The positive yield effect of crop rotation may be linked to enhanced w
ater uptake and associated efficient use. We hypothesized that a crop
grown in rotation might deplete soil water more than the same crop gro
wn under monoculture because some negative factor associated with mono
culture was alleviated. Water use efficiency (WUE) might also be impro
ved by rotation. The objective of our study was to determine whether a
ltered water uptake or altered WUE was associated with the yield incre
ase observed when corn (Zea mays L.) and soybean [Glycine mar (L.) Mer
r.] are rotated. A long-term corn-soybean rotation experiment was,moni
tored in 1987 and 1988 to determine seasonal soil water status to 1.50
m. Corn and soybean sequences monitored were: monoculture, first-year
crop following 5 yrs of the other crop, second-year crop following 5 y
rs of the other crop, and an annual alteration of the two crops. Compa
red with monoculture, yield was increased up to 30% when corn followed
soybean and up to 11% when soybean followed corn. Average soil water
depletion during the season by first-year corn was 16 mm greater than
by continuous corn. The WUE in corn was related to cropping sequence a
t a moderate level of significance (p = 0.14). Seasonal soil water dep
letion by soybean was not changed by cropping sequence but overall WUE
by first-year soybean was higher than by continuous soybean (p = 0.05
). When there was a period with only sparse rainfall in 1988, corn had
a greater water depletion than soybean and also a deeper zone of depl
etion. Both crops exhibited a greater water depletion when rotated. Fr
equent rainfall in 1987 sufficient to wet the soil below 0.30 m oblite
rated patterns of depleted soil water. Increased water use observed in
first-year corn and increased WUE observed in first-year soybean (com
pared to monoculture) in both years suggest that rotation allows these
crops to increase root surface or root activity and hence to improve
grain yield.