This study was conducted at Intchimia’s recovered site. Its objective is to determine the impact of land reclamation techniques on millet productivity. The experimental device used is a randomized block with four treatments (DL half-moon, CP stony cords, half-moon + stony cords DL-CP and control T) and three repetitions. Parameters monitored were phenological growth and components of millet yield. Results showed that water and soil conservation techniques have a better influence on the development and productivity of millet. The best results were obtained in the DL treatments (plant height: 229.46 cm; grain weight: 1936.11 kg / ha and biomass weight: 6.24 t / ha) and CP-DL (height of plant: 226.93 cm; grain weight: 1692.83 kg/ha and biomass weight: 5.65 t/ha). These results made it possible to demonstrate that DL and DL-CP are the most suitable as a promoted area for the production of millet at the level of the recovered soils.
This research showed positive effect of A. senegal on soils total microbial activity on different sites in Niger. Soils were sampled under and outside A. senegal crown. The depth of soil sampling is 0-25 cm. sites that samples take out are: Azzai, Bader, Malam Maimari, N’Guel kolo, Kokoye and Kiki. Activity was greater on soils under A. senegal crown, than outside crown. Results showed strong correlation between total microbial activity and soils physico-chemical parameters. Correlation was positive on soils with higher clay content, and negative on those with higher sand content. Thus, under A. senegal crown, soils total microbial activity was significantly different between studied sites. Activity on Kiki’s site with value of 5,9 µg/g/h, was twice that obtained at N’Guel kolo. On all sites, total microbial activities on soils outside of A. senegal crown, was either a third lower (Kokoye and N’Guel kolo), or half lower (Kiki, Malam Maimari, Bader and Azzai), than under the crown. A. senegal is legume plant, that can contribute to fertilize and stabilize poor soils. A better valorisation of A. senegal would allow development of agroforestry system in nitrogen deficient soils of the Sahelian zone. Agroforestry practices could increase plant diversity, control soil erosion and sequester organic carbon.
In Sub-saharan Africa, many rural communities live from the exploitation of natural forest resources including non-timber forest products (NTFPs). Arabic gum figures prominently among non-timber forest products that generate significant income for rural households, especially the poor and vulnerable households (agro-pastoralists and pastoralists). Therefore, it is important to evaluate the contribution of arabic gum to food security of rural households. It is in this context that this study is conducted, whose objectives are to: identify the stands demographic structures; characterize the production methods (traditional or modern) of the gum; estimate the quantity of gum production and estimate its contribution in the household income. Dendrometric measures are made in 62 plots on three gum trees stands and semi-structured individual interview was conducted in the three gum production areas of Niger. The results showed that demographic structure of population of A. senegal is stably at Kokoy