Role of Plant Specialists in Fine-Scale Diversity–Area Relationships (DARs) in Southern European Atlantic Coastal Dunes

IF 2.2 3区环境科学与生态学 Q2 ECOLOGY

Journal of Vegetation Science Pub Date : 2024-12-21 DOI:10.1111/jvs.70005

Juan Antonio Campos, Diego Liendo, Idoia Biurrun, Marta Torca, Itziar García-Mijangos

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引用次数: 0

Abstract

Questions

Species–area relationships (SARs) have traditionally focused on species richness only. However, other diversity components, such as phylogenetic diversity (phylogenetic diversity–area relationships [PDARs]), can also be measured at different spatial scales, providing a more comprehensive picture of the importance of spatial scale on plant diversity. Here, we focus on coastal dune habitats along the sea-inland gradient. We ask: (1) do fine-scale SAR and PDAR patterns change along the dune gradient? (2) is the phylogenetic structure of plant communities scale-dependent along this gradient? (3) does the rate of increase in taxonomic and phylogenetic diversity change along this gradient? (4) do specialist and/or generalist species influence these patterns?

Location

Atlantic coast of SW Europe.

Methods

A nested-plot sampling design (0.0001–100 m²) was applied in three dune habitats. Diversity–area relationships were calculated based on taxonomic (TD) and phylogenetic (PD) diversity. Null models were also applied to the latter to partial out the effect of TD on PD (PD_SES) and to analyse the phylogenetic structure. Changes in the rate of increase in taxonomic and phylogenetic diversity at a fine scale along the dune gradient were analysed by means of z-values. All analyses were performed for the whole species pool and for the subsets of dune specialists and generalists.

Results

TD and PD increased inland along the dune gradient with a significantly major contribution of specialist species. PD_SES mean values in embryo and mobile dunes were positive at all grain sizes, suggesting overdispersion. However, when individual PD_SES values were analysed at the different grain sizes, the prevailing phylogenetic structure in these habitats did not deviate from random expectations. In fixed dunes, PD_SES suggested a decrease in phylogenetic clustering that was partly confirmed when the individual values of PD_SES were analysed at different grain sizes. z-values for TD and PD increased inland along the dune gradient, while for PD_SES these values were close to zero in all three habitats. Again, specialists contributed significantly to the patterns in z-values.

Conclusions

Dune specialists played a major role in the observed taxonomic and phylogenetic diversity patterns in Atlantic dune habitats along the sea-inland gradient, even in fixed dunes where the contribution of generalists was higher. Once the effect of TD on PD was removed, the effect of area on phylogenetic diversity was at most modest in the three dune habitats.

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植物专家在南欧大西洋海岸沙丘精细尺度多样性区域关系（DARs）中的作用

物种-区域关系（sar）传统上只关注物种丰富度。然而，系统发育多样性（系统发育多样性-区域关系[PDARs]）等其他多样性成分也可以在不同的空间尺度上进行测量，从而更全面地了解空间尺度对植物多样性的重要性。在这里，我们主要研究海陆梯度的海岸沙丘生境。我们的问题是：(1)精细尺度SAR和PDAR模式是否沿着沙丘梯度变化？(2)沿此梯度的植物群落系统发育结构是否具有尺度依赖性？(3)分类学和系统发育多样性的增长率是否沿着这一梯度变化？(4)专门型和/或通才型物种会影响这些模式吗？地理位置：欧洲西南部大西洋海岸。方法采用巢式样地抽样设计（0.0001 ~ 100 m2）对3个沙丘生境进行取样。基于分类学（TD）和系统发育（PD）多样性计算了多样性-面积关系。零模型也应用于后者，以部分排除TD对PD （PDSES）的影响，并分析系统发育结构。利用z值分析了沙丘梯度在精细尺度上的分类学和系统发育多样性增长率的变化。所有的分析都是针对整个物种库和沙丘专家和通才的子集进行的。结果TD和PD在内陆沿沙丘梯度增加，以专科物种贡献显著。所有粒径的胚胎沙丘和移动沙丘的PDSES平均值均为正，显示出过度分散。然而，当分析不同粒度的个体PDSES值时，这些栖息地的主要系统发育结构并没有偏离随机预期。在固定沙丘中，PDSES表明系统发育聚类减少，这在分析不同粒度的PDSES个体值时得到了部分证实。TD和PD的z值在内陆沿沙丘梯度增加，而PDSES的z值在3个生境中均接近于零。再一次，专家对z值的模式做出了重大贡献。结论在大西洋沿岸海陆梯度沙丘生境的分类和系统发育多样性格局中，沙丘专才发挥了重要作用，即使在固定沙丘中，通才的贡献更大。在排除TD对PD的影响后，3个沙丘生境中面积对系统发育多样性的影响最为温和。

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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.