Climate change is expected to cause shifts in the composition of tropical montane forests towards increased relative abundances of species whose ranges were previously centered at lower, hotter elevations. To investigate this process of "thermophilization," we analyzed patterns of compositional change over the last decade using recensus data from a network of 16 adult and juvenile tree plots in the tropical forests of northern Andes Mountains and adjacent lowlands in northwestern Colombia. Analyses show evidence that tree species composition is strongly linked to temperature and that composition is changing directionally through time, potentially in response to climate change and increasing temperatures. Mean rates of thermophilization [thermal migration rate (TMR),°C·y −1 ] across all censuses were 0.011°C·y −1 (95% confidence interval = 0.002-0.022°C·y −1 ) for adult trees and 0.027°C·y −1 (95% confidence interval = 0.009-0.050°C·y −1 ) for juvenile trees. The fact that thermophilization is occurring in both the adult and juvenile trees and at rates consistent with concurrent warming supports the hypothesis that the observed compositional changes are part of a long-term process, such as global warming, and are not a response to any single episodic event. The observed changes in composition were driven primarily by patterns of tree mortality, indicating that the changes in composition are mostly via range retractions, rather than range shifts or expansions. These results all indicate that tropical forests are being strongly affected by climate change and suggest that many species will be at elevated risk for extinction as warming continues.climate change | conservation biogeography | dispersal modes | species migrations | thermal niches G lobal warming is causing poleward and upward changes in the distributions of many species (1-4). Studies from tropical forests are extremely sparse (1, 5), but the available evidence suggests that many tropical plant species are "migrating" upward (6-8). Accordingly, the composition of tropical montane forests is changing toward increased relative abundances of species whose ranges were previously centered at lower, hotter elevations (6, 8). However, this process of "thermophilization" (9) is generally occurring at velocities slower than concurrent regional temperature increases (6,8). Furthermore, in at least one tropical site (Volcan Barva, Costa Rica), the observed shifts in tree species composition were mostly a result of increased mortality of species with ranges centered at higher, cooler elevations (8), indicating that species migrations and associated compositional shifts are occurring mostly via range retractions (1). If generalizable, these findings indicate that many tropical tree species have at best a poor capacity to persist under rapidly rising temperatures, suggesting a high risk for species loss in these systems (10).One factor that determines the velocity at which plant species can move through space, and hence migrate, is seed dispersal (11-13). Although mos...