Spatial extent predicts Andean epiphyte biodiversity responses to habitat loss and fragmentation across human-modified landscapes

IF 3.4 2区环境科学与生态学 Q2 ECOLOGY

Journal of Biogeography Pub Date : 2024-03-02 DOI:10.1111/jbi.14819

Edicson Parra-Sanchez, David P. Edwards

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引用次数: 0

Abstract

Aim

Human-driven landscape processes such as habitat loss and fragmentation act on biodiversity, but their effects are mediated by the spatial scale at which they are observed. We aim to analyse the scale-of-effects (direction and spatial extent) of landscape-scale processes that best explain species richness and abundance across epiphyte communities.

Location

Neotropics, Northern Andes, Colombia, Eastern cordillera.

Taxon

Vascular epiphytes, Orchidaceae.

Methods

We used field data to unravel the scale-of-effect of three landscape processes—habitat loss (forest cover), fragmentation (number of patches) and edge effects (edge density)—on epiphyte biodiversity. Vascular epiphytes were sampled in the understorey across 141 plots within 23 Andean forests in the eastern Colombian cordillera We focused on the community-level responses (species richness and total abundance) of the hyperdiverse vascular epiphyte communities using generalized linear mixed models to quantify the direction and the spatial extent of the scale-of-effects.

Results

Habitat loss and edge effects act at fine spatial extents (scale-of-effects = 200 m), predicting low species richness and abundance across groups. Likewise, fragmentation negatively impacts communities, but operates at larger spatial extents (scale-of-effects = 2000–2400 m radius). The detection of these effects is contingent upon the spatial extent and specific landscape processes involved. Models of habitat loss within a spatial extent of 800–1500 m (large confidence intervals), fragmentation below 300 m, and edge effects above 800 m show weak statistical support (marginal r² = 0.02–0.1). Thus, the impacts of these landscape processes may be overlooked if studied at inadequate spatial extents.

Main Conclusions

We showed that habitat loss, fragmentation and edge effects all play a negative role on understorey epiphytic communities, but their detectability is scale dependant. The scale-of-effects can assist landscape designs that are beneficial for epiphytic communities, by preserving forest cover, and reducing fragmentation and exposure to edge effects at small scales (200–300 m). Conversely, landscape-scale actions directed at reducing habitat loss and fragmentation function at larger spatial extents (>2000 m). Selecting a priori or inadequate spatial extents of analysis can obscure the detectability of landscape processes.

Abstract Image

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空间范围预测安第斯附生植物生物多样性对人类改造地貌中栖息地丧失和破碎化的反应

目的人类驱动的景观过程（如栖息地丧失和破碎化）对生物多样性产生影响，但其影响受观察到的空间尺度的制约。我们的目的是分析最能解释附生植物群落物种丰富度和丰度的景观尺度过程的尺度效应（方向和空间范围）。方法我们利用野外数据揭示了三种景观过程--栖息地丧失（森林覆盖率）、破碎化（斑块数量）和边缘效应（边缘密度）--对附生植物生物多样性的尺度效应。我们使用广义线性混合模型来量化效应尺度的方向和空间范围。结果栖息地丧失和边缘效应作用于较小的空间范围（效应尺度 = 200 米），预测各群落的物种丰富度和丰度较低。同样，破碎化也会对群落产生负面影响，但影响的空间范围更大（影响尺度=半径 2000-2400 米）。这些影响的检测取决于所涉及的空间范围和具体景观过程。空间范围在 800-1500 米（置信区间较大）内的栖息地丧失、300 米以下的破碎化和 800 米以上的边缘效应模型显示出微弱的统计学支持（边际 r2 = 0.02-0.1）。主要结论我们的研究表明，栖息地丧失、破碎化和边缘效应都对林下附生群落有负面影响，但它们的可探测性与尺度有关。通过保护森林植被、减少小尺度（200-300 米）的破碎化和边缘效应，规模效应可以帮助景观设计有利于附生群落。相反，旨在减少栖息地丧失和破碎化的景观尺度行动则在更大的空间范围内（2000 米）发挥作用。选择先验的或不适当的空间范围进行分析会掩盖景观过程的可探测性。

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来源期刊

Journal of Biogeography 环境科学-生态学

CiteScore

7.70

自引率

5.10%

发文量

203

审稿时长

2.2 months

期刊介绍： Papers dealing with all aspects of spatial, ecological and historical biogeography are considered for publication in Journal of Biogeography. The mission of the journal is to contribute to the growth and societal relevance of the discipline of biogeography through its role in the dissemination of biogeographical research.