Bandara, K.; Pabasara, K.; Gunawardhana, L.; Bamunawala, J.; Sirisena, J.; Rajapakse, L.
Coupling Rainfall Intensity and Satellite-Derived Soil Moisture for Time of Concentration Prediction: A Data-Driven Hydrological Approach to Enhance Climate Responsiveness. Hydrology 2025, 12, 264.
https://doi.org/10.3390/hydrology12100264
AMA Style
Bandara K, Pabasara K, Gunawardhana L, Bamunawala J, Sirisena J, Rajapakse L.
Coupling Rainfall Intensity and Satellite-Derived Soil Moisture for Time of Concentration Prediction: A Data-Driven Hydrological Approach to Enhance Climate Responsiveness. Hydrology. 2025; 12(10):264.
https://doi.org/10.3390/hydrology12100264
Chicago/Turabian Style
Bandara, Kasun, Kavini Pabasara, Luminda Gunawardhana, Janaka Bamunawala, Jeewanthi Sirisena, and Lalith Rajapakse.
2025. "Coupling Rainfall Intensity and Satellite-Derived Soil Moisture for Time of Concentration Prediction: A Data-Driven Hydrological Approach to Enhance Climate Responsiveness" Hydrology 12, no. 10: 264.
https://doi.org/10.3390/hydrology12100264
APA Style
Bandara, K., Pabasara, K., Gunawardhana, L., Bamunawala, J., Sirisena, J., & Rajapakse, L.
(2025). Coupling Rainfall Intensity and Satellite-Derived Soil Moisture for Time of Concentration Prediction: A Data-Driven Hydrological Approach to Enhance Climate Responsiveness. Hydrology, 12(10), 264.
https://doi.org/10.3390/hydrology12100264
