J. Koch Et Al. , "Climate Normalized Spatial Patterns of Evapotranspiration Enhance the Calibration of a Hydrological Model," Remote Sensing , vol.14, no.2, 2022
Koch, J. Et Al. 2022. Climate Normalized Spatial Patterns of Evapotranspiration Enhance the Calibration of a Hydrological Model. Remote Sensing , vol.14, no.2 .
Koch, J., Demirel, M. C., & Stisen, S., (2022). Climate Normalized Spatial Patterns of Evapotranspiration Enhance the Calibration of a Hydrological Model. Remote Sensing , vol.14, no.2.
Koch, Julian, Mehmet Cüneyd Demirel, And Simon Stisen. "Climate Normalized Spatial Patterns of Evapotranspiration Enhance the Calibration of a Hydrological Model," Remote Sensing , vol.14, no.2, 2022
Koch, Julian Et Al. "Climate Normalized Spatial Patterns of Evapotranspiration Enhance the Calibration of a Hydrological Model." Remote Sensing , vol.14, no.2, 2022
Koch, J. Demirel, M. C. And Stisen, S. (2022) . "Climate Normalized Spatial Patterns of Evapotranspiration Enhance the Calibration of a Hydrological Model." Remote Sensing , vol.14, no.2.
@article{article, author={Julian Koch Et Al. }, title={Climate Normalized Spatial Patterns of Evapotranspiration Enhance the Calibration of a Hydrological Model}, journal={Remote Sensing}, year=2022}