. The treatments comprised factorial combinations of four levels of N (134, 184, 234 and 284 kg ha<sup>-1</sup>) and four different seeding rates (60, 80, 100, and 120 kg ha<sup>-1</sup>). The experiment was laid out in a randomized complete block design and replicated thrice. All data on phenology, vegetative growth yield and yield-related parameters were collected and measured following scientific standards of each parameter. Those data were subjected to analysis of variance using the general linear model (GLM) procedures of SAS 9.0 version system. Economic analysis was also carried out by following CIMMYT partial budget analysis procedures. The analysis result showed the main effects of both, different levels of nitrogen and different rate of seeding, and their interactions showed highly significant effect on the number of both total and effective tillers, grain filling, panicle length, phonological parameters, totals spikelet’s, thousands seed weight, grain yield, biological yield and straw yield. Application of 184 kg N ha<sup>-1</sup> level with a seeding rate 100 kg ha<sup>-1</sup> gave the maximum grain yield (6,641 kg ha<sup>-1</sup>), the highest number of effective tillers per m<sup>2</sup> (792) and filled grains per panicle (95.34). Furthermore, the highest net return of ETB 118,850 with acceptable marginal rate of return (2,313%) was also obtained from the application of 184 kg N ha-<sup>1</sup> level and a seeding rate 100 kg ha<sup>-1</sup>. From the current research experiment, it is possible to conclude that increasing seeding rate beyond 100 kg ha<sup>-1 </sup>and N above 184 kg N ha<sup>-1</sup> is not economical yield of rice <i>“Selam’’ </i>variety in the study area. Rather, use of 184 kg N ha<sup>-1</sup> and seeding rate of 100 kg ha<sup>-1</sup> is promising for Lowland Rice (<i>Selam</i>) variety production under the rain fed condition in Fogera Plains and similar agro-ecologies of rain-fed growing area of Ethiopia for better economic and agronomic advantage.

The use of automatic belt feeders in a Penaeus vannamei pilot scale super-intensive nursery and grow-out with biofloc system

This study aimed to evaluate the effect of using automatic belt feeders (BF) on water quality, growth of Penaeus vannamei, and partial budget in super-intensive pilot scale systems with biofloc technology. A nursery phase (2300 shrimp m−2) and a grow-out phase (400 shrimp m−2) were carried out with the following feeding management strategies, all with three repetitions: T1: by hand, T2: by hand + BF12h; T3: BF24h. In the nursery, a spike in total ammonia concentration was observed in the first weeks of the trial in treatment T1, possibly due to nutrients from uneaten feed. Nitrite was higher in T1 treatment than in T2 and T3. Nitrate was lower in the treatment T1 than in T2 and T3. At the grow-out trial, nitrite was higher in treatment T1 than in T2 and T3. These results indicated a slower nitrification process in T1 and more efficient in treatments where automatic feeders were used since an accumulation of nitrate was observed throughout the trials and low concentrations of nitrite were observed both in the nursery and the grow-out. In the nursery and the grow-out, the T3 treatment had a higher final weight and a lower feed conversion ratio. Furthermore, the T3 treatment had a higher yield than the T1 treatment. Treatment T3 had the highest net benefit/cost, considering the entire production cycle (nursery and grow-out). Our results strongly indicate that using automatic belt feeders allows an improvement in water quality, promotes shrimp growth, improves yield, reduces feed use, and improves the net benefits in P. vannamei super-intensive nursery and grow-out with biofloc systems.

Low-cost Light-emitting Diode Lights Reduce Production Cost of Bibb Lettuce Grown in Aquaponic Systems

In temperate climates, aquaponic producers must use artificial lighting; however, purchasing light-emitting diode (LED) grow lights can be cost-prohibitive. Two aquaponic trials evaluated low-cost LED lighting for the growth of bibb lettuce (Lactuca sativa var. capitata). In trial 1, seven low-cost LED lights were screened and compared with a high-end LED grow light. The three best-performing lights in terms of total plant biomass produced (grams) and total plant biomass per unit of electricity (grams per square meter per kilowatt-hour) were more intensively evaluated in trial 2. These lights included Spider Farmer SF-2000 [SPI ($300)], Fluence RAZRx [FLU ($364)], Designers Fountain 6-Light 5000 K LED High Bay Light [DES ($100)], and the control NeoSol DS [NEO ($1400)]. After 17 days, lettuce grown under NEO achieved higher (P ≤ 0.05) total biomass (939 g) than DES (812 g). There were no differences (P > 0.05) in the average individual plant weights in any treatment. Plant production efficiency (grams per square meter per kilowatt-hour) was higher in DES than NEO (P ≤ 0.05) but was not different from SPI and FLU (P > 0.05). Results indicate that low-cost LEDs are a viable option for producers looking to reduce investment costs while maintaining adequate plant growth. To further describe potential cost savings for producers, a partial budget analysis evaluated the net change in profits and benefit/cost ratio (BCR) of the experimental lights. All showed improved economic results compared with the control (NEO). These studies indicate that low-cost LED lights can support similar plant growth, at higher energy efficiencies, with better economic viability than more expensive grow lights.

