We are global change ecologists and we use various tools — remote sensing, field observations, and modeling — to understand the impact of climate change on our ecosystems. We travel to ecosystems from tropics to the arctic. We use novel remote sensing techniques to see the ecosystems in ways we couldn't. We use advanced computer science techniques to analyze geospatial products. Please contact xiyang@virginia.edu if you are interested in joining the lab! We are looking for motivated undergraduate, graduate students, and postdocs.
Latest Publications
- Leaf angle as a leaf and canopy trait: Rejuvenating its role in ecology with new technology
- Difference in seasonal peak timing of soybean far-red SIF and GPP explained by canopy structure and chlorophyll content
- Two for one: Partitioning CO2 fluxes and understanding the relationship between solar-induced chlorophyll fluorescence and gross primary productivity using machine learning
- Combining near-infrared radiance of vegetation and fluorescence spectroscopy to detect effects of abiotic changes and stresses
- Climate change driving widespread loss of coastal forested wetlands throughout the North American coastal plain
- Representation of Leaf-to-Canopy Radiative Transfer Processes Improves Simulation of Far-Red Solar-Induced Chlorophyll Fluorescence in the Community Land Model Version 5
Tweets from the lab
- now we have both red and green! t.co/Yu3UC2ESOG
- Northern lights are already visible near Charlottesville by 7:30 pm! More to come t.co/bM5palsqxw
- RT @Mustard_Lab: Calling all early-career researchers! Transform your research and accelerate your career. Learn more t.co/CSCVJ2ld…