Browsing by Author "TAMIRAT TADEWOS GIYA"

Filter results by typing the first few letters
Now showing 1 - 1 of 1
  • No Thumbnail Available
    Item
    GROWTH, NODULATION, AND YIELD OF MUNGBEAN (Vigna radiata L. (Wilczek) AS AFFECTED BY THE COMBINED USE OF BIOCHEMICAL FERTILIZERS AT HAWASSA, SOUTHERN ETHIOPIA
    (Hawassa University College of Agriculture, 2021) TAMIRAT TADEWOS GIYA
    Mungbean (Vigna radiata L. (Wilczek) is a short duration, legume crop cultivated for consumption, industrial processing, with a potential for alleviation of climate change effects on crop production due to its biological nitrogen fixing ability. Integrated use of bio-chemical fertilizers is beneficial in achieving sustainable crop yield improvement and sole dependency on chemical fertilizer is not recommendable due to its unaffordable cost and contribution to climate change. Hence, this experiment was conducted under field condition in the 2019/20 main cropping season at Hawassa University experimental site to determine the combined effects of bio-chemical fertilizer sources on the growth, nodulation, and yield of mungbean. The factorial combinations of four bio-slurry levels (control, 50, 100, and 150%) and four inoculant/N fertilizer treatments (control, 23kg N ha-1 , strain MB-001, and 23kg N + strain MB-001) were laid out in a randomized complete block design with four replications. Data on growth, nodulation, gas-exchange, and yield parameters were collected following the standard procedures. The results revealed that the interaction effects of bio-slurry and inoculant/N fertilizer had a marked effect on phenology, nodulation, and yield parameters. Combined application of bio-slurry and inoculant/N fertilizer delayed days to flowering and days to physiological maturity. Rhizobium inoculation alone and applying with 100% bio-slurry resulted in significant improvement in nodule number, nodule dry weight, and nodule diameter of mungbean. Similarly combined application of bio-slurry and inoculant/N fertilizer had shown a significant impact on a hundred seed weight, above ground biological, grain, and straw yields. For instance, the application of 150% bio-slurry with 23 kg N ha-1 resulted in the highest biological and straw yield whereas the application of 100% bio-slurry with inoculant resulted in marked improvement of seeds pod-1 and grain yield. Pod number plant-1 and hundred seed weight were highest when 100% bio-slurry was applied. The highest net benefit with the highest marginal rate of return was obtained from the combined application of 50% bio-slurry with 23kg ha-1 N fertilizer followed by 100% bio-slurry with Rhizobium inoculation. From this result, it can be concluded that the application of 50% bio-slurry ha-1 in combination with 23kg ha-1 N fertilizer can be recommended for mungbean production in the experimental area and areas having similar agroecology and socio-economic status.