Abstract
A Multi-Model Ensemble (MME) based seasonal rainfall forecast customization tool called FOCUS was developed for Myanmar in order to provide improved seasonal rainfall forecast to the country. The tool was developed using hindcast data from 7 Global Climate Models (GCMs) and observed rainfall data from 49 meteorological surface observatories for the period of 1982 to 2011 from the Department of Meteorology and Hydrology. Based on the homogeneity in terms of the rainfall received annually, the country was divided into six climatological zones. Three different operational MME techniques, namely, (a) arithmetic mean (AM-MME), (b) weighted average (WA-MME), and (c) supervised principal component regression (PCR-MME), were used and built-in to the tool developed. For this study, all 7 GCMs were initialized with forecast data of May month to predict the rainfall during June to September (JJAS) period, which is the predominant rainfall season for Myanmar. The predictability of raw GCMs, bias-corrected GCMs, and the MMEs was evaluated using RMSE, correlation coefficients, and standard deviations. The probabilistic forecasts for the terciles were also evaluated using the relative operating characteristics (ROC) scores, to quantify the uncertainty in the GCMs. The results suggested that MME forecasts have shown improved performance (RMSE = 1.29), compared to the raw individual models (ECMWF, which is comparatively better among the selected models) with RMSE = 4.4 and bias-corrected RMSE = 4.3, over Myanmar. Specifically, WA-MME (CC = 0.64) and PCR-MME (CC = 0.68) methods have shown significant improvement in the high rainfall (delta) zone compared with WA-MME (CC = 0.57) and PCR-MME (CC = 0.56) techniques for the southern zone. The PCR method suggests higher predictability skill for the upper tercile (ROC = 0.78) and lower tercile categories (ROC = 0.85) for the delta region and is less skillful over lower rainfall zones like dry zones with ROC = 0.6 and 0.63 for upper and lower terciles, respectively. The model is thus suggested to perform relatively well over the higher rainfall (Wet) zones compared to the lower (Dry) zone during the JJAS period.
Highlights
Rainfall in Myanmar is highly variable over space and time, largely because of a varied topography and multiple environmental influences
It is directly impacted by the Indian/ South Asian monsoon systems as well as convective rainfall from the Bay of Bengal [1, 2]. e strength of seasonal rainfall in the country, to some extent, is influenced by the large-scale climate drivers such as El Niño Southern Oscillation (ENSO) and Indian Ocean Dipole (IOD) [1, 3,4,5]
As JJAS is major rainfall season for all the zones of the country, this study focused on investigating characteristics of rainfall over JJAS and predicting seasonal rainfall for its operational application in agricultural and water resources management sector
Summary
Rainfall in Myanmar is highly variable over space and time, largely because of a varied topography and multiple environmental influences. According to the Department of Meteorology and Hydrology (DMH), it is observed that ENSO’s warm phase (El Niño) has resulted in deficient rainfall and higher temperatures, while La Niña, the cold phase, tends to have opposite impacts in the country [6]. Presence of such a teleconnection between the large-scale phenomena and the local climate of Myanmar is expected to enhance seasonal prediction. Rainfall patterns associated with historical ENSO phases (El Niño and La Niña) is likely to re-occur during similar ENSO phases in future. e prediction of the present year would
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