Managing Yield and Water Use of Pearl Millet in the Sahel

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Managing Yield and Water Use of Pearl Millet in the Sahel

William A. Payne^*

Columbia Basin ARC, Oregon State Univ., P.O. Box 370, Pendleton, OR 97801.

^* Corresponding author (paynew{at}ccmail.orst.edu).

Drought occurs often in the West African Sahel, but studieshave shown that soil water availability is not usually the limitingfactor to pearl millet [Pennisetum glaucum (L.) R. Br.] production,and that field water-use efficiency (WUE)—i.e., the ratioof yield to evapotranspiration (ET)—is almost always verylow. The purpose of this study was to determine management effectson yield and water use of pearl millet for a range of climateconditions in the Sahel. Grain and aboveground dry matter yield,daily vapor pressure deficit, and soil water data were takenduring four years of contrasting rainfall. Within any givenyear, genotype, plant population, and fertilizer had relativelysmall to no effect on ET, but large effects on yield. When highplant population ( $≥$ 20 000 hill ha^–1) was combined withhigh fertilizer application ( $≥$ 40 kg N ha^–1 and $≥$ 18 kg Pha^–1) during the wettest year, total ET was increasedby 50 mm. High fertilizer application tended to slightly increaseET and thereby deplete soil water reserves, but this was notassociated with yield decline. Yield and water-use data refutethe view that, by maintaining fields at low fertility and lowplant populations, farmers reduce risk of crop failure duringdrought by reducing crop water use. Compared with traditionalpractices that use plant populations as low as 5000 hill ha^–1and zero fertilizer input, moderate plant population (10 000hill ha^–1) and fertilizer application (20 kg N ha^–1and 9 kg P ha^–1) substantially increased yield and approximatelytripled WUE even during 1984, the driest year on record. Ingeneral, grain yield was better predicted from ET within differentmanagement categories when corrections were made for mean dailyvapor pressure deficit during the growing season (VPD). Thestudy provides evidence for the need to moderately increasepearl millet plant population and fertilizer application inthe Sahel to efficiently use available water without risk ofcrop failure through depletion of soil water reserves. It alsoprovides a practical, albeit empirical, basis for predictingyield under different management systems from seasonal ET andVPD data.

Contribution of the ICRISAT Sahelian Ctr., B.P. 12404, Niamey,Niger (via Paris).

Received for publication October 16, 1995.

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				J. L. Hatfield, T. J. Sauer, and J. H. Prueger Managing Soils to Achieve Greater Water Use Efficiency: A Review Agron. J., March 1, 2001; 93(2): 271 - 280. [Abstract] [Full Text] [PDF]

				W. A. Payne, P. E. Rasmussen, C. Chen, and R. E. Ramig Assessing Simple Wheat and Pea Models Using Data from a Long-Term Tillage Experiment Agron. J., January 1, 2001; 93(1): 250 - 260. [Abstract] [Full Text]

				W. A. Payne Optimizing Crop Water Use in Sparse Stands of Pearl Millet Agron. J., September 1, 2000; 92(5): 808 - 814. [Abstract] [Full Text]

				P. J. Gregory, L. P. Simmonds, and C. J. Pilbeam Soil Type, Climatic Regime, and the Response of Water Use Efficiency to Crop Management Agron. J., September 1, 2000; 92(5): 814 - 820. [Abstract] [Full Text]

				H. Brück, W.A. Payne, and B. Sattelmacher Effects of Phosphorus and Water Supply on Yield, Transpirational Water-Use Efficiency, and Carbon Isotope Discrimination of Pearl Millet Crop Sci., January 1, 2000; 40(1): 120 - 125. [Abstract] [Full Text]

				W.A. Payne Shallow Tillage with a Traditional West African Hoe to Conserve Soil Water Soil Sci. Soc. Am. J., July 1, 1999; 63(4): 972 - 976. [Abstract] [Full Text]