• Murgia I. et al., in review: Capturing temporal shifts in forest soil-atmosphere feedbacks: evidence from a Mediterranean catchment. 

​

• Penna D., 2026: Controls on runoff processes in forested catchments worldwide. Nature Water.

​​

• Di Prima S. et al., 2026: Trees control hillslope subsurface flow: Insights from stemflow and throughfall experiments, geophysical surveys, and numerical modeling. Journal of Hydrology.

​​

• Verdone M. et al., 2025: Topography controls the response of beech trees to atmospheric demand during soil moisture droughts. Ecohydrology.

​​​

• Kaffas K. et al., 2025: Controls on preferential flow and its role on streamflow generation in a Mediterranean forested catchment. Journal of Hydrology.

​​

• Penna D., 2025: Climate and landscape drive catchment hydrological processes at the global scale. Nature Water (News and Views).

​

• Verdone M. et al.,  2025: Variability and temporal stability of throughfall along a hillslope. Journal of Hydrology.

​

• Penna D., 2024: A recipe for why and how to set up and sustain an experimental catchment. Hydrological Processes.

​

​​​​• Fabiani G., Klaus J., Penna D.,  2024: The influence of hillslope topography on beech water use: a comparative study in two different climates. Hydrology and Earth System Sciences.

​​​

• Macchioli Grande M. et al., 2024: Seasonal meteorological forcing controls runoff generation at multiple scales in a Mediterranean forested mountain catchment. Journal of Hydrology.

​

• Cocozza C., Penna D., 2022: Towards a more active dialogue between hydrologists and ecophysiologists for interdisciplinary studies in forest ecosystems. Science of the Total Environment.​

​​​​

• Kabala P. et al., in preparation: Soil moisture modulates sap flow dynamics in beech trees along a Mediterranean hillslope.​​​

​

​​​​