In recent days there is change in trend of rainfall across the country where its starts in May and ceases early-tomid September. This implies that adjusting cropping calendar is vital to adapt to the changing climate of the area. The field experiments were carried out at Debre Zeit Agricultural Research Center (DZARC) and Alemtena during the main cropping season from 2015 to 2017 to determine appropriate sowing date for tef varieties. The treatments consisted of three sowing date (early-July, mid-July, and late-July) and two recently released tef varieties (Kora and Boset). The experiment was laid out in a randomized complete block design in a factorial arrangement and replicated four times per treatment. Data were taken crop growth, biomass yield, and grain yield. Combined analysis of variance overs years showed that interaction effects of variety by sowing date were significant effects on plant height and panicle length at DZAR while, at Alemtena, plant height and panicle length was significantly affected only by variety. At both location biomass and grain yield of tef was significantly affected by variety and sowing date interaction. Among the different sowing date treatments, sowing of Kora variety in mid-July showed the highest mean biomass yield (8444.4 kg/ha and grain yield (1813.3 kg/ha) at DZARC but at Alemtena the highest biomass (9766.2 kg/ha) and grain yield (1595.7 kg/ha) was achieved Kora was sown in earl-July. However, sowing of Boset variety at mid-July was comparable yield advantages. Over all, based on the result of this study, sowing of mid-July and early-July would be recommended for the mentioned variety production at DZARC and Alemtena, respectively.
Depletion of soil organic matter, depletion of macro- and micronutrients, lack of local specific fertilizer recommendation per commodity are among core constraints in Ethiopian soils that hinders crop production including sorghum. The experiment was conducted to evaluate blended fertilizer type effect on improving production of sorghum in Bena Tsemay district, Southwestern Ethiopia. The experiment was carried out in 2018 and 2019 main cropping season and laid out in RCBD following three replications with spacing of 75cm between rows and 20cm between plants. It was done by using control, (46N+68.7P2O5) kgha-1 , (142NPS+141Urea) kgha1 , (150NPSB+141Urea) kgha-1 , (160NPSBZn+144Urea) kgha-1 , (155NPSZn+141Urea) kgha1 , (197NPSBK+141Urea) kgha-1 and (207NPSBZnK+141Urea) kgha-1 treatments. Full dose of blended fertilizer, phosphorus, boron and potassium chloride fertilizers were applied at planting time and urea was applied in two split. Partial budget analysis with dominance and marginal analysis was done for economic evaluation. The result has revealed that sorghum has responded well to the application of macronutrients with micronutrients (Zn and B) than unfertilized. Application of 150kgha-1NPSB+141kgha-1Urea resulted in highest grain yield, while the lowest grain yield was recorded from the control. The highest economic returns of 230.06% was obtained from application of 150kgha-1NPSB+141kgha-1Urea; and it gives 43.85% yield increment and 31.86% increment in economic return over the control. Application of 150kgha-1NPSB+141kgha-1Urea was recommended for farmers and investor’s to produce sorghum on the study area and similar agro ecologies, as it was optimum for improving sorghum production. Further investigation should be done on plant nutrient uptake, nutrient use efficiency and optimization.
Depletion of soil fertility, depletion of macro- and micro-nutrients and soil organic matter and inappropriate and imbalanced fertilizer application are among the most important factors that reduces the food barley production in Ethiopia. Therefore, the experiment was conducted to evaluate NPSB blended fertilizer rate effect on improving production of food barley in Semen Ari District, Southwestern Ethiopia during main cropping season. Control, (142 NPS + 159 Urea) kg ha-1, (150 NPSB + 41 Urea) kg ha-1, (200 NPSB + 72 Urea) kg ha-1, (250 NPSB + 102 Urea) kg ha-1 and (100 NPSB + 161 Urea) kg ha-1 treatments were used for the experiment which laid out in RCBD following three replication with spacing of 20 cm between rows; and HB 1307 improved food barley seeds were drilled on prepared rows. Full dose of blended and potassium fertilizers were applied at planting time and urea was applied in two split. The result revealed that food barley responded well to application of N, P, S and B than the unfertilized one. Application of 100 kg ha-1 NPSB + 161 kg ha-1 Urea resulted in highest grain yield of 3806.3 kg ha-1, while the lowest grain yield of 1939.2 kg ha-1 was recorded from the nil. Moreover, the highest net benefit of 32124.56 ETB ha-1 and economic returns of 942.2% was recorded in response to application of 100 kg ha-1 NPSB + 161 kg ha-1 Urea. Application of 100 kg ha-1 NPSB + 161 kg ha-1 Urea gave 49.05% yield increment and 40.24% increment in economic return over the control. Therefore, we recommend application of 100 kg ha-1 NPSB + 161 kg ha-1 Urea for farmers and investor’s in study area and similar agro-ecologies as it was optimum for improving food barley production. Further studies and investigation should be done on plant nutrient uptake, nutrient use efficiency and over location. Int. J. Agril. Res. Innov. Tech. 11(2): 10-17, Dec 2021
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