Prediction of Evapotranspiration in the Pampean Plain from CERES Satellite Products and Machine Learning Techniques

Q4 Earth and Planetary Sciences Meteorologica Pub Date : 2023-10-04 DOI:10.24215/1850-468xe021

Facundo Carmona, Ad´an Farami˜n´an, Ra´ul Rivas, Facundo Orte

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Abstract

A key aspect in agricultural zones, such as the Pampean Plain of Argentina, is to accurately estimate evapotranspiration rates to optimize crops and irrigation requirements and the floods and droughts prediction. In this sense, we evaluate six machine learning approaches to estimate the reference and actual evapotranspiration (ET0 and ETa) through CERES satellite products data. The results obtained applying machine learning techniques were compared with values obtained from ground-based information. After training and validating the algorithms, we observed that Support Vector machine-based Regressor (SVR) showed the best accuracy. Then, with an independent dataset, the calibrated SVR were tested. For predicting the reference evapotranspiration, we observed statistical errors of MAE = 0.437 mm d−1, and RMSE = 0.616 mm d−1, with a determination coefficient, R2, of 0.893. Regarding actual evapotranspiration modelling, we observed statistical errors of MAE = 0.422 mm d−1, and RMSE =0.599 mm d−1, with a R2 of 0.614. Comparing the results obtained with the machine learning models developed another studies in the same field, we understand that the results are promising and represent a baseline for future studies. Combining CERES data with information from other sources may generate more specific evapotranspiration products, considering the different land covers.

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基于CERES卫星产品和机器学习技术的潘潘平原蒸散量预测

在农业地区，如阿根廷潘潘亚平原，一个关键方面是准确估计蒸散速率，以优化作物和灌溉需求，并预测洪涝和干旱。在这个意义上，我们评估了六种机器学习方法，通过CERES卫星产品数据估计参考和实际蒸散发(ET0和ETa)。将应用机器学习技术获得的结果与地面信息获得的值进行比较。经过训练和验证，我们发现基于支持向量机的回归器(SVR)具有最好的准确性。然后，使用独立数据集对校正后的SVR进行检验。预测参考蒸散量的统计误差MAE = 0.437 mm d - 1, RMSE = 0.616 mm d - 1，决定系数R2为0.893。对于实际蒸散发模型，我们观察到统计误差MAE = 0.422 mm d - 1, RMSE =0.599 mm d - 1, R2为0.614。将获得的结果与同一领域的另一项研究开发的机器学习模型进行比较，我们了解到结果是有希望的，并代表了未来研究的基线。将CERES数据与其他来源的信息结合起来，考虑到不同的土地覆盖，可以产生更具体的蒸散产物。

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来源期刊

Meteorologica Earth and Planetary Sciences-Atmospheric Science

CiteScore

1.00

自引率

0.00%

发文量

审稿时长

24 weeks

期刊介绍： Meteorologica is the semestral journal of Centro Argentino de Meteorólogos, which is published since 1970 and serves on the Core of Argentine Scientific Journals since 2005. Meteorologica publishes original papers in the field of atmospheric sciences and oceanography written in Spanish or English. Theoretical and applied research description, dataset description, extensive reviews about a particular topic related with atmospheric sciences or oceanography are within the journal scope. Papers must be original and concise. Meteorologica publishes one volume (two issues) per year.