利用高分辨率多光谱图像的植物光谱多样性探测沿海沙丘群落的功能多样性模式

IF 2.2 3区环境科学与生态学 Q2 ECOLOGY

Journal of Vegetation Science Pub Date : 2024-03-12 DOI:10.1111/jvs.13239

Eleonora Beccari, Carlos Pérez Carmona, Enrico Tordoni, Francesco Petruzzellis, Davide Martinucci, Giulia Casagrande, Nicola Pavanetto, Duccio Rocchini, Marco D'Antraccoli, Daniela Ciccarelli, Giovanni Bacaro

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引用次数: 0

摘要

问题遥感是监测生物多样性的基本工具，光谱多样性可以代表生物多样性的不同方面，如分类（TD）和功能多样性（FD）。我们利用高分辨率多光谱图像探索了不同空间尺度（如地块、横断面、区域）的光谱多样性（SD）模式，并评估了SD与环境梯度上的分类多样性和功能多样性之间的关系。地点意大利维亚雷焦的沿海沙丘（"Migliarino-San Rossore-Massaciuccoli "地区公园，北纬 43°83′，东经 10°25′）。方法我们用物种丰富度来衡量 TD，而 SD 和 FD 则根据像素和物种在多元空间中的位置，用概率密度函数来计算。我们比较了SD和FD的空间占有模式，并检验了这些模式是否沿海洋-内陆梯度协调分布。我们还评估了标度和生物多样性面之间的单变量关系，并测试了这些面在不同尺度上的分区情况。结果我们发现，在空间占据和环境梯度上，功能模式与光谱模式之间存在很强的对应关系，而在考虑到总密度时，两者之间缺乏显著性。然而，TD 和 SD 在更广泛的尺度上显示出更大的变化，而 FD 的大部分变化发生在地块水平上。结论通过采用共同的方法框架测量 FD 和 SD，我们证明 SD 近似于植物群落的功能模式。此外，我们还表明，利用高分辨率图像检索的标度可以捕捉到植物群落功能模式的不同方面，而且光谱空间的占位与功能空间的占位类似。

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Plant spectral diversity from high-resolution multispectral imagery detects functional diversity patterns in coastal dune communities

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Plant spectral diversity from high-resolution multispectral imagery detects functional diversity patterns in coastal dune communities

Question

Remote sensing is a fundamental tool to monitor biodiversity and spectral diversity may represent a proxy for different biodiversity facets such as taxonomic (TD) and functional diversity (FD). We used fine-resolution multispectral imagery to explore spectral diversity (SD) patterns across spatial scales (i.e., plot, transect, area), and assess SD relationships with TD and FD along an environmental gradient.

Location

Coastal sand dune, Viareggio, Italy (“Migliarino–San Rossore–Massaciuccoli” Regional Park, 43°83′ N, 10°25′ E).

Methods

We measured TD as species richness, while SD and FD were computed using probability density functions based on pixel and species position in multivariate spaces. We compared SD and FD patterns in space occupation, and we tested whether these patterns are coordinated along the sea–inland gradient. We also assessed univariate relationships between SD and biodiversity facets, and we tested how these facets were partitioned across scales.

Results

We found a strong correspondence between functional and spectral patterns in space occupation and along the environmental gradient, with a lack of significance when considering TD. However, TD and SD showed higher variation at broader scale while most FD variation occurred at plot level.

Conclusion

By measuring FD and SD with a common methodological framework, we demonstrate that SD approximates functional patterns in plant communities. Moreover, we show that SD retrieved using high-resolution images can capture different aspects of FD, and that the occupation of the spectral space is analogous to the occupation of the functional space.

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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.