Project
CSF experiment NL
We aim to quantify the effectiveness of stem density management in minimizing negative effects of drought and heatwaves on (1) forest productivity, (2) forest resilience, and (3) carbon storage in both trees and soils. We use these data to calibrate a forest growth model with which we test the effects of density management at larger spatial and temporal scales. This knowledge is pivotal to further develop an existing forestry-training-app and DSS to make them CSF proof.
Background
As a response to global climate change, which is putting increased pressure on most ecosystems, national and international agreements aim at creating forests that are productive, resilient to climate change, and that store carbon to mitigate global warming. However, these aims are being challenged by increased tree mortality rates and decreased tree growth rates in response to increased incidence of drought.
The summer drought of 2018 alone resulted in 100 million m3 of dead trees in Europe, equivalent to a loss of approximately 3.5 billion euros wood. Therefore, the challenge is to develop climate-smart forestry (CSF) in order to sustain or increase forest productivity, forest resilience and forest carbon storage under climate change.
Currently, there is a lack of crucial insights into the effects of forest management on the growth and survival of trees, and on carbon storage in both trees and forest soils, particularly under increased incidence of drought. We test the hypothesis that CSF aims can be achieved via controlling stand density by applying intermediate levels of tree harvest intensity. We use an unprecedented, multi-site, forest experiment covering 15 plots of >1ha (5 for beech, Scots pine, and Douglas fir, respectively), with 4 stand density treatments (control, 33% trees removed, 67% trees removed, clearcut) in each plot.
Publications
-
Duurzaam en klimaatbestendig bosbeheer in de 21ste eeuw : Een bosexperiment voor nieuwe inzichten en praktische oplossingen
Vakblad Natuur Bos Landschap (2022), Volume: 184 - ISSN 1572-7610 - p. 4-7. -
Optimizing stand density for climate-smart forestry : A way forward towards resilient forests with enhanced carbon storage under extreme climate events
Soil Biology and Biochemistry (2021), Volume: 162 - ISSN 0038-0717