Giving Compass' Take:
- New research from the University of Freiburg suggests that mixing tree species, a commonly proposed climate resilience effort, does not always actually improve forests' drought resilience.
- Why might greater tree diversity cause increased stress and competition for water in forests? How can climate adaptation efforts work with the unique features of each existing ecosystem?
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Drawing on tree ring data from the world’s largest network of tree diversity experiments, researchers found that diverse forests can initially support better tree growth during single-year droughts. However, as droughts persist longer within a year or extend over consecutive years, these positive effects can turn negative depending on local conditions. In some cases, mixing tree species strengthened forest resilience; in others, it increased stress and competition for water.
“Our findings make clear that increasing tree diversity is not a one-size-fits-all recommendation as we face increasingly intense and longer droughts,” says Hernán Serrano-León, lead author and forest scientist at the University of Freiburg’s Faculty of Environment and Natural Resources. “To improve the drought resilience of mixed forests, we need to match species mixtures and forest management strategies to local environments.”
Data From the Largest Network of Tree Diversity Experiments
To isolate the impact of tree diversity, the team used data from the TreeDivNet network – nine large-scale, planted tree diversity experiments spanning six European countries, from the Mediterranean to the boreal zone. Researchers collected and measured over 1,600 tree samples from 68 different species mixtures. They then filtered these samples for quality, leaving 948 for the final analysis. This approach allowed them to compare how 21 tree species growing in monocultures or mixtures responded to drought under similar conditions such as age, density, and management.
Researchers combined dendrochronology (studying annual tree rings) with advanced X-ray tomography, providing detailed measurements of tree growth. This work benefited from a close international collaboration within the MixForChange and CAMBIO projects, both focused on the climate adaptation potential of mixed-species forest plantations.
Choosing the Right Species Mix and Adapting to Local Conditions Is Key
A key insight of the study is that both positive and negative effects of tree diversity result from complex interactions among species. For instance, positive effects on drought resilience may stem from more efficient sharing or facilitation of water resources among different species. However, negative effects can also occur when increased diversity leads to stronger competition for limited water during drought.
Read the full article about improving forests' drought resilience at University of Freiburg.