Abstract
Climate change has intensified rainfall variability, increasing urban flooding risks in arid regions like Makkah and Riyadh. This study develops Intensity-Duration-Frequency (IDF) curves to analyze rainfall intensities for various storm durations and return periods, supporting urban planning and water resource management. Historical precipitation data (1950–2020) and future projections from two Shared Socioeconomic Pathway scenarios (2021–2100) were used to construct IDF curves for Makkah and Riyadh to assess precipitation extremes and support hydrological and infrastructure planning. Downscaling and bias correction were applied to five Global Climate Models, followed by feature engineering using CatBoost and LightGBM. Multi-Model Ensemble (MME) predictions were then evaluated using machine learning algorithms, including AdaBoost, CatBoost, and XGBoost, with XGBoost achieving the highest accuracy. For precipitation modeling, Gamma and Log-Pearson 3 distributions were identified as the best fits for observed and projected data in Makkah and Riyadh, respectively, underscoring the importance of selecting appropriate probability distributions to accurately capture precipitation extremes. The study offers a predictive tool in terms of climate resilience of urban areas within arid zones, which strengthens climate projections to aid decision-making.
| Original language | English |
|---|---|
| Article number | 1671320 |
| Journal | Frontiers in Environmental Science |
| Volume | 13 |
| DOIs | |
| State | Published - 2025 |
UN SDGs
This output contributes to the following UN Sustainable Development Goals (SDGs)
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SDG 6 Clean Water and Sanitation
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SDG 9 Industry, Innovation, and Infrastructure
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SDG 11 Sustainable Cities and Communities
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SDG 13 Climate Action
Keywords
- climate variability
- global climate models
- intensity-duration-frequency
- predictive modeling
- shared socioeconomic pathways
- statistical downscaling
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