Leaf area predicts conspecific spatial aggregation of woody species

IF 6.3 1区 环境科学与生态学 Q1 ECOLOGY Global Ecology and Biogeography Pub Date : 2024-06-28 DOI:10.1111/geb.13887
Jingjing Xi, Guolin C. Li, Min Wang, Stavros D. Veresoglou
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Abstract

Aim

Addressing how woody plant species are distributed in space can reveal inconspicuous drivers that structure plant communities. The spatial structure of conspecifics varies not only at local scales across co-existing plant species but also at larger biogeographical scales with climatic parameters and habitat properties. The possibility that biogeographical drivers shape the spatial structure of plants, however, has not received sufficient attention.

Location

Global synthesis.

Time Period

1997–2022.

Major Taxa Studied

Woody angiosperms and conifers.

Methods

We carried out a quantitative synthesis to capture the interplay between local scale and larger scale drivers. We modelled conspecific spatial aggregation as a binary response through logistic models and Ripley's L statistics and the distance at which the point process was least random with mixed effects linear models. Our predictors covered a range of plant traits, climatic predictors and descriptors of the habitat.

Results

We hypothesized that plant traits, when summarized by local scale predictors, exceed in importance biogeographical drivers in determining the spatial structure of conspecifics across woody systems. This was only the case in relation to the frequency with which we observed aggregated distributions. The probability of observing spatial aggregation and the intensity of it was higher for plant species with large leaves but further depended on climatic parameters and mycorrhiza.

Main Conclusions

Compared to climate variables, plant traits perform poorly in explaining the spatial structure of woody plant species, even though leaf area is a decisive plant trait that is related to whether we observe homogenous spatial aggregation and its intensity. Despite the limited variance explained by our models, we found that the spatial structure of woody plants is subject to consistent biogeographical constraints and that these exceed beyond descriptors of individual species, which we captured here through leaf area.

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叶面积可预测木本物种的同种空间聚集情况
目的研究木本植物物种在空间中的分布情况可以揭示构建植物群落的不起眼的驱动因素。同种植物的空间结构不仅在共存植物物种的局部尺度上存在差异,而且在更大的生物地理尺度上也会随着气候参数和生境特性的变化而变化。然而,生物地理驱动因素塑造植物空间结构的可能性尚未得到足够重视。方法我们进行了定量综合研究,以捕捉局部尺度和更大尺度驱动因素之间的相互作用。我们通过 Logistic 模型和 Ripley's L 统计法将同种空间聚集模拟为二元响应,并通过混合效应线性模型模拟了点过程的最小随机距离。我们的预测因子包括一系列植物性状、气候预测因子和栖息地描述因子。结果我们假设,如果用局部尺度的预测因子来概括,植物性状在决定整个木本系统中同种植物空间结构方面的重要性超过生物地理驱动因素。但这只与我们观察到聚集分布的频率有关。主要结论与气候变量相比,植物性状在解释木本植物物种的空间结构方面表现较差,尽管叶面积是植物性状的决定性因素,与我们是否观察到同种空间聚集及其强度有关。尽管我们的模型解释的方差有限,但我们发现木本植物的空间结构受到一致的生物地理学限制,而且这些限制超出了单个物种的描述,我们在这里通过叶面积捕捉到了这些限制。
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来源期刊
Global Ecology and Biogeography
Global Ecology and Biogeography 环境科学-生态学
CiteScore
12.10
自引率
3.10%
发文量
170
审稿时长
3 months
期刊介绍: Global Ecology and Biogeography (GEB) welcomes papers that investigate broad-scale (in space, time and/or taxonomy), general patterns in the organization of ecological systems and assemblages, and the processes that underlie them. In particular, GEB welcomes studies that use macroecological methods, comparative analyses, meta-analyses, reviews, spatial analyses and modelling to arrive at general, conceptual conclusions. Studies in GEB need not be global in spatial extent, but the conclusions and implications of the study must be relevant to ecologists and biogeographers globally, rather than being limited to local areas, or specific taxa. Similarly, GEB is not limited to spatial studies; we are equally interested in the general patterns of nature through time, among taxa (e.g., body sizes, dispersal abilities), through the course of evolution, etc. Further, GEB welcomes papers that investigate general impacts of human activities on ecological systems in accordance with the above criteria.
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