Interplay of seasonal sunlight, air and leaf temperature in two alpine paramo species, Colombian Andes

In models of photosynthetic gas exchange, leaf temperature (T-leaf) is often calculated using a combination of derivations of the energy balance equation and measurements of air temperature (T-air). Yet, there are frequently large differences between T-leaf and T-air under natural field conditions, and an energy balance is complicated in complex canopies, especially in tropical ecosystems. In the present study, we aimed to quantify the variation in T-leaf relative to T-air , under naturally varying PPFD values in two representative species (Espeletia grandifiora and Chusquea tessellate) of a tropical alpine ecosystem (paramo, Colombian Andes) during both wet and dry seasons. The results of a Structural Equation Model showed that T-leaf was strongly correlated with changes in T-air during both seasons, but large differences (up to 14 degrees C) occurred between T-air and T-leaf , during the dry season when PPFD varied the most, especially in C. tessellata. Thus, using T-air to proximate T-leaf under variable conditions of incident sunlight could generate substantial errors in estimates of temperature-sensitive physiological processes. These results should be valuable for evaluating the accuracy of carbon and water exchange models within current and future scenarios of climate change in tropical paramos, as well as other ecosystems.