# The Human Shield in Time but Not in Space: Scale-Dependent Responses of Small Indian Civet–Prey Interactions to Anthropogenic Disturbance

**Authors:** Chengpeng Ji, Xiaochun Huang, Yufang Lin, Yanan Cheng, Tongchao Le, Fanglin Tan

PMC · DOI: 10.3390/ani15213121 · 2025-10-28

## TL;DR

Human activity affects predator-prey interactions differently over time and space, offering some protection to prey during the day but increasing encounters in other contexts.

## Contribution

This study reveals scale-dependent effects of human disturbance on predator-prey interactions, showing temporal refuge but increased spatial overlap.

## Key findings

- High human activity provides temporal refuge for diurnal prey from predation by small Indian civets.
- Spatial and spatiotemporal human disturbance increases overlap between predators and prey, raising predation risk.
- Wildlife interactions are influenced by human activities in a scale-dependent manner, requiring multi-dimensional conservation approaches.

## Abstract

Human activities are increasingly altering natural ecosystems, but their effects on predator–prey interactions are not fully understood. We used camera traps to study how human activity (human presence, roads, and settlements) as well as altitudes and seasons influence the spatiotemporal relationships between the small Indian civet and its potential prey (nocturnal rats, diurnal Pallas’s squirrels, and Chinese bamboo partridges) in southeastern China. Our results show that human disturbance caused both predators and prey to shift their daily activity patterns. Temporally, high human activity provided diurnal prey with a refuge from small Indian civet predation, supporting the “human shield” hypothesis. However, spatially and spatiotemporally, higher human disturbance increased overlap between small Indian civets and prey, potentially raising encounter rates and predation risk. These findings demonstrate that human impacts on wildlife interactions are scale-dependent, underscoring the necessity of multi-dimensional approaches in conservation planning.

Despite growing evidence of the widespread impacts of human activities on carnivores and their prey, it remains unclear how different types and intensities of human disturbance reshape predator–prey interactions. In this study, we conducted a systematic camera-trapping survey on a threatened carnivore, the small Indian civet (Viverricula indica). This species forages on prey with contrasting diel patterns, including nocturnal rats and diurnal species such as Pallas’s squirrel (Callosciurus erythraeus) and Chinese bamboo partridge (Bambusicola thoracica) in the southern Wuyi Mountains of southeastern China. Based on data from an extensive sampling effort (60,901 trap days at 180 camera stations), we used kernel density estimation and Pianka’s index to examine whether and how different types and intensities of human activity (human presence, roads, and settlements), as well as diverse altitudes and different seasons, affect the spatiotemporal interactions between small Indian civets and their potential prey. We found that all studied species adjusted their activity patterns, either advancing or delaying their peaks, to achieve temporal segregation under varying types and intensities of human disturbance and different altitudes and seasons. At the temporal scale, interactions between small Indian civets and their potential prey supported the human shield hypothesis, suggesting that increased human disturbance provides diurnal prey with refuge from predation pressure. Conversely, at both spatial and spatiotemporal scales, higher levels of human disturbance increased the overlap between small Indian civets and their prey species. These findings highlight that human impacts on wildlife interactions are scale-dependent: temporal refuge for prey does not necessarily reduce spatial or spatiotemporal overlap, which may still increase encounter rates and predation risk. Because our sampling relied on ground-level cameras, our inferences are limited to terrestrial interactions; arboreal interactions remain unquantified and require combined ground–canopy sampling in future work. Effective conservation management thus requires considering these scale-dependent effects of human activities on wildlife interactions.

## Full-text entities

- **Species:** Homo sapiens (human, species) [taxon 9606], Bambusicola thoracicus (Chinese bamboo-partridge, species) [taxon 9083], Callosciurus erythraeus (Pallas's squirrel, species) [taxon 64677], Viverricula indica (small Indian civet, species) [taxon 94196], Rattus norvegicus (brown rat, species) [taxon 10116]

## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12608993/full.md

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Source: https://tomesphere.com/paper/PMC12608993