The relative effects of prey availability, anthropogenic pressure and environmental variables on lion (<i>Panthera leo</i>) site use in Tanzania's Ruaha landscape during the dry season

Abade, Leandro; Cusack, Jeremy J.; Moll, Remington J.; Strampelli, Paolo; Dickman, Amy; Macdonald, David W.; Montgomery, Robert A.

doi:10.1111/jzo.12731

Cited by 11 publications

(16 citation statements)

References 44 publications

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“…May Jú nior, 5,17,18,37 George V.N. Powell, 38 Mathias W. Tobler, 39 Samia E. Carrillo-Percastegui, 39 Estebá n Payá n, 18 Fernando C.C. Azevedo, 5,40 Henrique V.B.…”

Section: Factors Associated With Home Range Size and Movement Parametersmentioning

confidence: 99%

“…Decreasing home range size in relation to increasing forest cover and ecosystem productivity is attributable to greater availability of preferred habitat and prey, which reduces spatial needs to meet metabolic and reproductive requirements. 16,32,34 Increasing road density can affect jaguars and other large cats 33,[35][36][37][38][39][40][41] through direct human mortality (hunting, vehicle collisions) or through prey reduction, while driving behavioral changes related to human presence and land use to avoid or use areas of greater risk, which increases costs to movements and increases spatial needs. We recognize that greater forest cover and net primary productivity do not necessarily translate to greater prey availability since in tropical humid forests in particular, biomass is concentrated in the canopy, 42,43 which in part explains jaguars' association with rivers in these systems 11,44 and the relatively large estimated home ranges in the Southwest Amazon and Pet en-Veracruz moist forest where forest cover and productivity are comparatively high (Table S5).…”

Section: Home Range Sizementioning

confidence: 99%

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Environmental and anthropogenic factors synergistically affect space use of jaguars

et al. 2021

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“…May Jú nior, 5,17,18,37 George V.N. Powell, 38 Mathias W. Tobler, 39 Samia E. Carrillo-Percastegui, 39 Estebá n Payá n, 18 Fernando C.C. Azevedo, 5,40 Henrique V.B.…”

Section: Factors Associated With Home Range Size and Movement Parametersmentioning

confidence: 99%

Section: Home Range Sizementioning

confidence: 99%

Environmental and anthropogenic factors synergistically affect space use of jaguars

et al. 2021

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“…Although lion population density was higher in MBOMIPA WMA (4.06 ± 1.03 per 100 km 2 ) than the miombo woodland of Rungwa GR (2.25 ± 0.52 per 100 km 2 ) and Ruaha NP (1.75 ± 0.62 per 100 km 2 ; see S8 File), there appears to be a strong density gradient within the WMA, with 93% of lion detections in this site occurring within 5 km of the Great Ruaha River, further from the boundary with unprotected village land (see S5.1B Fig in S5 File). It is also highly probable that lion persist at very low densities in unprotected village land, as a result of widespread habitat conversion and degradation, low prey availability, and high anthropogenic mortality [57]. In these areas, lion densities may therefore be sufficiently low that leopard no longer need to adjust their activity patterns to avoid harmful interactions with lion-particularly as this would increase their exposure to humans-and can instead rely more heavily on reactive avoidance strategies [9].…”

Section: Activity Patterns and Species Overlapmentioning

confidence: 99%

Temporal partitioning and spatiotemporal avoidance among large carnivores in a human-impacted African landscape

et al. 2021

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Africa is home to some of the world’s most functionally diverse guilds of large carnivores. However, they are increasingly under threat from anthropogenic pressures that may exacerbate already intense intra-guild competition. Understanding the coexistence mechanisms employed by these species in human-impacted landscapes could help shed light on some of the more subtle ways in which humans may impact wildlife populations, and inform multi-species conservation planning. We used camera trap data from Tanzania’s Ruaha-Rungwa landscape to explore temporal and spatiotemporal associations between members of an intact East African large carnivore guild, and determine how these varied across gradients of anthropogenic impact and protection. All large carnivores except African wild dog (Lycaon pictus) exhibited predominantly nocturnal road-travel behaviour. Leopard (Panthera pardus) appeared to employ minor temporal avoidance of lion (Panthera leo) in all sites except those where human impacts were highest, suggesting that leopard may have been freed up from avoidance of lion in areas where the dominant competitor was less abundant, or that the need for leopard to avoid humans outweighed the need to avoid sympatric competitors. Lion appeared to modify their activity patterns to avoid humans in the most impacted areas. We also found evidence of avoidance and attraction among large carnivores: lion and spotted hyaena (Crocuta crocuta) followed leopard; leopard avoided lion; spotted hyaena followed lion; and lion avoided spotted hyaena. Our findings suggest that large carnivores in Ruaha-Rungwa employ fine-scale partitioning mechanisms to facilitate coexistence with both sympatric species and humans, and that growing human pressures may interfere with these behaviours.

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“…They can be as seemingly benign as raccoons (Procyon lotor) denning in suburban American homes to as severe as hyenas African lions (Panthera leo) killing livestock or harming people in sub-Saharan Africa (O'Donnell and DeNicola 2006). Despite this diversity, conflict tends to be most damaging for people and, correspondingly intense for wildlife, when the interactions involve large mammals (Choudhury 2004;Kolowski and Holekamp 2006;Hegel et al 2009;Abade et al 2019). Species in the order Carnivora, infra-order Ungulata, and order Proboscidea, for instance, have been disproportionately persecuted by humans in response to real or perceived conflict (Cardillo et al 2006;Darimont et al 2009;Chapron et al 2014;Montgomery et al 2020a).…”

Section: Introductionmentioning

confidence: 99%

The efficacy of interventions to protect crops from raiding elephants

Montgomery

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Mukhwana

et al. 2021

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Both African elephants (Loxodonta spp.) and the Asian elephant (Elephas maximus) across their range come into conflict with people because of their crop-raiding behavior, which presents profound impediments to farmer livelihoods. In response, a series of interventions, designed to reduce elephant crop raiding have been applied. Based on an extensive review of elephant crop-raiding studies published over a 31-year period, we identified four primary categories of interventions including: (i) detection efforts; (ii) preemptive measures; (iii) fencing and trenches; and (iv) deterrent techniques. The interventions reported to be most effective involved chili peppers (i.e., fences, spray, and briquettes) and crop guarding coupled with deterrents. The extent to which these interventions can be applied more widely is unclear as only two studies examined efficacy across sites in more than one country. Thus, future inquiry should evaluate the ability of effective interventions, or indeed a combination of interventions, to be applied across the range of elephants to reduce crop raiding at scale.

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The relative effects of prey availability, anthropogenic pressure and environmental variables on lion (Panthera leo) site use in Tanzania's Ruaha landscape during the dry season

Cited by 11 publications

References 44 publications

Environmental and anthropogenic factors synergistically affect space use of jaguars

Environmental and anthropogenic factors synergistically affect space use of jaguars

Temporal partitioning and spatiotemporal avoidance among large carnivores in a human-impacted African landscape

The efficacy of interventions to protect crops from raiding elephants

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