Short gradient, but distinct plant strategies: The CSR scheme applied to subtropical forests

Questions Plant communities in transitional zones between ecosystem types have potentially a large range of ecological strategies, even along short gradients. Exploring these regional differences and the drivers of variation is important to understand plant adaptations and changes in ecological processes between distinct ecosystems. Here, we ask whether distinct forest types in the subtropical region present plant communities with distinct ecological strategies and, if so, if these differences are driven by climatic variables. Location Subtropical forests in southern Brazil. Methods We compiled species lists from 112 sites distributed across rainforests, seasonal forests, Araucaria forests and Pampean forests. We used Grime's CSR scheme and calculated, for each species, CSR values based on information of three leaf traits: leaf area, specific leaf area and leaf dry matter content. Species CSR values were used to calculate the mean value for each community. We selected four climatic variables related to temperate and precipitation and analyzed their influence on plant strategies by linear mixed models. Results Our results showed a strong CS component for all subtropical forests studied, with a small contribution from component R. We found clear differences in ecological strategies between forest types: rainforest showed the highest values of component C, and Araucaria and Pampean forests presented the highest values of component S. We found a strong influence of temperature variables on ecological strategies. Conclusions Even along a short latitudinal gradient, we found differences in ecological strategies across forest types. Araucaria and Pampean forests were strongly associated with the stress‐tolerant strategy, as they face lower minimum temperatures and/or a larger temperature range, whereas rainforests, which face warmer temperatures and a lower range of variation, presented a strategy where competition is of higher importance. This highlights that regional environmental conditions in this transitional zone influence ecological strategies of tree communities.