Several studies have clearly demonstrated the scientific and practical use of the symbiotics microorganisms for plants in earth ecosystems. The main goal of this study was to rehabilitate a degraded soil of the sahelian zone of Burkina Faso by using the rhizobia and mycorrhizal symbiosis through the inoculation technique. Native rhizobial strains were isolated from soil samples. These strains were then tested in laboratory and greenhouse conditions for their effects on the nodulation and growth of Vachellia seyal. At the end of these tests three promising strains were selected to form a complex that was used with or without arbuscular mycorrhizal fungus for the inoculation of plants produced in nursery or issued from direct seedling at the field. After 3, 12 and 14 months of cultivation, respectively, the growth parameters of plants such as the height and the collar diameter were measured. In addition, the field survival rate of plantations was evaluated. The results showed that inoculation has improved the growth and survival rate of Vachellia seyal plants in the field. The double inoculation was more effective than the single inoculation. With these promising results, we recommend inoculation of seedlings for a better success of restoration plantings in the Sahel. © 2020 International Formulae Group. All rights reserved. Keywords: Symbiosis, native strains, rehabilitate, inoculation, sahelian zone
Objective: The use of symbiotic microorganisms as mycorrhizal fungi to improve the availability of nutrients to plants is of great importance in agriculture. In this study, we were interested in the response of cowpea, variety KVX 396-4-5-2D, to mycorrhizal inoculation in the context of selection of effective Arbuscular Mycorrhizal Fungi (AMF) to improve cowpea productivity. Methodology and results: Six native AMF inocula (Talé Mossi, Pissila, Worou 1, Worou 2, Yakouta 1 and Yakouta 2), composed of spores contained in cowpea crop soils, were tested in cowpea plants under greenhouse conditions. Microscopic assessment of mycorrhizal colonization and biomass production were evaluated at the flowering/fruiting stage. Results showed variability among inocula regarding their response to cowpea growth. The frequency of mycorrhizal colonization of inoculated plants was generally high (92%), but the intensities remained low (57.65%). However, Yakouta 2 inoculum has recorded the best frequency (92%) and intensity (57.65%) of mycorrhizal colonization. Inoculation of cowpea with Yakouta 2 inoculum resulted in a significant increase (4 folds) in shoot (3.33 g) and root (1.5 g) biomass compared to control plants (0.5 and 0.3 g respectively for shoot and root biomass). Conclusion and application of findings: From these results, it appears that Yakouta 2 seems to be the most efficient for the growth of cowpea. This generally showed a beneficial effect of inoculation of cowpea suggesting that an endomycorrhizal strain selection could be carried on for cowpea inoculation in situ.
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