A new drought model for disaster risk management in the Punjab, Sindh and Baluchistan provinces of Pakistan

Black, Emily; Maidment, Ross I.; Rees, Elizabeth; Nderitu, Eleanor

doi:10.3389/fclim.2024.1332233

Front. Clim.

2024

DOI: 10.3389/fclim.2024.1332233

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A new drought model for disaster risk management in the Punjab, Sindh and Baluchistan provinces of Pakistan

Emily Black,

Ross I. Maidment,

Elizabeth Rees

et al.

Abstract: Drought poses a continual threat to both lives and livelihoods in the Global South. Although the impact on food security from drought could be reduced through early release of funds, the humanitarian sector typically reacts to crises rather than anticipates them. A significant challenge lies in devising a drought monitoring and forecasting system that can function across environmentally and economically diverse regions. This is particularly evident in Pakistan, which encompasses environments ranging from ferti… Show more

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A computationally lightweight model for ensemble forecasting of environmental hazards: General TAMSAT-ALERT v1.2.1

Black,

Ellis,

Maidment

2024

Geosci. Model Dev.

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Abstract. Efficient methods for predicting weather-related hazards are crucial for the effective management of environmental risk. Many environmental hazards depend on the evolution of meteorological conditions over protracted periods, requiring assessments that account for evolving conditions. The TAMSAT-ALERT approach addresses this challenge by combining observational monitoring with a weighted multi-year ensemble. In this way, it enhances the utility of existing systems by enabling users to combine multiple streams of monitoring and meteorological forecasting data into holistic hazard assessments. TAMSAT-ALERT forecasts are now used in a number of regions in the Global South for soil moisture forecasting, drought early warning and agricultural decision support. The model presented here, General TAMSAT-ALERT, represents a significant scientific and functional advance on previous implementations. Notably, General TAMSAT-ALERT is applicable to any variable for which time series data are available. In addition, functionality has been introduced to account for climatological non-stationarity (for example due to climate change), large-scale modes of variability (for example El Niño) and persistence (for example of land-surface conditions). In this paper, we present a full description of the model, along with case studies of its application to the prediction of central England temperature, Pakistan vegetation conditions and African precipitation.

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A computationally lightweight model for ensemble forecasting of environmental hazards: General TAMSAT-ALERT v1.2.1

Black,

Ellis,

Maidment

2024

Geosci. Model Dev.

View full text Add to dashboard Cite

show abstract

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A new drought model for disaster risk management in the Punjab, Sindh and Baluchistan provinces of Pakistan

Cited by 1 publication

References 35 publications

A computationally lightweight model for ensemble forecasting of environmental hazards: General TAMSAT-ALERT v1.2.1

A computationally lightweight model for ensemble forecasting of environmental hazards: General TAMSAT-ALERT v1.2.1

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