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- ItemOpen AccessEffects of residue quality and climate on plant residue decomposition and nutrient release along the transect from humid forest to Sahel of West Africa(Biogeochemistry, 2007-09-26) Tian, G; Badejo, M.A; Okoh, A.I; Ishida, F; Kolawole, G.O; Salako, F.K; Hayashi, YFieldlitterbagstudieswereconductedinthe 2000 rainy season and the 2000/2001 dry season along the transect of West African major agroecological zones (agroeco-zones)tomeasurethedecompositionof,andN and P release from 5 plant residues (leaves of woody species) with increasing quality: Dactyladenia barteri, Pterocarpus santalinoides, Alchornea cordifolia, Senna siamea and Gliricidia sepium. The decomposition rate constant (wk–1) ranged from 0.034 (Dactyladenia, subhumid zone) to 0.49 (Gliricidia, humid zone) in the rainy season, and from 0.01 (Dactyladenia, subhumid zone) to 0.235 (Pterocarpus, arid zone) in the dry season. The direct correlation between the decomposition rate of plant residues and their quality was only valid in agroeco-zones where there is not moisture stress. Similarly, the direct correlation between the decomposition rate of plant residues and moisture availability was only valid for plant residues with high quality. The decomposition rate of the low quality plant residue could increase from humid to arid zone in West Africa. In the arid zone, the low quality plant residue could also decompose faster than high quality plant residue. The climate-residue quality interactive effects on plant residue decomposition in West Africa were attributed to the feedback of low quality plant residue’s mulching effect, soil fauna and appreciable photodegradation in dry regions. A decomposition equation that could be used to predict the decomposition rate of plant residues with various qualities