ProDoc

Forest ecosystem responses to climatic drivers

Contact
Nina Buchmann

Project Members
Matthias Haeni
Werner Eugster
Roman Zweifel (WSL)

Time Plan
2011-2014

Related projects
GHG Europe
ICOS
Swiss FluxNet
Forest_CH
DendroNEP

Research Sites
Davos Seehornwald
Laegeren

Further Information
This project is part of the program Plant Sciences and Policy of the Zuerich-Basel Plant Science Center PSC PhD Program (SNSF ProDoc Grant-Number: PDAMP3 127227).

Context

The project aims at understanding time lags between climatic drivers and the respective ecosystem responses in terms of net ecosystem productivity (NEP) at the two long-term Swiss Fluxnet sites Davos (since 1997) and Laegeren (since 2005). The project combines knowledge from plant physiology, forest ecology and meteorology to disentangle the effects on NEP of actual physical drivers, and biotic conditions determined by past and recent climatic conditions.

Objectives

1) Identify climatic drivers of NEP at two contrasting forest sites
2) Quantify the impact of the climatic drivers on observed time lags of ecosystem responses
3) Assess the underlying physiological mechanisms explaining such time lags and therefore flux partitioning.

Policy Related Objectives

Understanding the natural processes determining the carbon balance of forest ecosystems is of great global interest for estimating country-specific carbon budgets within the United Nations Framework Convention on Climate Change (UNFCCC). We expect to provide relevant information to national administrations and to satisfy their demand for more precise, country-wide forest ecosystem carbon budgets.

Approach

1) Measure microclimate profiles, eddy covariance net ecosystem CO₂ and H₂O vapour exchange, continuous stem radius changes, and [CO₂] in tree stems at the two sites
2) Analyse statistical patterns of historic time series which quantify the time-dependent weight of climatic drivers on ecosystem responses.
3) Test the applicability of physiological concepts to explain the observed time lags and thus flux partitioning of CO₂ and H₂O vapour fluxes at the ecosystem level.

Publications