Competitor densities, habitat, and weather: effects on interspecific interactions between wild deer species

Ferretti, Francesco; Fattorini, Niccolò

doi:10.1111/1749-4877.12470

Cited by 30 publications

(23 citation statements)

References 101 publications

(248 reference statements)

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“…Bonnot et al 2013;Sönnichsen et al 2013;Lone et al 2014). In our study area, behaviour, distribution and density of this ungulate have been shown to be negatively influenced by interspecific competition with the fallow deer (Ferretti et al 2011;Ferretti and Fattorini 2020). Thus, roe deer avoidance of sites with high local density of fallow deer may limit the risk of encounters with wolves (Ferretti et al 2019).…”

Section: Predator-prey Interactionsmentioning

confidence: 73%

Spatiotemporal patterns of wolf, mesocarnivores and prey in a Mediterranean area

Rossa

Lovari

Ferretti

2021

Behav Ecol Sociobiol

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Spatial and temporal occurrence can mediate behavioural interactions between apex predators, mesocarnivores and herbivores. Predators should adapt their activity to that of prey, whereas predator avoidance would be expected to influence activity patterns and space use of prey and smaller competitors. We evaluated interspecific spatiotemporal relationships in a prey-rich community including an apex predator (the wolf), three wild ungulates and several smaller herbivores/mesocarnivores, through camera trapping. All considered species (i.e. wolves and potential prey/smaller competitors: wild boar, fallow deer, roe deer, crested porcupine, red fox and European badger) were active especially at night and/or twilight. Among wild ungulates, the wolf showed the greatest temporal overlap with the wild boar and the lowest one with the least abundant and used of them, i.e. the roe deer. The main prey (i.e. the fallow deer) showed more diurnal activity and a lower temporal overlap with the predator in sites with high wolf activity than in low-activity ones. Among mesocarnivores, the red fox showed extensive temporal overlap with the wolf: the overlap between the two canids was greater in sites intensively used by this apex predator than in sites with low wolf activity, supporting a concurrent study which suggested a potential for facilitative—rather than competitive—interactions. Spatiotemporal relationships suggest complex interactions between the apex predator, prey and smaller carnivores, for which a substantial temporal or spatial association was often supported. Significance statement There is a growing interest in the influence of apex predators on ecosystems through their effects on the behaviour of prey and smaller carnivores, especially in the light of the ongoing recovery of large carnivores in temperate areas. Predators should synchronise their activity to that of prey; conversely, prey and smaller carnivores would be expected to avoid predators. In a rich community including the wolf, three wild ungulates and several mesomammals, we detected (i) a substantial temporal overlap between wolves and wild boar, porcupines and mesocarnivores; (ii) a negative temporal association between the predator and its main prey (i.e. the fallow deer) and (iii) a great temporal overlap between the wolf and the red fox. We provide a baseline to evaluate temporal changes of predator-prey-mesocarnivore behavioural interactions along with variations of carnivore-prey densities.

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Section: Predator-prey Interactionsmentioning

confidence: 73%

Spatiotemporal patterns of wolf, mesocarnivores and prey in a Mediterranean area

Rossa

Lovari

Ferretti

2021

Behav Ecol Sociobiol

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“…First, we examined temporal and spatial variation in feral water buffalo dung abundance. Human actions alongside rainfall, population density, water resources and forage availability are important processes that influence temporal or spatial variation in ungulate population abundances (Clutton-Brock et al 1997;Coulson et al 2000;Ferretti and Fattorini 2020;Imperio et al 2012). Similarly, we predicted that one or more of these processes could explain annual variation in water buffalo dung abundance.…”

Section: Introductionmentioning

confidence: 71%

“…However, we found a strong negative correlation between water buffalo and rusa deer population dung abundance. A decreased local abundance in one or both interacting species is often required to suggest the effects of interspecific competition (Chesson 2000;Ferretti and Fattorini 2020;Putman 1996). Two forms of competition can result in the direct and indirect resource exclusion between interacting herbivore species (Forsyth and Hickling 1998;Jung et al 2015;Ritchie et al 2009;Sinclair 1985;Valeix et al Fig.…”

Section: Discussionmentioning

confidence: 99%

“…Indeed the resource use shift documented in rusa deer could be a key strategy to reduce competition with water buffalo (Chesson 2000;Shea and Chesson 2002). So, although they exist at lower densities when water buffalo are common, rusa deer may also increase their use of open deciduous forest to reduce the effects of competition and buffer population growth rates to avoid the potential for local extinction (Ferretti and Fattorini 2020).…”

