Dj. Hunsaker et al., CO2 enrichment and soil nitrogen effects on wheat evapotranspiration and water use efficiency, AGR FOR MET, 104(2), 2000, pp. 85-105
Evapotranspiration (ET) and water use efficiency (WUE) were evaluated for t
wo spring wheat crops, grown in a well-watered, subsurface drip-irrigated f
ield under ambient (about 370 mu mol mol(-1) during daytime) and enriched (
200 mu mol mol(-1) above ambient) CO2 concentrations during 1995-1996 and 1
996-1997 in Free-Air CO2 Enrichment (FACE) experiments in central Arizona.
The enriched (FACE) and ambient (Control) CO2 treatments were replicated in
four, circular plots, each 25 m in diameter. Two soil nitrogen (N) treatme
nts, ample (High N) and limited (Low N), were imposed on one-half of each c
ircular plot. Wheat ET, determined using soil water balance procedures, was
significantly greater in High N than Low N treatments starting in late-Mar
ch (anthesis) during both years. Differences in ET between CO2 treatments d
uring the seasons were generally small and not statistically significant, h
owever, there was a tendency for the ET to be lower for FACE than Control u
nder the High N treatment. The reduction in the cumulative seasonal ET due
to FACE averaged 3.7 and 4.0% under High N and 0.7 and 1.2% under Low N in
the first and second years, respectively. However, WUE (grain yield per uni
t seasonal ET) was significantly increased for the FACE treatment under bot
h soil N treatments. For the High N treatment, the WUE was 19 and 23% great
er for FACE than Control and for the Low N treatment the WUE was 12 and 7%
greater for FACE than Control in the 2 years, respectively. Published by El
sevier Science B.V.