Aquacrop model calibration in potato and its use to estimate yield variability under field conditions
Date
2013Author
de la Casa, Antonio Carlos
Ovando, Gustavo Gabriel
Bressanini, Luciano
Martínez, Jorge Mario
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AquaCrop model estimates the crop pro ductivity decrease in response to water stress, determining the biomass (B)
based on water productivity (WP) and accumulated transpiration (ΣTr); and the yield (Y) is calculated according to B
and the harvest index (HI). AquaCrop was evaluated considering different WP values for 2010 late growing season to
simulate crop yield of potato (Solanum tuberosum L.) cv. Spunta, in a commercial production field of 9 ha located in
the green belt of Cordoba city (31 ̊30'S, 64 ̊08'W, 402 m asl), while monitoring in 2009 was used to verify the model.
Canopy cover estimation by AquaCrop was adjusted using observed field data obtained from vertical digital photographs acquired at 2.5 m height. WP values of 15.8 and 31.6 (for C3 and C4 species, respectively) and two intermediate
values 21 and 26.3 g·m−2 were considered to evaluate the model performance. While linear function between observed
tuber yields and estimated by AquaCrop had always a correlation coefficient greater than 0.94 (p < 0.001), using WP =
26.3 and WP =31.6 g·m−2 presented overestimation, whereas with 15.8 g·m−2 had an opposite behavior, while WP = 21
g·m−2 was the value that produced the lowest estimation error. In addition, soil moisture from this estimated value of
WP was highly correlated with measured water content in different areas of production field. The verification test
shows that while the model slightly underestimates canopy cover, biomass was overestimated. After setting the coefficients of canopy cover development, the AquaCrop crop model estimated adequately potato yield for high production
values that are less affected by lack of water, but in both years showed a tendency to overestimate the lowest yields, as
was observed for other crops. Meanwhile, the dispersion between the observed and estimated yield was higher in the
verification test because the sampling this year was more random.
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de la Casa, A. C., Ovando, G. G., Bressanini, L. and Martínez, J. M. (2013). Aquacrop model calibration in potato and its use to estimate yield variability under field conditions. Atmospheric and Climate Sciences, 3(3), 397-407. http://dx.doi.org/10.4236/acs.2013.33041