There is room for everyone: Invasion credit cannot be inferred from the species–area relationship in fragmented forests

IF 2.6 3区环境科学与生态学 Q3 ECOLOGY

Applied Vegetation Science Pub Date : 2023-08-08 DOI:10.1111/avsc.12745

Giacomo Trotta, Francesco Boscutti, Aurélien Jamoneau, Guillaume Decocq, Alessandro Chiarucci

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引用次数: 1

Abstract

Questions

Land use change, habitat fragmentation and biological invasion represent major drivers of global change that strongly interact to alter ecosystems. Following the breaking apart of forests into smaller fragments or the afforestation of former agricultural lands, biodiversity experiences drastic changes due to species loss and turnover over time. This leads to two important outcomes, namely extinction debt and invasion (colonization) credit, which both reflect the inertia of the system's response to environmental changes. Our study investigated the following questions:

Is it possible to infer invasion credit from species–area relationship (SAR) residuals both for native and alien plants?
Is there any trend linked with the degree of habitat fragmentation through time?

Location

Somme, Oise and Aisne departments, northern France.

Methods

We analyzed the pattern of SARs' residuals for native and alien vascular plant species separately across nine sets of forest fragments that differ by the landscape matrix they are embedded in (i.e., open field, bocage, forest), while considering plant richness, area and age of the 355 forest patches.

Results

The relationship between alien and native SARs’ residuals is positive across all landscapes, suggesting a lack of invasion credit. Instead, these results support the “rich get richer” hypothesis, that is a high environmental heterogeneity allows colonization by new species, be they native or alien. Interestingly, the relationship between alien and native residuals depends upon fragment age (i.e., time since patch creation) in the most intensively managed landscapes (i.e., open fields). In the latter, recent forest patches are more prone to alien invasion, as a likely consequence of increased alien propagule pressure (i.e., more sources and vectors for alien plants), increased forest invasibility (i.e., disturbance-induced environmental heterogeneity), and decreased matrix permeability (i.e., natives are more dispersal-limited than aliens).

Conclusions

Our study provides new insights into alien species ecology, by showing that (i) it is not possible to infer “invasion credit” from the SAR's residuals; (ii) the invasion rate by alien species in forest fragments increases with their native species richness, and (iii) this relationship depends upon patch age in intensively managed landscapes.

Abstract Image

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每个人都有生存空间:入侵信用不能从破碎森林的物种-面积关系中推断出来

土地利用变化、栖息地破碎化和生物入侵是全球变化的主要驱动因素，它们相互作用强烈，改变了生态系统。随着森林分裂成更小的碎片或以前的农业用地造林，随着时间的推移，由于物种的损失和更替，生物多样性经历了剧烈的变化。这导致了两个重要的结果，即灭绝债务和入侵(殖民)信用，它们都反映了系统对环境变化反应的惯性。我们的研究探讨了以下问题:是否有可能从本地和外来植物的种面积关系(SAR)残差中推断入侵信用?随着时间的推移，是否存在与栖息地破碎化程度相关的趋势?法国北部的索姆、瓦兹和埃纳省。在考虑355个森林斑块的植物丰富度、面积和年龄的基础上，分别分析了9组不同景观基质(即开阔地、园林、森林)中本地和外来维管植物物种的sar残差格局。外来SARs和本地SARs的残余在所有景观中呈正相关，表明缺乏入侵信用。相反，这些结果支持“富者愈富”的假设，即高度的环境异质性允许新物种定居，无论是本地物种还是外来物种。有趣的是，外来和本地残留物之间的关系取决于在最密集管理的景观(即开放领域)中碎片年龄(即斑块形成以来的时间)。在后者中，最近的森林斑块更容易受到外来入侵，这可能是外来繁殖体压力增加(即外来植物的更多来源和载体)、森林入侵性增加(即干扰引起的环境异质性)和基质渗透性降低(即本地物种比外来物种更受扩散限制)的结果。我们的研究为外来物种生态学提供了新的见解，表明(i)不可能从特别行政区的残差推断“入侵信用”;(2)外来物种入侵率随原生物种丰富度的增加而增加;(3)这种关系取决于集约化管理景观的斑块年龄。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Applied Vegetation Science 环境科学-林学

CiteScore

6.00

自引率

10.70%

发文量

审稿时长

3 months

期刊介绍： Applied Vegetation Science focuses on community-level topics relevant to human interaction with vegetation, including global change, nature conservation, nature management, restoration of plant communities and of natural habitats, and the planning of semi-natural and urban landscapes. Vegetation survey, modelling and remote-sensing applications are welcome. Papers on vegetation science which do not fit to this scope (do not have an applied aspect and are not vegetation survey) should be directed to our associate journal, the Journal of Vegetation Science. Both journals publish papers on the ecology of a single species only if it plays a key role in structuring plant communities.