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. 2025 Aug 23;15(8):e72059.
doi: 10.1002/ece3.72059. eCollection 2025 Aug.

Carrion Increases Landscape-Scale Scavenger Activity and Interactions

Patrick B Finnerty  1 Niraj Y Meisuria  1 Luke J Baker  1 Rhys J Cairncross  1 Emma Spencer  1 Mathew S Crowther  1 Thomas M Newsome  1
Affiliations

Carrion Increases Landscape-Scale Scavenger Activity and Interactions

Patrick B Finnerty et al. Ecol Evol. .

Abstract

Carrion is a nutrient-rich but spatiotemporally unpredictable resource that supports diverse trophic interactions, and its consumption plays a key role in energy recycling within ecosystems. Although previous research has almost exclusively examined scavenger activity at carcasses, the broader impacts of fluctuating carrion availability on landscape-scale activity patterns and scavenger competitive interactions remain largely unexplored. Here, we investigate whether carrion provisioning influences broader road use activity in two competing facultative scavenger species: dingoes (Canis dingo), an apex scavenger, and red foxes (Vulpes vulpes), a mesoscavenger. Using camera traps, we monitored the activity of the two focal species on roads before and after the placement of 20 experimentally deployed eastern grey kangaroo (Macropus giganteus) carcasses in the surrounding landscape. Carcasses-also monitored using camera traps-were positioned at least 1 km apart at similar distances from roads across open forest and grassland habitats, in summer and winter in southeast Australia. Both dingoes and red foxes exhibited increased road use following carcass deployment, with red fox responses varying seasonally-showing a greater increase in road use during winter months. Overlap in activity times between the focal species on roads also increased post-carcass deployment-especially during the winter month; however, peak activity times remained slightly offset. The focal species temporal overlap at carcasses was also greater in the winter season. Our study provides novel insights into the ecological significance of carrion beyond local carcass sites, highlighting its potential role in influencing broader scavenger activity patterns. We also reveal that peak road use may serve as a reliable proxy for peak scavenging times in systems where carcasses are available near roads, given the overlap in diel activity patterns of both dingoes and red foxes on roads and at carcasses. These findings emphasize the need for further research to examine how carrion availability shapes scavenger dynamics at landscape scales.

Keywords: carrion availability; competitive interactions; road ecology; scavenger activity; temporal partitioning.

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Conflict of interest statement

The authors declare no conflicts of interest.

Figures

FIGURE 1
FIGURE 1
Location of the study area in the Wolgan Valley, Blue Mountains in southeastern NSW, Australia, and an example of the specific carcass monitoring locations (red) and road monitoring locations (yellow) in a single season. Monitoring was conducted over two 30‐day periods, across a summer (23 January—22 February 2019) and a winter (11 July—10 August 2019) season. In each season, 20 adult eastern grey kangaroo carcasses were deployed. Figure generated using QGIS 3.34.3‐Prizren.
FIGURE 2
FIGURE 2
Example camera trap images showing (a) a dingo using a road, (b) a dingo scavenging at a carcass, (c) a red fox using a road, and (d) a red fox scavenging at a carcass.
FIGURE 3
FIGURE 3
Boxplots showing the number of detection events on road cameras for dingoes and red foxes, before and after carcass deployment, across both seasons. Asterisks indicate variables that were statistically significant. The four boxplots on the left are dingoes and on the right are red foxes.
FIGURE 4
FIGURE 4
Smooths of proportional activity across the 24‐h period, between dingoes and red foxes, at road monitoring sites, before and after carcass deployment over both seasons.
FIGURE 5
FIGURE 5
Smooths of proportional activity across the 24‐h period, between dingoes and red foxes, at road monitoring sites, before and after carcass deployment within the (A) winter and (B) summer seasons, and at carcass monitoring sites (C) across both seasons, and (D) within both the winter and summer seasons.
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