Journal
NATURAL HAZARDS
Volume 116, Issue 1, Pages 295-317Publisher
SPRINGER
DOI: 10.1007/s11069-022-05674-4
Keywords
Land Use Land Cover; Machine learning; WRF model; Urban thunderstorms; Indian region
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This study assesses the impact of Land Use Land Cover (LULC) on the evolution of mesoscale convective systems in Bhubaneswar, India. The results show that the LULC map generated using the Classification and Regression Trees (CART) method has high accuracy and less rainfall error.
This study assesses the sensitivity of Land Use Land Cover (LULC) representation on the evolution of mesoscale convective systems over Bhubaneswar, a rapidly growing city (similar to 77% growth in the last two decades) in India. In this study, three types of LULC maps have been prepared using supervised machine learning (ML) methods such as Classification and Regression Trees (CART), Naive B ayes (NB), and Support Vector Machine (SVM) on Google Earth Engine (GEE) platform using Landsat 8 for 2014. A high accuracy score (87%) and kappa coefficient (84%) revealed the best performance of CART in generating the LULC map. The Weather Research and Forecasting (WRF) model at 6 and 2 km horizontal resolution is forced with these LULC maps. Model results highlight that the CART experiment exhibits relatively less bias in 2 m relative humidity (similar to- 10% to - 5%), 2 m temperature (similar to 2.5 degrees C to 0 degrees C), and 10 m wind speed (- 1 to similar to 1.8 m s(-1) up to peak stage of the thunderstorms. The CART performs better with less rainfall error (similar to- 16 mm) than CNTL (similar to- 33 mm), NB (similar to- 37 mm), and SVM (similar to- 38 mm) and is supported by the quantitative statistical analysis, viz. less false alarm ratio, critical success index for different thresholds. LULC class-wise analysis indicates a higher variation in surface and lower atmospheric parameters over urban, shrubland, and cropland while less variation over barren, forest, and water. Thus, the study highlights the credibility of ML models in representing LULC information to input the high-resolution models.
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