Prediction of the daily spatial variation of stem water potential in cherry orchards using weather and Sentinel-2 data

Citation (APA 7)

Zambrano, F., Herrera, A., Olguín, M., Miranda, M., Garrido, J., & Miyasaka, A. (2024). Prediction of the daily spatial variation of stem water potential in cherry orchards using weather and Sentinel-2 data. Environmental Engineering. https://doi.org/10.31223/X53H6S

Abstract

The common practice for irrigation management is to apply the water lost by evapotranspiration. However, we could manage the irrigation by monitoring the plant’s water status by measuring the stem water potential (Ψ_s), which is currently costly and time ‐consuming. The primary goal of this work is to predict the daily spatial variation of Ψ_s using machine learning models. We measured Ψ_s in two orchards planted with sweet cherry tree variety Regina, and we monitored 30 trees weekly and biweekly in the central part of Chile, during two seasons, 2022‐2023 and 2023‐2024, and between October and April. To predict the Ψ_s, we used the random forest (RF), extreme gradient boosting (XGBoost), and support vector machine (SVM) models. We selected vapor pressure deficit (VPD), reference evapotranspiration (ET0), relative humidity, and temperature as weather predictors. Also, we used as predictors spectral vegetation indices (VIs) and biophysical parameters derived from Sentinel‐2. We compared two schemes, one for estimation and another for prediction. We discovered that XGboost and RF worked best for both. The estimation had an R^2 of 0.76 and an RMSE of 0.24 MPa. The prediction, on the other hand, had an R2 of 0.59 and an RMSE of 0.36 MPa. The analysis of importance variables reveals that weather predictors, such as VPD, ET_o, and temperature, have a higher weight in the model. These are followed by VIs that use short‐wave infrared regions, which highlight the moisture stress index (MSI) and the disease and water stress index (DWSI).