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  • Title:  Interactions between leaf traits and environmental factors help explain the growth of evergreen and deciduous species in a subtropical forest
  • Authors: 
  • Corresponding Author:  Yuanzhi Qin, Congrong Wang, Tianyang Zhou, Yanan Fei, Yaozhan Xu, Xiujuan Qiao*, Mingxi Jiang
  • Pubyear:  2024
  • Title of Journal:  Forest Ecology and Management
  • Paper Code: 
  • Volume:  560
  • Number: 
  • Page:  121854
  • Others: 
  • Classification: 
  • Source: 

    Abstract:

  • It is well known that evergreen and deciduous species possess different functional traits and utilize different strategies in growth and adaptation to environments. However, little work has been done to elucidate whether leaf habits mediate the effect of trait -environment interactions on plant performance. In this study, our subjective was to illuminate whether relative growth rate of deciduous and evergreen species is influenced by multiple traitenvironment interactions. We conducted measurements on eight leaf traits of 1230 individuals belonging to 25 species in a subtropical evergreen and deciduous broad-leaved mixed forest. Additionally, we collected data on topographic factors, edaphic variables and competition index. Subsequently, we employed generalized linear mixed model to analyze plant relative growth rate, considering high -order trait -environment interactions for both evergreen and deciduous species. We also visualized the effects of these interactions on growth patterns. Our results showed that leaf habits were divided by trait PC 1 (41.8%) which was related to leaf lifespan and resource acquisition. Evergreen species tended to have greater interspecific variation compared to deciduous species. Notably, the inclusion of trait -environment interactions significantly improved growth predictions for both leaf habits, although explanatory power of deciduous models was always higher than that of evergreen species. Furthermore, we observed variability in the effects of trait -environment interactions on plant performance varied between leaf habits, leading to different optimal models for each leaf habit, even when they shared similar trait -environment context. These results indicated that difference of life history strategies between leaf habits could be reflected by trait -environment interactions. We emphasized the importance of leaf habits in explaining forest productivity and functions, and future research should focus on the effects of leaf habits on other demographic metrics to understand species coexistence in mixed forests.
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