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
- Relationship between leaf physiologic traits and canopy color indices during the leaf expansion period in an oak forest
- Seasonal variations of leaf and canopy properties tracked by ground-based NDVI imagery in a temperate forest
- Regional-scale phenology modeling based on meteorological records and remote sensing observations
- Varying contributions of drivers to the relationship between canopy photosynthesis and far-red sun-induced fluorescence for two maize sites at different temporal scales
- Application of DMSP/OLS nighttime light images: A meta-analysis and a systematic literature review
- Chlorophyll fluorescence tracks seasonal variations of photosynthesis from leaf to canopy in a temperate forest
Tweets from the lab
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Read the new accepted #TansleyReview from Schenk et al. 📖 Positive pressure in xylem and its role in hydraulic function t.co/XpCpfhQCYC
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Read the new accepted #TansleyReview from Muller-Landau et al. 📖 Patterns and mechanisms of spatial variation in tropical #forest productivity, woody residence time, and biomass 🌳🌲t.co/ZsVM3vDcBB
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Please share widely: PLANT BIOLOGIST ASST PROF, TENURE-TRACK DEPT OF BIOLOGY COLORADO STATE UNIVERSITY Potential research areas include plant physiology, plant functional traits, & plant interactions with biotic or abiotic environments. Full ad here: t.co/WhLJZq3qQa.
