Data from: How do functional traits syndromes covary with growth and reproductive performance in a water-stressed population of Fagus sylvatica?

A central issue in plant evolutionary ecology is to understand how several coordinated suites of traits (i.e. traits syndrome) may be jointly selected within a single species. This study aims to describe patterns of variation and co-variation of functional traits in a water-stressed tree population and test their relationships with performance traits. Within a Mediterranean population of Fagus sylvatica experiencing recurrent summer droughts, we investigated the phenotypic variation of leaf unfolding phenology, Leaf Area (LA), Leaf Mass per Area (LMA), Leaf Water Content (LWC), water use efficiency (WUE) estimated by carbon isotopic discrimination (d13C), twig Huber-value (HV: the stem cross-section divided by the leaf area distal to the stem), wood density (WDens), and leaf nitrogen content (Nmass). First, a Principal Component Analysis revealed that two main axes structured the phenotypic variability: the first axis opposed leaf unfolding earliness and LWC to LMA and WUE; the second axis opposed LA to HV. These two axes can be interpreted as the opposition of two strategies (water economy versus water uptake) at two distinct scales (leaf for the first axis and branches for the second axis). Second, we found that LMA, LA, leaf unfolding and LWC responded differently to competition intensity, while WUE, WDens and HV did not correlate with competition. Third, we found that all studied functional traits were related to growth and/or reproductive performance traits and that these relationships were frequently non-linear, showing strong interactions between traits. By highlighting phenotypic clustering of functional traits involved in response to water stress and by evidencing antagonistic selection favouring intermediate trait values as well as trait combinations, our study brought new insights on how natural selection operates on plant functional traits in a stressful environment.

植物进化生态学的核心议题之一，在于解析单一物种种群内多组协同性状（即性状综合征，traits syndrome）如何受到共同选择。本研究旨在描述水分胁迫林木种群的功能性状变异与协同变异模式，并检验其与性能性状的关联。本研究以经历周期性夏季干旱的地中海地区欧洲水青冈（Fagus sylvatica）种群为研究对象，调查了以下功能性状的表型变异：叶片展叶物候、叶面积（Leaf Area, LA）、比叶质量（Leaf Mass per Area, LMA）、叶片含水量（Leaf Water Content, LWC）、通过碳同位素判别（δ¹³C）估算的水分利用效率（water use efficiency, WUE）、小枝胡伯值（twig Huber-value, HV：茎横截面积与茎远端叶面积的比值）、木材密度（wood density, WDens）以及叶片氮含量（Leaf Nitrogen Content, Nmass）。首先，主成分分析（Principal Component Analysis, PCA）结果显示，表型变异由两大主轴驱动：第一轴将展叶早发性与叶片含水量（LWC）与比叶质量（LMA）、水分利用效率（WUE）呈负向分化；第二轴则将叶面积（LA）与胡伯值（HV）呈负向分化。上述两大主轴可被解读为两类策略在不同尺度上的权衡对立：第一轴对应叶片尺度下水分经济策略与水分获取策略的对立，第二轴对应枝条尺度的同类对立。其次，研究发现比叶质量（LMA）、叶面积（LA）、展叶物候以及叶片含水量（LWC）对竞争强度的响应存在显著差异，而水分利用效率（WUE）、木材密度（WDens）与胡伯值（HV）则与竞争强度无显著相关性。第三，本研究发现所有被调查的功能性状均与生长和/或繁殖性能性状存在关联，且此类关联多呈非线性，表明性状间存在较强的相互作用。本研究通过揭示参与水分胁迫响应的功能性状的表型聚类特征，并证实拮抗选择会青睐中间性状值与特定性状组合，为理解自然选择如何在胁迫环境下作用于植物功能性状提供了新的见解。