The future of our forests and the many benefits they provide, such as carbon storage, wildlife habitat, and clean air—depends on trees’ ability to reproduce successfully even as the climate changes rapidly. In many forest species, reproduction occurs in unpredictable bursts known as masting, where trees produce large, synchronized seed crops in some years and very little in others. This interannual variation is essential for overcoming seed predators and ensuring successful pollination, which in turn supports forest regeneration and long-term ecosystem functioning. However, climate change is increasingly disrupting masting patterns, potentially threatening the natural renewal of forests and the services they provide.
Our project is designed to transform our understanding of tree reproduction by uncovering the mechanisms behind masting and developing tools to predict how these processes will change in a warming world. We aim to achieve this by:
- uncovering the mechanisms of tree reproduction: through field studies, we are testing how environmental factors, such as variations in climate, stand density and trees characteristics, interact to trigger masting events.
- linking reproduction to forest regeneration: By studying long-term patterns of seed production and subsequent seedling recruitment, we seek to understand how changes in masting affect the establishment of new trees.
- predicting future reproductive trends: Leveraging extensive global datasets and innovative modeling techniques, we are developing predictive tools that can forecast changes in tree reproduction under different climate scenarios. This will help identify species and regions at risk and inform forest management strategies.
Overall, our research addresses a critical gap in our knowledge of how trees reproduce and lays the groundwork for more reliable predictions of forest dynamics. The outcomes of our work are expected to support better forest management and conservation policies, ensuring that forests continue to thrive and provide vital ecosystem services in the face of climate change.