Differential phenotypic plasticity of subalpine trees predicts trait integration under climate warming

表型可塑性 生物 可塑性 特质 适应(眼睛) 生态学 进化生物学 神经科学 计算机科学 热力学 物理 程序设计语言
作者
Rui He,Hang Shi,Man Hu,Quan Zhou,Haishan Dang,Quanfa Zhang
出处
期刊:New Phytologist [Wiley]
卷期号:244 (3): 1074-1085 被引量:1
标识
DOI:10.1111/nph.20067
摘要

Summary Understanding limiting factors of phenotypic plasticity is essential given its critical role in shaping biological adaptation and evolution in changing environments. It has been proposed that the pattern of phenotypic correlation could constrain trait plasticity. However, the interplay between phenotypic plasticity and integration has remained contentious. We experimentally simulated climate warming in juveniles of three subalpine tree species by exposing them to three‐year in situ open‐top chambers (OTCs), and then measured functional plasticity of 72 eco‐physiological traits to evaluate whether phenotypic integration constituted an intrinsic constraint to plasticity. We also tested the relationship between the differences in plasticity and maintenance in trait integration. Phenotypic plasticity was positively associated with integration in deciduous tree species under warming. The difference in the plasticity of two paired traits could predict their integration in different environments, where traits displaying more similar plasticity were more likely to be correlated. Our study showed no indication that phenotypic integration constrained plasticity. More importantly, we demonstrated that differential plasticity between traits might result in a notable reorganization of the trait associations, and that warming commonly induced a tighter phenotype. Our study provides new insights into the interplay between phenotypic plasticity and integration in subalpine trees under climate warming.

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