Fish by-product as a soil amendment for millet and groundnut cropping systems in Senegal

Soils of the groundnut (Arachis hypogaea) L, basin of Senegal are impoveris hed with low fertility and organic matter content. Previously, farmers main tained yields of millet (Pennisetum glaucum (L.) R. Pr. and groundnut with subsidized inorganic fertilizers and fallow periods to restore soils. Fish meal or by-product in various forms is a commercial commodity worldwide, bu t in Senegal the non-edible portion of fish (intestines, bones, scales and gills) are often discarded after processing. A three-year study was conduct ed on processed fish by-products as a soil amendment for millet and groundn ut productivity. Chemical analysis showed that the processed fish byproduct s are high in major nutrients such as N, 5.35%; P, 4.17%; K, 0.92%; Ca, 9.7 7%; and Mg, 0.36%. Consequently, the application of the processed fish by-p roducts significantly (p < 0.05) increased millet grain from 0.29 Mg ha(-1) in the control plot (no fish by-product) to 2.50 Mg ha(-1) with 6 Mg ha(-1 ) fish by-product. Millet stover yield was also increased. Groundnut yields increased (p < 0.01) from 0.23 Mg ha(-1) in the control plots to about 1.0 0 Mg ha(-1) with 2 Mg ha(-1) fish by-product. Response curves for millet an d groundnut were curvilinear with the incorporated fish remains explaining 98 and 99% of variability in yields of miller and groundnut respectively. R esidual effect of fish by-product after one year significantly (p < 0.05) i mproved yields of miller and groundnut compared with inorganic fertilizer a nd equalled yields of the same crops with inorganic fertilizer after two ye ars. However, stability analysis indicated that millet yields with fish by- product were less stable (s.e. = 0.31) than yields with inorganic fertilize r (s.e. = 0.16) reflecting the non-uniformity of the by-products and proces sing methods across villages.