Mulch (crop residue) has been reported to increase soil water storage
and crop yield, and to reduce soil water stress under some conditions.
However, few studies have had irrigation, and thus evapotranspiration
(ET), as a variable where soil water was controlled. Therefore, a stu
dy was conducted to evaluate the effect of mulch on ET, bean yield (Ph
aseolus vulgaris L.), and water use efficiency (WUE), under a wide ran
ge of irrigation levels. Treatments were two cultivars (Viva-Pink and
Red-63), two mulch rates (bare, and 7.0 Mg ha-1 of wheat straw), and s
ix irrigation levels (from 0.0 to 288 mm) for 2 yr. Different irrigati
on levels were achieved by a line source sprinkler. Evapotranspiration
was estimated from measurements of irrigation, precipitation, soil wa
ter depletion, and estimated drainage. Transpiration (Tr) was estimate
d from a function of relative yield and relative ET. Dry matter and se
ed yields were significantly greater for mulched than for bare plots.
Mulched plots had a higher WUE (yield/ET) than did bare plots for a gi
ven irrigation level but increased as irrigation level increased. Seas
onal differences in ET between bare and mulched plots were small. The
yield-ET relation for mulch was linear but was distinctly different fr
om bare soil, indicating a different partitioning of ET into soil wate
r evaporation (Es) and Tr. For the conditions of this experiment, mulc
h reduced Es by about 45 mm, at the same ET, and Tr was increased by 4
5 mm. However, for the same irrigation level, ET was lower for mulched
than for bare plots, indicating that not all of the water saved went
to Tr.