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Evaluation of Crop Coefficients and Evapotranspiration in English Walnut
Published by the American Society of Agricultural and Biological Engineers, St. Joseph, Michigan www.asabe.org
Citation: 2017 ASABE Annual International Meeting 1701457.(doi:10.13031/aim.201701457)
Authors: Allan E Fulton, Cayle C Little, Richard L Snyder, Bruce D Lampinen, Richard P Buchner
Keywords: California, crop coefficient, English walnut, evapotranspiration, irrigation requirements.
Abstract. In 1998, crop coefficient (Kc) values for an early-leafing, walnut cultivar grown in the San Joaquin Valley were published. They have been used in combination with short canopy reference evapotranspiration (ETo) to estimate crop evapotranspiration (ETc) for irrigation scheduling. Land planted in late-leafing English walnut varieties now surpass early-leafing varieties. There is a need to update walnut Kc, especially in the Sacramento Valley, which accounts for 50% of the statewide production and has about double the rainfall of the San Joaquin Valley where the earlier Kc curves were developed. Research was undertaken to evaluate walnut Kc values for modern cultivars and production systems in the Sacramento Valley. A residual of the energy balance method was used to measure real-time ETc and Kc over multiple years in two separate orchards with different designs and growing conditions. Net radiation and ground heat flux were measured, and both eddy covariance and surface renewal methods were used to measure sensible heat flux. The residual of the energy balance equation was used to calculate latent heat flux density, which was converted to mass flux density giving ETc. Kc values were slightly higher in the first half of the irrigation season, but slightly lower in the latter half relative to the older Kc curves. Regional walnut ETc averages about 5 percent lower with the updated Kc values. In the Sacramento Valley, dormant-season soil moisture storage and in-season rainfall reduces the need for irrigation. Since about 105,000 ha of English walnuts are grown in California, this reduction in seasonal ETc and irrigation can contribute to higher water productivity in California.
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