Pan Evaporation to Reference Evapotranspiration Conversion Methods
Publication: Journal of Irrigation and Drainage Engineering
Volume 128, Issue 3
Abstract
Reference evapotranspiration is often estimated from evaporation pan data as they are widely available and of longer duration than more recently available micrometeorologically based estimates. Evaporation pan estimation of relies on determination of the pan coefficient which depends on upwind fetch distance, wind run, and relative humidity at the pan site. The estimation equations have been developed using regression techniques applied either to the table presented in FAO-24 or to the original data upon which this table was based (from lysimeter studies in Davis, Calif.). Here, the relative performances of the FAO-24 table and six different equations are evaluated with respect to reproducing the original data table using the FAO-24 table as a standard. Evaporation pan- and CIMIS-based estimates of are also compared for stations having ranges of mean humidities (48–66%) and mean wind runs (156–193 km/day) located in the Sacramento and San Joaquin valleys, and for a coastal station (Point Heuneme) near Ventura, Calif., having a greater mean humidity (71%). In comparing the means, standard deviations, root-mean-square errors, and linear regression coefficients, five of the six equations reproduced the original data table with approximately the same accuracy as the FAO-24 table. Use of either table slightly underestimated measured at the coastal site, while the Cuenca, Allen-Pruitt, and Snyder equations most closely approximated the average measured at all seven sites.
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References
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Copyright © 2002 American Society of Civil Engineers.
History
Received: Dec 6, 2000
Accepted: Aug 7, 2001
Published online: May 15, 2002
Published in print: Jun 2002
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