Alta joined EucXylo for her PhD after working in the agricultural sector for two years. Her interest in using models to explain plant responses to environmental changes and how these models can be implemented, led her to EucXylo. Alta graduated in 2022 and the first, second and fourth experimental chapters of her dissertation were successfully published.
PhD project title: Investigating the photosynthetic and hydraulic trade-off during drought recovery in eucalypts
The project focused on investigating the hydraulic responses, as well as the photosynthetic / gas-exchange responses, of two Eucalyptus hybrids (Eucalyptus grandis x Eucalyptus camaldulensis (EGC) and Eucalyptus urophylla x Eucalyptus grandis (EUG)) during drought and drought recovery (or post-drought). The results showed EGC was more resistant to embolism formation as compared to EUG; however, EGC showed lower levels of hydraulic recovery after rewatering. Additionally, EGC was more resistant to embolism formation, however, could not recover hydraulic conductance to the same extent as EUG. EGC also showed a more resistant strategy where gas exchange was tightly regulated with decreases of growth and production during drought, whereas EUG showed a more resilient strategy where gas exchange and growth were maintained during drought. Lastly, it was shown that machine learning (ML) can be a useful tool for predicting stomatal response based on climate variables and species traits. ML models were able to capture these trends parsimoniously without prior knowledge of the underlying physiology of the tree species.
