Using machine learning techniques to model shifts in forest climate habitat across North America
Abstract
The Forests of North America play a critical role in the global carbon cycle and biodiversity but they are threatened by the rapidly changing climate. Assisted migration is one tool we have to mitigate the effects of climate change. However, there are multiple climate variables that are changing, so it is not obvious how far and in which direction to move species or seed sources. Statistical analysis and modeling is needed to translate multivariate climate change into geographic movements. For this purpose, we evaluated three machine learning approaches (Linear discriminate analysis, random forest, and a neural network). The random forest model had the highest accuracy against an independent test set, at the ecosystem level and for all of North America. The random forest also had good certainty indicators which could be used to rate site suitability of sites for assisted migration. However precipitation values have a high feature importance so errors in precipitation projections could compromise the models predictions. Overall the random forest model could be a valuable decision support tool for assisted migration in North America.
About me
I am originally from Oregon in the states. I graduated from the University of Oregon with a biology degree and a computer science degree. After graduation I moved to New York city for two years and worked as a data scientist. I decided to go back to school so I could work on forestry and climate change related modeling projects. I am currently in the Trans Atlantic Forestry Program and working in Andreas Hamman's lab.
Growing up in Oregon I also love rafting, rock climbing and skiing!
Recorded Presentation
Part of a Larger Project
While envelope models provide valuable insights into potential migration patterns, they are not without limitations. They usually only considering climate variables; however there are other crucial factors that influence species' distributions. This analytical project is just the first phase of a larger five year project. The DIVERSE team will take these scientific insights and preform field experiments across Canada to better support the resilience of ecosystems and mitigate the adverse effects of climate change. More info here.