Urban scavenging: vertebrates display greater sensitivity to land-cover and garden vegetation cover than invertebrates

IF 2.5 3区 环境科学与生态学 Q2 BIODIVERSITY CONSERVATION Urban Ecosystems Pub Date : 2024-09-10 DOI:10.1007/s11252-024-01604-3
Jack R. Walker, Karl L. Evans, Rachel M. Jeffreys, Mani Pahlevani, Catherine L. Parr
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Abstract

Scavenging removes carrion or littered food waste from the environment, promoting nutrient cycling, and reducing waste management costs. These ecosystem services are important in urban environments, where high human population densities result in increased littered food waste. It is unclear how the magnitude of scavenging across urban-rural gradients is influenced by agent, land-cover type, and patch size. We investigated scavenging provision by vertebrates and invertebrates across a gradient of urbanisation, based on impervious surface cover, in woodlands and gardens in Liverpool, UK. The percentage dry weight loss of bait after 48 h, deployed within vertebrate exclusion cages or exposed to vertebrates and invertebrates, was used to quantify scavenging provision. General linear mixed effects models were used to assess the relative contributions of vertebrates and invertebrates across an urban-rural gradient, variation in scavenging between woodlands and gardens, and the effects of semi-natural vegetation cover on scavenging in gardens. We consider patch size as a preliminary assessment of how fragmentation influences scavenging. Vertebrates contributed substantially more to scavenging than invertebrates across the urbanisation gradient. Vertebrate scavenging was greater in woodlands than gardens, while invertebrate scavenging remained consistent. Scavenging increased with patch size in gardens, but not woodlands. Vertebrate scavenging increased with patch size and garden semi-natural vegetation cover. Urban woodlands and gardens make important contributions to scavenging-mediated ecosystem services. There is a need to increase the cover of semi-natural vegetation in gardens to increase their contributions, and protect and expand woodlands, especially in areas with a high demand for scavenging-mediated ecosystem services.

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城市食腐:与无脊椎动物相比,脊椎动物对土地覆盖和花园植被覆盖的敏感性更高
食腐能清除环境中的腐肉或垃圾食物残渣,促进养分循环,降低废物管理成本。这些生态系统服务在城市环境中非常重要,因为高人口密度会导致更多的食物垃圾被丢弃。目前还不清楚城乡梯度的清扫量是如何受媒介、土地覆被类型和斑块大小的影响的。我们调查了英国利物浦林地和花园中脊椎动物和无脊椎动物在城市化梯度中的食腐情况,其依据是不透水表面覆盖。将饵料放置在脊椎动物隔离笼中或暴露在脊椎动物和无脊椎动物的环境中 48 小时后,饵料干重损失的百分比被用来量化食腐提供量。一般线性混合效应模型用于评估城乡梯度上脊椎动物和无脊椎动物的相对贡献、林地和花园之间食腐的差异以及半自然植被覆盖对花园食腐的影响。我们将斑块大小作为对破碎化如何影响食腐的初步评估。在城市化梯度中,脊椎动物对食腐的贡献远远大于无脊椎动物。林地中脊椎动物的食腐作用大于花园,而无脊椎动物的食腐作用则保持一致。花园中的清扫量随着斑块面积的增加而增加,但林地中的清扫量却没有增加。脊椎动物的食腐量随着斑块面积和花园半自然植被覆盖率的增加而增加。城市林地和花园对以食腐为媒介的生态系统服务做出了重要贡献。有必要增加花园半自然植被的覆盖率,以提高它们的贡献,并保护和扩大林地,尤其是在对以食腐为媒介的生态系统服务需求较高的地区。
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来源期刊
Urban Ecosystems
Urban Ecosystems BIODIVERSITY CONSERVATION-ECOLOGY
CiteScore
5.70
自引率
6.90%
发文量
113
期刊介绍: Urban Ecosystems is an international journal devoted to scientific investigations of urban environments and the relationships between socioeconomic and ecological structures and processes in urban environments. The scope of the journal is broad, including interactions between urban ecosystems and associated suburban and rural environments. Contributions may span a range of specific subject areas as they may apply to urban environments: biodiversity, biogeochemistry, conservation biology, wildlife and fisheries management, ecosystem ecology, ecosystem services, environmental chemistry, hydrology, landscape architecture, meteorology and climate, policy, population biology, social and human ecology, soil science, and urban planning.
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