Free-air CO2 enrichment and soil nitrogen effects on energy balance and evapotranspiration of wheat

In order to determine the likely effects of the increasing atmospheric CO, concentration on future evapotranspiration, ET, plots of field-grown wheat were exposed to concentrations of 550 mu mol/mol CO2 (or 200 mu mol/mol abo ve current ambient levels of about 360 mu mol/mol) using a free-air CO2 enr ichment (FACE) facility. Data were collected for four growing seasons at am ple water and fertilizer (high N) and for two seasons when soil nitrogen wa s limited (low N). Measurements were made of net radiation, R-n; soil heat flux; air and soil temperatures; canopy temperature, T-s; and wind speed. S ensible heat flux was calculated from the wind and temperature measurements . ET, that is, latent heat flux, was determined as a residual in the energy balance. The FACE treatment increased daytime T-s about 0.6 degrees and 1. 1 degrees C at high and low N, respectively. Daily total R-n was reduced by 1.3% at both levels of N. Daily ET was consistently lower in the FACE plot s, by about 6.7% and 19.5% for high and low N, respectively.