Abstract
Accurate estimation of drought events is vital for the mitigation of their adverse consequences on water resources, agriculture and ecosystems. Machine learning algorithms are promising methods for drought prediction as they require less time, minimal inputs, and are relatively less complex than dynamic or physical models. In this study, a combination of machine learning with the Standardized Precipitation Evapotranspiration Index (SPEI) is proposed for analysis of drought within a representative case study in the Tibetan Plateau, China, for the period of 1980–2019. Two timescales of 3 months (SPEI-3) and 6 months (SPEI-6) aggregation were considered. Four machine learning models of Random Forest (RF), the Extreme Gradient Boost (XGB), the Convolutional neural network (CNN) and the Long-term short memory (LSTM) were developed for the estimation of the SPEIs. Seven scenarios of various combinations of climate variables as input were adopted to build the models. The best models were XGB with scenario 5 (precipitation, average temperature, minimum temperature, maximum temperature, wind speed and relative humidity) and RF with scenario 6 (precipitation, average temperature, minimum temperature, maximum temperature, wind speed, relative humidity and sunshine) for estimating SPEI-3. LSTM with scenario 4 (precipitation, average temperature, minimum temperature, maximum temperature, wind speed) was relatively better for SPEI-6 estimation. The best model for SPEI-6 was XGB with scenario 5 and RF with scenario 7 (all input climate variables, i.e., scenario 6 + solar radiation). Based on the NSE index, the performances of XGB and RF models are classified as good fits for scenarios 4 to 7 for both timescales. The developed models produced satisfactory results and they could be used as a rapid tool for decision making by water-managers.
Highlights
Drought is an environmental disaster that can devastate regional agriculture, water resources and ecosystem servicesThe associate editor coordinating the review of this manuscript and approving it for publication was Sotirios Goudos .as well as human settlements [1]–[3]
The current study aimed to identify drought events by investigating the spatial extent of drought (SEoD) of 30 meteorological stations at two aggregated timescales of 3 (SPEI-3) and 6 (SPEI-6) months
The results demonstrated that scenario 4 with the Random Forest (RF) model is good enough for assessing Standardized Precipitation Evapotranspiration Index (SPEI)-6 if only temperature, wind speed and precipitation data are available
Summary
Drought is an environmental disaster that can devastate regional agriculture, water resources and ecosystem servicesThe associate editor coordinating the review of this manuscript and approving it for publication was Sotirios Goudos .as well as human settlements [1]–[3]. Drought is an environmental disaster that can devastate regional agriculture, water resources and ecosystem services. The associate editor coordinating the review of this manuscript and approving it for publication was Sotirios Goudos. As well as human settlements [1]–[3]. The frequency and intensity of extreme drought events are expected to increase [4]. Human impacts on the atmospheric dynamics could be considered as one of the main reasons for the increasing severity, frequency and extent of droughts during the recent decades [5]. A. Mokhtar et al.: Estimation of SPEI Meteorological Drought Using ML Algorithms
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