Elevation differentially shapes functional diversity patterns in understorey forest communities when considering intraspecific and interspecific trait variability

IF 2.2 3区环境科学与生态学 Q2 ECOLOGY Journal of Vegetation Science Pub Date : 2024-06-10 DOI:10.1111/jvs.13277

Arianna Ferrara, Alessandro Bricca, Davide Alberti, Francesco Maria Sabatini, Alessandro Chiarucci

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Abstract

Questions

What is the relative importance of interspecific and intraspecific trait variation and their covariation in the herb layer of European temperate beech forests, and how do they vary with elevation? Is there evidence of interspecific trait convergence at higher elevations, as postulated by the habitat-filtering hypothesis, and is this convergence enhanced or counteracted by intraspecific variation?

Location

National Park “Foreste Casentinesi, Monte Falterona and Campigna”, Italy.

Methods

We measured four functional traits – plant height, specific leaf area (SLA), leaf dry matter content (LDMC) and leaf area – across 775 individuals from 60 herb-layer species in 28 forest plots (10 m × 10 m) spanning an 800 m elevation gradient. For each trait in each plot, we computed community-weighted means (CWMs) and the standardized effect size of functional diversity (SES-FD). We decomposed total trait variation into its interspecific and intraspecific components, and their covariation. We run linear regression models to assess the impact of elevation on these three components of functional variation. Lastly, we investigated whether higher elevation communities exhibited lower SES-FD, indicating functional convergence that could hint to a stronger habitat filtering.

Results

Interspecific trait variation was more important than the intraspecific counterpart both for CWMs and SES-FD. Only CWMs calculated for plant height and LDMC showed a significant relationship with elevation. Low-elevation communities featured taller, more-conservative species, whereas shorter, faster-growing species were more common at higher elevations. SES-FD remained consistently negative for species turnover and total variation, suggesting stable functional convergence across the gradient.

Conclusions

Our findings suggest that interspecific and intraspecific trait variability can be decoupled along an elevation gradient, stressing the importance of individually considering each component of trait variation when studying community composition. Elevation significantly influenced various components of plant community trait variation, with habitat filtering playing a substantial role in selecting plants with specific traits across elevations.

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在考虑种内和种间性状变异时，海拔高度对林下群落功能多样性模式的影响各不相同

问题在欧洲温带山毛榉林的草本植物层中，种间和种内性状变异及其协变的相对重要性是什么？是否有证据表明，正如生境过滤假说所推测的那样，在海拔较高的地方存在种间性状趋同现象？地点：意大利 "Foreste Casentinesi、Monte Falterona 和 Campigna "国家公园。方法我们在海拔梯度为 800 米的 28 个森林小区（10 米 × 10 米）中对 60 种草本植物的 775 个个体进行了植物高度、比叶面积（SLA）、叶干物质含量（LDMC）和叶面积四项功能性状的测量。对于每个小区的每个性状，我们都计算了群落加权平均值（CWMs）和功能多样性的标准化效应大小（SES-FD）。我们将总性状变异分解为种间和种内成分及其协变。我们运行线性回归模型来评估海拔高度对功能变异的这三个组成部分的影响。最后，我们研究了海拔较高的群落是否表现出较低的 SES-FD，这表明功能趋同可能暗示着较强的生境过滤作用。结果在CWMs和SES-FD方面，种间性状变异比种内性状变异更重要。只有植株高度和 LDMC 计算的 CWMs 与海拔高度有显著关系。低海拔群落中的物种更高、更保守，而高海拔群落中的物种更矮、生长更快。SES-FD 在物种更替和总变异方面始终为负值，表明整个梯度上存在稳定的功能趋同。结论我们的研究结果表明，在海拔梯度上，种间和种内的性状变异是可以分离的，这强调了在研究群落组成时单独考虑性状变异的每个组成部分的重要性。海拔高度对植物群落性状变异的各个组成部分都有很大影响，生境过滤在跨海拔选择具有特定性状的植物方面发挥了重要作用。

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来源期刊

Journal of Vegetation Science 环境科学-林学

CiteScore

6.00

自引率

3.60%

发文量

审稿时长

2 months

期刊介绍： The Journal of Vegetation Science publishes papers on all aspects of plant community ecology, with particular emphasis on papers that develop new concepts or methods, test theory, identify general patterns, or that are otherwise likely to interest a broad international readership. Papers may focus on any aspect of vegetation science, e.g. community structure (including community assembly and plant functional types), biodiversity (including species richness and composition), spatial patterns (including plant geography and landscape ecology), temporal changes (including demography, community dynamics and palaeoecology) and processes (including ecophysiology), provided the focus is on increasing our understanding of plant communities. The Journal publishes papers on the ecology of a single species only if it plays a key role in structuring plant communities. Papers that apply ecological concepts, theories and methods to the vegetation management, conservation and restoration, and papers on vegetation survey should be directed to our associate journal, Applied Vegetation Science journal.