Statistics for Coupling a land surface model with a hydrodynamic model for regional flood risk assessment due to climate change: Application to the Susquehanna River near Harrisburg, Pennsylvania
Total visits
| views | |
|---|---|
| Coupling a land surface model with a hydrodynamic model for regional flood risk assessment due to climate change: Application to the Susquehanna River near Harrisburg, Pennsylvania | 202 |
Total visits per month
| views | |
|---|---|
| January 2024 | 0 |
| February 2024 | 0 |
| March 2024 | 0 |
| April 2024 | 0 |
| May 2024 | 0 |
| June 2024 | 0 |
| July 2024 | 0 |
File Visits
| views | |
|---|---|
| jfr3.12763.pdf | 68 |
Top country views
| views | |
|---|---|
| United States | 177 |
| China | 8 |
| France | 5 |
| Ireland | 4 |
| Germany | 3 |
| Canada | 1 |
| Chile | 1 |
| India | 1 |
| Malaysia | 1 |
| Norway | 1 |
Top city views
| views | |
|---|---|
| Reston | 148 |
| Ashburn | 6 |
| Beijing | 4 |
| Zhengzhou | 3 |
| Castro Valley | 2 |
| Charlottesville | 2 |
| Chicago | 2 |
| Christiansburg | 2 |
| Dublin | 2 |
| Bengaluru | 1 |
| Boardman | 1 |
| Des Moines | 1 |
| Frederick | 1 |
| Hamar | 1 |
| Jamaica Plain | 1 |
| Mountain View | 1 |
| New York | 1 |
| Petaling Jaya | 1 |
| Shenzhen | 1 |