C. B. Christianson scite author profile

A bstract A field study was conducted over a 4-year period in Niger, West Africa, to determ ine th e effects of crop residue (CR), fertilizer, or a combination of crop residue and fertilizer (C R F) on yields of pearl millet (Pennisetum glaucum [L.] R. Br.). Despite a decline in yields of control plots (initial yields w ere 280 kg grain ha~J declining to 7 5 k g grain h a-1 over 4 years), yields of fertilizer plots were m aintained at 800-1,000 kg grain h a-1. Continued application of. CR slowly augm ented yields to levels similar to those of the fertilized plots. The effects of CR and fertilizer were approxim ately additive in the C RF plots. Addition of C R and fertilizer increased soil water use over the control by 57 mm to 268 mm in an average season and helped trap wind-blown soil. These plots tended to exhibit slightly higher soil pH and lower A1 saturation than did the fertilized treatm ents. R eturn of C R to the soil resulted in significantly reduced export of most plant nutrients, especially Ca, Mg, and K.

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A farm-level evaluation of nitrogen and phosphorus fertilizer use and planting density for pearl millet production in Niger

Bationo¹,

Christianson

Baethgen

et al. 1992

Fertilizer Research

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Mineral fertilizer use is increasing in West Africa though little information is available on yield response in farmers' fields. Farmers in this region plant at low density (average 5,000 pockets h a-1, 3 plants pocket-1), which can affect fertilizer use efficiency. A study was conducted with 20 farmers in Niger to assess the response of pearl millet [Pennisetum glaucum (L.) R. Br.] to phosphorus and nitrogen fertilizers under farm conditions. In each field, treatments included control, single superphosphate (SSP) only, SSP plus N (point placed near plant), and either SSP or partially acidulated phosphate rock (PAPR) plus N broadcast. N and P were applied at 30 kg N ha-1 and 30 kg P2O s h a-1. Farmers were allowed to plant, weed, etc., as they wished and they planted at densities ranging from 2,000 to 12,000 pockets h a-1. In the absence of fertilizer, increasing density from 2,000 to 7,000 pockets h a-1 increased yield by 400%. A strong interaction was found between fertilizer use and density. Farmers planting at densities less than 3,500 pockets h a-1 had average yields of 317 kg grain hawhile those planting at densities higher than 6,500 pockets h a-1 showed average yields of 977 grain h a-1. Though phosphate alone increased yields significantly at all densities, little response to fertilizer N was found at densities below 6,000 pockets h a-1. Significant residual responses in 1987 and 1988 were found to P applied in high-density plots in 1986. Depending on fertilizer and grain prices, analysis showed that fertilizer use must be be combined with high plant density (10,000 pockets h a-1) or no economic benefit from fertilizer use will be realized.

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C. B. Christianson

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The effect of crop residue and fertilizer use on pearl millet yields in Niger

A farm-level evaluation of nitrogen and phosphorus fertilizer use and planting density for pearl millet production in Niger

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