Mineralization and Decomposition of Four Types of Compost Based on Biomass of Sida cordifolia L. in a Sandy Soil in the Semi-arid Zone of Niger
Souley Maman Sadi
Université Dan Dicko Dankoulodo de Maradi, BP 465, Maradi, Niger and Département de Gestion des Ressources Naturelles, INRAN, BP 429 Niamey, Niger.
Addam Kiari Saidou *
Département de Gestion des Ressources Naturelles, INRAN, BP 429 Niamey, Niger.
Morou Boubé
Université Dan Dicko Dankoulodo de Maradi, BP 465, Maradi, Niger.
Jens B. Aune
Department of International Environment and Development Studies, Norwegian University of Life Sciences, Ås, Norway.
*Author to whom correspondence should be addressed.
Abstract
The low nutrient availability rainfall patterns regimes are the main constraints to agricultural production in Niger. This was a study of the decomposition and mineralization of nutrients of four types of composts (M1P, M2P, M1H and M2H) in a sandy soil. It was carried out at the experimental N'Dounga station (CERRA Kollo) located about 15 km from Niamey. A randomized blocks design with five repetitions was used. For the evaluation of yield, two doses (1 t ha-1 and 1.5 t ha-1) were applied per millet. Decomposition and mineralization were assessed after burial at 10 cm depth between of a small bag containing 100 g (five small bags / compost). The characterization of the physico-chemical elements of composts samples after incubation has shown that composts are rich in nutrients. Nitrogen ranged from 0.8% to 1.1%, phosphorus from 9.99 mg.kg-1 to 12.76 mg.kg-1 and potassium from 19.94 cmolc dm-3 to 26.26 cmolc dm-3. All four composts are basic (pH> 7). Compost M2H lost more than 80% of its weight during the 10 weeks of the experiment compared to 48% for the M1P. the mineralization of N, P and K is greater at compost M1P (83.6% N, 72.72% P and 89.5% K). This compost also gave the highest yield (1272.5 kg ha-1). The decomposition and mineralization of the main elements (N, P and K) allow the synchronization between the release of nutrients from these composts and the nutrient requirements of millet in a sandy soil.
Keywords: Compost, mineralization, Sida cordifolia, millet, sandy soil.