Next to drought, poor soil fertility is the single major cause of crops nutrient starvation in Tigray specifically at Mereb-lekhe district. Farmers of the study area use different organic and inorganic fertilizers separately and in combination to overcome soil fertility problems for sorghum production. However, the pace of sorghum production stays constant and occasionally decreases with time. Fertilizer efficiency; the type, rate and method of fertilizer application they use were thought to be the reasons for the steady or declining sorghum production. Hence, this study was initiated to determine the yield response of sorghum to microdose fertilizer application. The experiment was set in a randomized complete block design with three replications. The treatments were; farmers’ practice or blanket recommended nitrogen (N) and phosphorous (P) (50kg ha-1 Urea & 100 kg ha-1 DAP), recommended compost at a rate of 7ton ha-1, 75% of recommended NP, 50% of recommended NP, 25% of recommended NP, 75% recommended NP+25% recommended compost, 50% recommended NP+50% recommended compost and 25% recommended NP+75% recommended compost. All treatments were applied with microdosing method except the recommended N and P is broadcasting method. The highest sorghum grain yield (4201 kg ha-1) and straw yield (19107 kg ha-1) were obtained from treatment recommended compost at a rate of 7 ton/ha and 50% recommended NP+50% recommended compost, respectively. This study showed that combined application of organic and inorganic fertilizer gave a better economic advantage for sorghum crop. Hence, it could be concluded that use of compost at a rate of 7 ton ha-1 and the 75% recommended N and P could increase production and productivity of sorghum by the application of micro dosing than broadcasting method.
Aim: The nutrient content of current fertilizer recommendations is unbalanced and is based on a very general and blanket recommendation for all soil and crop types, and their economic benefit is low. Therefore, this study was initiated to validate the recommendations regarding blended fertilizers applied to the soil and to identify the best fertilizer dose that ensures optimal yield and maximum economic return. Study Hypotheses: significance effect of blended NPKSZnB fertilizer on onion yield and yield components. Study Design: The experiment was designed using a randomized complete block design with three replications and seven treatments. Place and Duration of the study: The field experiment was conducted in the off-season of 2018 and 2019 in Tahtay Koraro (two farmers), and Laelay adyabo (two farmers) districts of in northern Ethiopia. Methodology: Seven treatments with NPKSZnB fertilizer rates (25, 50, 100, 150, 200, 250 and 300 kg·ha-1) were tested under irrigation conditions. Thus, for each plot nitrogen from Urea was applied at a rate of 150 kg ha-1. Surface soil samples were collected before planting onion harvesting at a depth of 0-20 cm to analyze selected soil chemical properties such as pH, extractable electric conductivity (ECe), cation exchange capacity (CEC), total nitrogen (TN), available P and exchangeable bases (K, Mg, Ca, and Na). Results: The application of different doses of NPKSZnB under irrigation conditions had a statistically significant (P < 0.05) impact on onion phenology, yield and yield components. The highest average onion yield (10,329 and 19,196 kg ha-1) was obtained after applying compound fertilizer doses of 200 and 250 kg ha-1 in Teahtay Koraro and Laelay Adyabo districts, respectively. However, the use of NPKSZnB fertilizer at a dose of 100 and 50 kg ha-1 for onion cultivation under irrigated conditions in T/koraro and L/adyabo districts was found to be economically viable. Thus, growers in both districts should use NPKSZnB compound fertilizer at these rates for onion production and productivity. Conclusion: Therefore, farmers in both districts should use NPKSZnB compound fertilizer at these rates for optimum onion production.
Introduction: Lantana camara makes available huge nitrogen rich moist biomass, which has potential to be utilized as a substrate for organic recycling. Its biomass has potential for utilization as organic manure, has antimicrobial, insecticidal and medicinal properties. Similarly, Lantana camara is one of the most widely occurring shrubs that have shown alarming growth in recent years, in our mandate areas especially in shire, Axum and Adwa. However, the complete eradication of this weed without further use of its biomass is very difficult and costly.
A field experiment was carried out to evaluate different rates of vermicompost, and inorganic NPS(Nitrogen-Phosphate Fertilizer With Sulphur) fertilizers for wheat production in 2015-2017 main cropping seasons at L/machew district of the Tigray Regional State. There were five systematically combined rates of vermicompost and one rate of NPS treatments during the study. The experimental design was randomized complete block with three replications. Surface soil samples were collected before planting to analyze selected soil properties. The textural class of the soil was clay. The pH of the soil was rated under moderately acidic. Available P was rated under medium in most of the experimental sites while total N was low in all experimental sites. The treatments significantly affected crop phenology, yield and yield components of wheat. Thus tallest plant height was found from treatments that received 100kg/ha NPS, followed by 8.75t/ha vermicompost which resulted in (73.25cm) while the shortest plant (62.73cm) was obtained from control plots, respectively. Highest mean wheat grain yield (2642.8kg/ha) was obtained in response to 100kg NPS from inorganic fertilizer application followed by the second highest dose of vermicompost (7t/ha) with grain yield of 2620 kg/ha. At the wheat plants grown in plot received vermicompost compost at 7t/ha of vermicompost increased the grain yield by 67.78% over the control. Though highest grain yield was obtained from highest dose of vermicompost the partial budget analysis shows that the highest marginal rate of return (456) was obtained from 3.5t/ha VC ha-1 plus 100kg/ha urea at the study area.
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