Fallow residue management effects on upland rice in three agroecological zones of West Africa

Improving fallow quality in upland rice-fallow rotations in West Africa thr ough the site-specific use of leguminous cover crops has been shown to sust ain the productivity of such systems. We studied the effects of a range of residue management practices (removal, burning, mulching and incorporation) on fallow biomass and N accumulation, on weed biomass and yield response o f upland rice and on changes in soil physical and chemical characteristics in 2-year field trials conducted in three agroecological zones of Cote d'Iv oire, Across fallow management treatments and agroecological zones, rice yi elds were on average 20-30% higher in legume than in natural fallow plots. Weed biomass was highest in the savanna zone and lowest in the bimodal fore st and tended to be less following a legume fallow. Regardless of the type of fallow vegetation and agroecological zone, biomass removal resulted ill the lowest rice yields that varied from 0.5 t ha(-1) in the derived savanna zone to 1.5 t ha(-1) in the Guinea savanna zone. Burning of the fallow veg etation significantly increased yield over residue removal in the derived s avanna (0.27 t ha(-1), P< 0.05) and bimodal forest zones (0.27 t ha(-1), P< 0.01), but not in the Guinea savanna. In both savanna environments, residue incorporation was superior to the farmers' practice of residue removal and rice yield increases were related to amounts of fallow N returned to the s oil (r(2)=0.803, P< 0.01). In the forest zone, the farmers' practice of res idue bunting produced the highest yield (1.43 t ha-1 in the case of legumes ) and resulted in the lowest weed biomass (0.02 t ha(-1)). Regardless of th e site, improving the quality of the fallow or of its management had no sig nificant effects on either soil physical or soil chemical characteristics a fter two fallow cycles. We conclude that incorporation of legume residues i s a desirable practice for rice-based fallow rotation systems in savanna en vironments. No promising residue management alternatives to slash-and-burn were apparent for the forest zone. Determining the possible effects on soil productivity will require longer-term experiments.