Effect of blended NPS fertilizer and cattle manure on soil property and hot pepper productivity in Jabi Tehnan Ethiopia

Hot pepper is one of the most important spice vegetable crops in Ethiopia and is widely cultivated for dry pod production. However, its productivity is low in Ethiopia due to degraded soil fertility and an unbalanced nutrient supply in the soil. An experiment was conducted to evaluate the effect of NPS fertilizer and cattle manure (CM) on soil chemical properties and hot pepper dry pod yield under irrigation in Jabi Tehnan. This experiment was arranged in factorial combinations of four NPS fertilizer (0, 100, 200, and 300 kg ha−1) and four CM (0, 5, 10, and 15 t ha−1) levels in a randomized complete block design with three replicates. Soil chemical properties, hot pepper phenology, growth, yield, and yield-related traits were recorded and analyzed using SAS software version 9.4. The main and interaction effects of NPS and CM fertilizers had a significant effect on soil chemical properties, hot pepper phenology, growth, yield, and yield-related traits. The combination of NPS fertilizer and CM significantly increased soil chemical properties and hot pepper traits. However, soil chemical properties and hot pepper yield traits showed a somewhat decreasing trend as the combination levels of two fertilizers further increased. The highest marketable (2.90 t ha−1) and total dry pod yield (2.99 t ha−1) were produced at the combination of 200 kg NPS ha−1 and 15 t CM ha−1. However, the partial budget analysis showed that the combination of 200 kg NPS ha−1 and 10 t CM ha−1 had the highest net benefit with an acceptable MRR and can be recommended for profitable hot pepper dry pod production in the study area. However, the experiment was limited to a single location and variety; it should be repeated at multiple locations over the seasons to make a strong recommendation.

Evaluation of treatment with human chorionic gonadotropin at transfer of in vitro–produced beef embryos on reproductive outcomes in lactating multiparous Jersey cows after a synchronized ovulation

Our objective was to evaluate the effect of treatment with human chorionic gonadotropin (hCG) at the time of transfer of in vitro-produced (IVP) beef embryos on pregnancy outcomes in lactating multiparous Jersey cows. Grade 1, stage 7 (expanded blastocyst), IVP beef embryos were produced from black Angus-based dams using 3 proven high-fertility Angus sires and were frozen for direct transfer. In a preliminary experiment, lactating multiparous Jersey cows were randomized to a 2 × 2 factorial arrangement of treatments to test the main effect of recipient synchronization protocol (Double-Ovsynch; DO; n = 169 vs. a synchronized estrus; ED; n = 180) and were randomly assigned within recipient protocol to serve as untreated controls (DO-CON, n = 78; ED-CON, n = 44) or to receive i.m. treatment with 2,500 IU of hCG (DO-hCG, n = 79; ED-hCG, n = 46) at the time of embryo transfer (ET). The recipient utilization rate was greater for DO (93%) than for ED (50%) cows, and an interaction was present between recipient synchronization protocol and hCG treatment in which DO-hCG cows had more pregnancies per ET (P/ET) at 26, 33, and 61 d than DO-CON, ED-hCG, and ED-CON cows. Based on a partial budget analysis, the cost per pregnancy for DO cows was $135.35 less than for ED cows. In experiment 2, lactating multiparous Jersey cows were submitted to a Double-Ovsynch protocol (DO, n = 386) and were randomly assigned to serve as untreated controls (CON, n = 192) or were treated with 2,500 IU hCG (hCG, n = 194) at ET. Progesterone concentrations and total luteal volume 7 d after ET were greater for hCG than for CON cows. In contrast to the preliminary experiment, treatment with hCG did not affect P/ET at 26, 33, or 61 d, and treatment with hCG did not affect pregnancy loss from 26 to 61 d. In conclusion, treatment with 2,500 IU of hCG at ET increased P4 concentrations and total luteal volume 7 d after ET but did not increase pregnancy outcomes or decrease pregnancy loss in lactating multiparous Jersey cows receiving frozen/thawed IVP beef embryos.

Participatory Demonstration of Durum Wheat Production Blending Vertisols Management Technologies in Lume District, East Shewa, Ethiopia

Durum wheat production on Vertisols is constrained by waterlogging, where excessive soil moisture limits nutrient availability, resulting in lower yields and higher input demand. Aybar broad bed maker (BBM) was recommended to make broad beds and furrows (BBF) and drain the excess water although it is not widely adopted by farmers. Therefore, this demonstration activity was conducted to create awareness about the importance of BBF along with the recommended fertilizer rates in Lume district during the 2021 and 2022 main cropping seasons. Nine target farmers were purposefully selected based on the ground that their farms are waterlogged Vertisols. Aybar BBM to make the BBF with an 80 cm bed and 20 cm furrow width, while recommended fertilizers at a rate of 92 kg ha<sup>-1</sup> nitrogen (N) and 10 kg ha<sup>-1 </sup>phosphorous (P) were used. The yield data and farmers’ perception were analyzed using t-test, descriptive statistics, and narration, while partial budget analysis was conducted to examine the economic feasibility of the technologies. Results showed that growing durum wheat on BBF by applying the recommended N and P rates resulted in significantly higher grain yield (3474 kg ha<sup>-1</sup>) <i>with a 65.4% yield advantage </i>compared to ridge and furrow (RF) (2100 kg ha<sup>-1</sup>) with the blanket fertilizer rates. The partial budget analysis revealed that land preparation using Aybar BBM, alongside the recommended fertilizer rates, brought a net benefit of 48,563 ETB ha<sup>-1</sup> over the farmers' practice. Likewise, the marginal rate of return for changing from the local plow to Aybar BBM is 901.7%. The farmers also witnessed that the Aybar BBM even takes less plowing time and energy, and they want to continue to use it. <i>In light of these results, the study concludes that the use of Aybar BBM and recommended N and P rates, as a production package on waterlogged Vertisols, is profitable for farmers and recommends promoting and scaling up these technologies in the study area and other waterlogged Vertisols regions of the country.</i>