This research develops a high-resolution chemical method for analyzing tree rings to reconstruct past climates and ecosystem responses. By measuring atomic-scale chemical variations within cellulose molecules, the study separates environmental signals from biological responses, enabling more detailed understanding of historical climate change, plant physiology, and long-term ecosystem adaptation.

This research investigates unstable lipid oxidation products called epoxides, tracking how different fatty acids form them across various fats and oils. By improving detection and understanding of these pathways, the project supports better quality control in pet food and other lipid-based industries, helping reduce waste, extend shelf life, and promote sustainable practices.