Section: Discussionmentioning

confidence: 99%

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Invasive water buffalo population trends and competition-related consequences for native rusa deer in eastern Indonesian protected areas

Ariefiandy¹,

Purwandana²,

Azmi³

et al. 2021

Mamm Biol

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Large introduced mammalian herbivores, either as livestock or feral populations, can have important effects on vegetation and animals. Introduced herbivores can be of high conservation concern if they impact threatened native species in protected areas. We evaluated temporal and spatial trends in the relative abundance of introduced water buffalo (Bubalus bubalis) and their potential to induce competition-related ecological and demographic effects on native rusa deer (Rusa timorensis) in Komodo National Park and the Wae Wuul Nature Reserve-two protected areas in Eastern Indonesia. To monitor ungulate population abundances and population growth rates of water buffalo and rusa deer, we counted their dung (a validated abundance index in these two species) along 350 permanently marked transects at 11 sites over five islands annually between 2003 and 2018. Water buffalo dung abundance varied with the site, year and their interaction. Water buffalo dung was most abundant within the Wae Wuul Nature Reserve, and their dung abundance varied considerably among sites in Komodo National Park. Water buffalo site-specific dung abundances fluctuated independently over time. In areas of high water buffalo dung densities, rusa deer altered resource use and had lower population densities than sites without water buffalo. Rusa deer dung-based population growth rates were negatively influenced by density-dependent regulation and only weakly by water buffalo dung density. Currently, managers do not control water buffalo in either protected area. Nevertheless, the benefits of control could reduce water buffalo effects on vegetation composition, watercourse integrity, or the potential to transmit disease into native ungulates.

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“…In most remnant habitat patches, mutualistic networks for animal-mediated pollination and seed dispersal are disrupted by species loss ( Schupp et al., 2017 ; Grass et al., 2018 ) and affected by the size and quality of habitat patches ( Spiesman and Inouye, 2013 ; de Bomfim et al., 2018 ; Emer et al., 2019 ). Compared with large habitat patches, small habitat patches are unable to support the survival of most large-bodied species owing to their lower food quality and greater interspecific competition ( Hart et al., 2017 ; Ferretti and Fattorini, 2021 ). Consequently, the seed dispersal networks dominated by these large-bodied species are disrupted, thus affecting subsequent plant species recruitment ( Bregman et al., 2016 ; Donoso et al., 2016 ).…”

Section: Introductionmentioning

confidence: 99%

Importance of species traits on individual-based seed dispersal networks and dispersal distance for endangered trees in a fragmented forest

Yang

Ren

et al. 2022

Front. Plant Sci.

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Although mutualistic network analyses have sparked a renewed interest in the patterns and drivers of network structures within communities, few studies have explored structural patterns within populations. In an endangered tree species population, plant individuals share their bird seed dispersers; however, the factors affecting individual interaction patterns are poorly understood. In this study, four individual-based networks were built for the endangered Chinese yew, Taxus chinensis, in a fragmented forest based on bird foraging type (swallowing and pecking networks) and habitat type (networks in a bamboo patch and an evergreen broad-leaved forest patch). Species-level network metrics (species degree and specialization, d’) were used to evaluate the effects of species traits (bird and plant traits) on species-level networks and dispersal distance for T. chinensis. It was revealed that the interaction networks between T. chinensis individuals and their bird partners were influenced by foraging type and the habitat of plant distribution. Compared to the other two networks, bird swallowing and bird–fruit networks in the evergreen broad-leaved patch habitat had higher nestedness and connectance but lower modules and specialization. Bird (body weight and wing and bill lengths) and plant traits (height, crop size, and cover) significantly affected species-level network metrics such as degree and specialization. Furthermore, seed dispersal distance was influenced by species traits and the species-level metrics of fruit–bird interaction networks. These results provide new insights into individual-based seed dispersal mutualistic networks of endangered plant species under habitat fragmentation. Moreover, these findings have relevant implications for conserving and managing individual endangered trees in increasingly disturbed ecosystems.

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Competitor densities, habitat, and weather: effects on interspecific interactions between wild deer species

Cited by 30 publications

References 101 publications

Spatiotemporal patterns of wolf, mesocarnivores and prey in a Mediterranean area

Spatiotemporal patterns of wolf, mesocarnivores and prey in a Mediterranean area

Invasive water buffalo population trends and competition-related consequences for native rusa deer in eastern Indonesian protected areas

Importance of species traits on individual-based seed dispersal networks and dispersal distance for endangered trees in a fragmented forest

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