Photosynthetic Traits of Paramo Plants Subjected to Short-Term Warming in OTC Chambers

Global warming and changes in land use are some of the main threats to high mountain species. Both can interact in ways not yet assessed. In this study, we evaluated the photosynthetic responses of six common paramo species within a warming experiment using open-top chambers (OTC) in conserved paramo areas with different land use histories. We did not find significant differences in the photochemical performance of the species as measured through Fv/Fm, ETR, and NPQ in response to passive warming, indicating that warmed plants are not stressed. However, NPQ values were higher in recovering areas, especially in the driest and warmest months. Leaf transpiration, stomatal conductance, and Ci were not affected by the OTC or the land use history. The photosynthetic capacity, maximum photosynthetic capacity, and carboxylation rate of RuBisCO increased in response to warming but only in the area with no anthropogenic intervention. These results suggest that species will respond differently to warming depending on the history of paramo use, and therefore not all paramo communities will respond equally to climate change. In disturbed sites with altered soil conditions, plants could have a lower breadth of physiological response to warming.

Automated summary

Global warming and changes in land use are major threats to high mountain species. This study evaluated the photosynthetic responses of common paramo species to warming and land use changes. The results showed that the species were not stressed by passive warming, but exhibited stronger photosynthetic response in recovering areas during the dry and warm months. The history of paramo use influenced the species' response to warming, and disturbed soil conditions could lead to a narrower range of physiological response to warming.