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Ecophysiological responses to different forest patch type of two codominant tree seedlings
Authors:Renyan Duan  Minyi Huang  Xiaoquan Kong  Zhigao Wang  Weiyi Fan
Affiliation:1. College of Life Science, Anqing Normal University, Anqing, China;2. College of Life Science, Shaanxi Normal University, Xi'an, China
Abstract:According to gap‐phase dynamics theory, forests can be divided into four distinct patch types: gap patch (G), building patch (B), mature patch (M), and degeneration patch (D). Varying light conditions across patch types are one of the most important factors affecting the coexistence of vegetation. Mechanisms of coexistence can be understood through detailed knowledge of ecophysiological responses of codominant tree seedlings to patch types. The following study was conducted to determine ecophysiological responses of Cyclobalanopsis glauca (an evergreen broad‐leaved species) and Bothrocaryum controversum (a deciduous broad‐leaved species) to four different patch types. During the gap‐phase dynamics, light intensity and the magnitude of change in the four different patches followed the order of: G > B > D > M. Both species had the greatest photosynthetic capacity in the G patch. Dry leaf mass per area (LMA), Chlorophyll a + b concentration (Chl), carotenoids (Car), and nitrogen content per area (Na) all responded to changes in light across patch type, but B. controversum showed greater sensitivity and changes than C. glauca. From G to M patch, the maximal quantum efficiency of PSII (Fv/Fm) had a larger variation magnitude for B. controversum than for C. glauca. From G to M patch, B. controversum showed significant changes in gas exchange, while C. glauca showed only small changes. Ecophysiological trait partitioning of response to light in different patches provides a possible explanation of a coexistence mechanism.
Keywords:Biomass allocation  coexistence mechanism  ecophysiological response  patch
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