Response of carbon, water and energy fluxes to drought and flood at a forest ICOS station in Norway
- Norwegian Institute of Bioeconomy Research, Ås, Norway (holger.lange@nibio.no)
Hurdal (NO-Hur) is a recently labelled ICOS class 2 station in Southeast Norway. It represents a typical southern boreal forest of medium productivity, dominated by old Norway spruce (average tree height: 25 m, ages: up to 100 years) with some pine and broadleaved trees. The eddy covariance technique is used to measure CO2 fluxes on a 42 m tower since 2021 . The measurements have an average footprint area of approximately 63 ha.
In 2023, the region experienced an unusual dry spring and then an extraordinary flood in August. Both events showed significant impact on the Net Ecosystem Exchange (NEE) and heat fluxes. The station is also equipped with automatic dendrometers and sap flow devices on the dominant spruce trees, allowing us to investigate the impact of these events at the individual tree scale. We will present tree growth and transpiration flux at different temporal scales (from sub-daily to seasonal), and relate these single tree observations with environmental variables, ecosystem-level NEE and evapotranspiration using phase synchronization analysis. These observational data will yield insights into carbon and water processes of a boreal forest at different scales in response to multiple disturbances.
How to cite: Lange, H., Zhao, J., and Meissner, H.: Response of carbon, water and energy fluxes to drought and flood at a forest ICOS station in Norway, EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-3237, https://doi.org/10.5194/egusphere-egu24-3237, 2024.