Limited complementarity of functional and taxonomic diversity in Chilean benthic marine invertebrates

IF 4.6 2区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION
Loreto Pino, Thomas J. Webb
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引用次数: 0

Abstract

Aim

Patterns of benthic biodiversity at the macroecological scale remain poorly characterised throughout the Chilean latitudinal gradient, in part due to the lack of integrated databases, uneven sampling effort, and the use of species richness alone to quantify biodiversity. Different diversity measures, encompassing taxonomic and functional components, may give us extra information on biodiversity relevant to conservation planning and management. Thus, evaluating the spatial complementarity of these measures is essential.

Location

Coast and continental shelf of Chile.

Methods

The latitudinal gradient of Chile was divided into five ecoregions according to the Marine Ecosystems of the World classification. Using a 55 × 55 km equal area grid, we estimated the incidence coverage-based estimator (ICE), taxonomic distinctness (Δ+) and three measures of functional diversity: functional richness (FRic), functional evenness (FEve) and functional divergence (FDiv). For each measure, we described spatial patterns, identified hotspots, evaluated hotspot congruence and evaluated complementarity between measures.

Results

Diversity patterns varied between ecoregions and over the latitudinal gradient. ICE and Δ+ peaked in the Chiloense and Channels and Fjords ecoregions. Δ+ and FRic present a similar pattern at mid-latitudes. FEve showed a contrary pattern, principally with FRic. Areas with high numbers of hotspots differed spatially according to each metric, and three latitudinal bands were observed. ICE, Δ+ and FRic were positively correlated, but the hotspot overlap at the grid cell level was more limited.

Main Conclusions

The complementarity between taxonomic and functional diversity measures is limited when we observe the overlap between grid cells representing hotspots. However, some regions are consistently identified as highly diverse, with the Magellanic Province (Chiloense and Channels and Fjords ecoregions) being the most important for the richness, taxonomic and functional diversity of benthos. Confirmation of the importance of this region can help prioritise conservation efforts.

Abstract Image

智利海洋底栖无脊椎动物功能和分类多样性的有限互补性
目的:在宏观生态尺度上,智利整个纬度梯度的底栖生物多样性模式仍然特征不明显,部分原因是缺乏综合数据库、取样工作不均衡以及仅使用物种丰富度来量化生物多样性。不同的多样性衡量标准,包括分类和功能成分,可以为我们提供与保护规划和管理相关的生物多样性额外信息。根据世界海洋生态系统分类法,智利的纬度梯度被划分为五个生态区。我们使用 55 × 55 千米的等面积网格,估算了基于发生率覆盖率的估算值(ICE)、分类学独特性(Δ+)和功能多样性的三种测量值:功能丰富度(FRic)、功能均匀度(FEve)和功能分异度(FDiv)。对于每种测量方法,我们都描述了空间模式,确定了热点,评估了热点一致性,并评估了测量方法之间的互补性。ICE和Δ+在奇洛恩斯生态区和海峡与峡湾生态区达到顶峰。Δ+ 和 FRic 在中纬度地区呈现出类似的模式。FEve 的模式与之相反,主要与 FRic 相似。根据各项指标,热点较多的地区在空间上存在差异,并观察到三个纬度带。ICE、Δ+ 和 FRic 呈正相关,但网格单元层面的热点重叠较为有限。然而,一些区域被一致认定为高度多样化,其中麦哲伦省(奇洛恩斯生态区、海峡和峡湾生态区)对底栖动物的丰富度、分类学和功能多样性最为重要。确认这一区域的重要性有助于确定保护工作的优先次序。
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来源期刊
Diversity and Distributions
Diversity and Distributions 环境科学-生态学
CiteScore
8.90
自引率
4.30%
发文量
195
审稿时长
8-16 weeks
期刊介绍: Diversity and Distributions is a journal of conservation biogeography. We publish papers that deal with the application of biogeographical principles, theories, and analyses (being those concerned with the distributional dynamics of taxa and assemblages) to problems concerning the conservation of biodiversity. We no longer consider papers the sole aim of which is to describe or analyze patterns of biodiversity or to elucidate processes that generate biodiversity.
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