Landcover Modulates the Responses of Bird Communities to a Steep Geoclimatic Gradient

IF 3.4 2区环境科学与生态学 Q2 ECOLOGY

Journal of Biogeography Pub Date : 2025-04-17 DOI:10.1111/jbi.15146

Eli Haviv, Ido Izhaki, Avi Bar-Massada

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引用次数: 0

Abstract

Aim

Environmental gradients are key drivers of geographic variation in biodiversity, but their interactive effects with landcover are unclear. We tested the hypothesis that landcover can modulate the effect of environmental gradients on species abundance, richness, uniqueness, and spatial turnover and assessed if the shape of this modulation is additive, synergistic, or antagonistic.

Location

Jordan Rift Valley.

Taxon

Birds.

Methods

We sampled bird communities in Winter, Spring, and Late Spring along a ~70 km stretch of the Jordan Rift Valley, which spans a strong rainfall gradient. We used GLMs and multivariate analyses to quantify the effect of biotic and abiotic variables on bird abundance, richness, compositional uniqueness, and turnover and to test if a transition from the Jordan Floodplain to the adjacent Jordan Plain can modulate the effect of the rainfall gradient on these metrics.

Results

Bird abundance and richness were significantly higher along the Jordan Floodplain compared to the Jordan Plain, though sites in the latter contributed significantly more to regional beta-diversity. The effect of landcover on the response of species abundance, richness, and uniqueness to the rainfall gradient varied across sampling seasons and among community metrics, but we found no evidence of modulation. In contrast, we found moderate to high rates of bird species turnover along the rainfall gradient, with turnover rates exhibiting a consistently monotonic linear trend. Absolute turnover rates were consistently higher along the dry Jordan Plain compared to the mesic Jordan Floodplain, suggesting an additive modulation.

Main Conclusions

Local landcover can additively modulate the effect of a climatic gradient on bird species turnover. In water-limited environments, this effect may be driven by a perceived shortening of the climatic gradient along mesic habitats because their microclimatic conditions are more consistent across space, and they provide thermal refugia from the steep rainfall gradient in the surrounding landscape.

Abstract Image

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土地覆盖调节鸟类群落对陡峭地理气候梯度的响应

目的环境梯度是生物多样性地理变异的关键驱动因素，但其与土地覆盖的交互作用尚不清楚。我们验证了土地覆盖可以调节环境梯度对物种丰度、丰富度、独特性和空间更替的影响的假设，并评估了这种调节的形式是加性的、协同的还是拮抗的。地点：约旦裂谷。分类单元鸟类。方法选取约70 km的约旦裂谷，在冬季、春季和晚春3个季节对鸟类群落进行采样。我们使用GLMs和多变量分析来量化生物和非生物变量对鸟类丰度、丰富度、组成独特性和更替的影响，并测试从约旦漫滩到邻近约旦平原的过渡是否可以调节降雨梯度对这些指标的影响。结果约旦洪泛区鸟类丰度和丰富度显著高于约旦平原，但后者对区域β多样性的贡献更大。地表覆盖对物种丰度、丰富度和独特性对降雨梯度的响应的影响在不同的采样季节和不同的群落指标之间存在差异，但没有发现调节的证据。相反，我们发现沿降雨梯度的鸟类物种更替率中至高，更替率呈现一致的单调线性趋势。干约旦平原的绝对周转率始终高于干约旦平原，表明存在加性调节。结论局部土地覆盖可以加性调节气候梯度对鸟类物种更替的影响。在水资源有限的环境中，这种效应可能是由沿中等生境的气候梯度缩短所驱动的，因为它们的小气候条件在空间上更加一致，并且它们为周围景观的陡峭降雨梯度提供了热避难所。

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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.