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Geoinformatics and Atmospheric Science: Introduction; Acknowledgements; REFERENCES; 1 Biweekly Sea Surface Temperature over the South China Sea and its association with the Western North Pacific Summer Monsoon; 1. Introduction; 2. Datasets and Methods; 3. Results; 4. Concluding Remarks; Acknowledgments; REFERENCES; 2 North Equatorial Indian Ocean Convection and Indian Summer Monsoon June Progression: a Case Study of 2013 and 2014; 1. Introduction; 2. Data and Methodology; 3. Results; 4. Conclusion and Discussion; Acknowledgments; REFERENCES
3 Sensitivity Study of Cloud Cover and Ozone Modeling to Microphysics Parameterization1. Introduction; 2. Data and Methods; 2.1. Study Area and Period; 2.2. The WRF Model; 2.3. Measurements for Model Evaluation; 2.4. Evaluation of the Model Results Using the Cloud Cover Mask; 2.5. Categorical Verification; 2.6. Objective Verification; 2.7. Evaluation of Meteorological Variables and Ozone Concentration; 3. Results and Discussion; 3.1. Cloud Cover; 3.2. The SAL Method; 3.3. Categorical Verification; 3.4. Meteorological Variables; 3.5. Ozone Concentrations; 4. Conclusions; Acknowledgments
5 High-Resolution Dynamical Downscaling of ERA-Interim Using the WRF Regional Climate Model for the Area of Poland. Part 2: Model Performance with Respect to Automatically Derived Circulation Types1. Introduction; 2. Data and Methods; 2.1. The WRF Model; 2.2. Calculation of Circulation Types; 2.2.1 Direction of Advection; 2.2.2 Cyclonality for 825 (Lower) and 500 (Upper) Isobaric Level; 2.2.3 Humidity Type; 2.3. Meteorological Data for the WRF Model Evaluation; 2.4. The WRF Model Evaluation; 3. Results; 3.1. WRF and E-OBS Comparison with Meteorological Measurements
3.2. Circulation Types Analysis4. Summary and Conclusions; Acknowledgments; REFERENCES; 6 Aerosol-Radiation Feedback and PM10 Air Concentrations Over Poland; 1. Introduction; 2. Methodology; 2.1. WRF-Chem Setup; 2.2. Evaluation of the WRF-Chem Model Results; 3. Results; 3.1. Meteorology; 3.2. PM10 Concentrations; Acknowledgments; REFERENCES; 4. Discussion and Conclusion; 7 The Relevance of Surface Roughness Data Qualities in Diagnostic Modeling of Wind Velocity in Complex Terrain: A Case Study from the Sacuteniezdotnik Massif (SW Poland); 1. Introduction; 2. Study Area; 3. Methods
3 Sensitivity Study of Cloud Cover and Ozone Modeling to Microphysics Parameterization1. Introduction; 2. Data and Methods; 2.1. Study Area and Period; 2.2. The WRF Model; 2.3. Measurements for Model Evaluation; 2.4. Evaluation of the Model Results Using the Cloud Cover Mask; 2.5. Categorical Verification; 2.6. Objective Verification; 2.7. Evaluation of Meteorological Variables and Ozone Concentration; 3. Results and Discussion; 3.1. Cloud Cover; 3.2. The SAL Method; 3.3. Categorical Verification; 3.4. Meteorological Variables; 3.5. Ozone Concentrations; 4. Conclusions; Acknowledgments
5 High-Resolution Dynamical Downscaling of ERA-Interim Using the WRF Regional Climate Model for the Area of Poland. Part 2: Model Performance with Respect to Automatically Derived Circulation Types1. Introduction; 2. Data and Methods; 2.1. The WRF Model; 2.2. Calculation of Circulation Types; 2.2.1 Direction of Advection; 2.2.2 Cyclonality for 825 (Lower) and 500 (Upper) Isobaric Level; 2.2.3 Humidity Type; 2.3. Meteorological Data for the WRF Model Evaluation; 2.4. The WRF Model Evaluation; 3. Results; 3.1. WRF and E-OBS Comparison with Meteorological Measurements
3.2. Circulation Types Analysis4. Summary and Conclusions; Acknowledgments; REFERENCES; 6 Aerosol-Radiation Feedback and PM10 Air Concentrations Over Poland; 1. Introduction; 2. Methodology; 2.1. WRF-Chem Setup; 2.2. Evaluation of the WRF-Chem Model Results; 3. Results; 3.1. Meteorology; 3.2. PM10 Concentrations; Acknowledgments; REFERENCES; 4. Discussion and Conclusion; 7 The Relevance of Surface Roughness Data Qualities in Diagnostic Modeling of Wind Velocity in Complex Terrain: A Case Study from the Sacuteniezdotnik Massif (SW Poland); 1. Introduction; 2. Study Area; 3. Methods