Effects of Nitrogen and Phosphorus Fertilizers on Dekoko (Pisum sativum var.abyssinicum A. Braun) Yield and Yield related traits

A field experiment was conducted to investigate the influence of different nitrogen and phosphorus fertilizer levels on dekoko (Pisum sativum var.abyssinicum A.Braun) yield and yield components as well as to establish the net benefit at each fertilizer levels. The Experiment was conducted at Mekelle university Endayesus campus in Tigray, Northern Ethiopia in 2013/14. It was laid out in a randomized complete block design with four blocks. It comprises four nitrogen (N) and phosphorus (P) fertilizer treatments combinations. Viz., Control (N0P0), 30 kg N ha-1 and 30 kg P2O5 ha-1 (N1P1), 60 kg N ha-1 and 60 kg P2O5 ha-1(N2P2) and 90 kg N ha-1 and 90 kg P2O5 ha-1 (N3P3).The highest yield (2114.55 kg ha-1), biomass (5312.5 kg ha-1), nitrogen and phosphorus use efficiency (4.58 kg kg-¹) and maximum marginal rate of return (499%) were obtained when treated with N2P2. From the present results it could be concluded that 60 kg N ha-1 and 60 kg P2O5 ha-1 fertilizer rate would be optimum treatment combination for enhancing dekoko yield and yield components, NP use efficiency, and economic profitability. Therefore, application of 60 kg N ha-1 and 60 kg P2O5 ha-1 is recommended for better productivity and profitability of dekoko at low soil fertility levels

Effect of In-situ Rainwater Conservations and Sowing Date on Barley Yield and Weed Infestation: A Case study at Maychew and Mekelle, Northern Ethiopia

One season experiment conducted at two sites in northern Ethiopia (Maychew and Mekelle). The objective of the research was to evaluate the effect of in-situ rainwater conservation and sowing-date on soil-water status, barley yield and infestation of weeds. The treatments include three alternative sowing-dates (ESD; NSD; and LSD) and two in-situ rainwater conservation measures (tie-ridge and soil-bund, replicated three times. Analysis of variance (ANOVA) was applied to evaluate the effect of the treatments on total biomass and rainwater use efficiency (RWUE) of the local barley. The average soil-water content in the upper 0.6 m root zone in the soil-bund and tie-ridge improved over the control treatment by 14% and 24%, respectively. The grain yield on tie-ridge was increased significantly compared to the control at Maychew site. Tie-ridge improved grain yield by 4% and 18% over the control at Mekelle and Maychew, respectively. NSD significantly improved the grain yield over LSD at both experimental sites. Neither of the sowing-dates nor the in-situ rainwater conservation measures had significantly increased the dry-matter of a barley crop. However, when NSD combined with tie-ridge, the grain yield was significantly improved compared to the LSD. There was no significant difference in weed infestation in both experimental sites due to applying in-situ rainwater conservation. But, numbers of weeds were significantly higher in ESD compared to NSD and LSD on both experimental sites. For this reason, NSD with tie-ridging technique can be used as an option to obtain higher barley grain yield. &nbsp

Management Adaptations for Water-Limited Pearl Millet Systems in Senegal - Dataset

This dataset comprehends the outputs from the simulations of different managements performed by the APSIM-Millet model calibrated for two landraces in 351 locations for the producing districts of pearl millet (12) in Senegal, between 1990 to 2021. Variables: site_id (1 to 351) district department latitude longitude landrace (early- or late-flowering) management (standard or recommended) plant density (plant m-2) N fertilizer (kg ha-1) planting date days to flowering days to maturity grain yield (kg ha-1) precipitation during the growing season (mm) yield to precipitation ratio (kg m-3)</p