What explains variation in the strength of behavioral responses to predation risk? A standardized test with large carnivore and ungulate guilds in three ecosystems

Creel, Scott; Becker, Matt; Dröge, Egil; M’soka, Jassiel; Matandiko, Wigganson; Rosenblatt, Eli; Mweetwa, Thandiwe; Mwape, Henry; Vinks, Milan A.; Goodheart, Ben; Merkle, Johnathan; Mukula, Teddy; Smit, Daan; Sanguinetti, Carolyn; Dart, Chase; Christianson, David; Schuette, Paul

doi:10.1016/j.biocon.2019.02.012

Cited by 26 publications

(35 citation statements)

References 50 publications

(78 reference statements)

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“…The growing emphasis on developing a better understanding of the interactions among multiple prey and predators within large carnivore—ungulate systems 15 , 26 , 57 is being driven, in part, by new methodologies to study behavior 10 . For example, using ABRs enabled us to test responses to playbacks during night and day on numerous species 38 .…”

Section: Discussionmentioning

confidence: 99%

Fear of large carnivores is tied to ungulate habitat use: evidence from a bifactorial experiment

Epperly

Clinchy

Zanette

et al. 2021

Sci Rep

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The fear large carnivores inspire in large ungulates has been argued to have cascading effects down food webs. However, a direct link between ungulate habitat use and their fear of large carnivores has not been experimentally tested. To fill this critical gap, we conducted a bi-factorial experiment in an African savanna. We removed shrub cover and broadcast large carnivore vocalizations (leopard, hyena, dog) or non-threatening control vocalizations in both experimentally cleared and shrubby control sites. We recorded the proactive (frequency of visitation) and reactive (fleeing or vigilance) responses of multiple prey (impala, warthog, nyala and bushbuck). Critically, we found a significant proactive–reactive interaction. Ungulates were 47% more likely to run after hearing a predator vocalization in shrubby control sites than experimental clearings, demonstrating that ungulates perceived less fear from large carnivores in open habitat (clearings). Consistent with this finding, ungulates visited clearings 2.4 times more often than shrubby control sites and visited shrubby control sites less often at night, when large carnivores are most active. Combined with results from previous experiments demonstrating that the disproportionate use of available habitats by large ungulates can alter ecosystem properties, our experiment provides critical evidence that the fear large carnivores inspire in large ungulates can cause trophic cascades.

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Section: Discussionmentioning

confidence: 99%

Fear of large carnivores is tied to ungulate habitat use: evidence from a bifactorial experiment

Epperly

Clinchy

Zanette

et al. 2021

Sci Rep

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“…Both variables describing human land use had strong effects on the probabilities of typical vs. fast movement. Outside the National Park in the GMAs (where prey density is known to be lower 63 , 66 ), wild dogs were significantly more likely to adopt the fast movements of State 3 (Figs. 6 and 7 C).…”

Section: Resultsmentioning

confidence: 99%

“…Faster movements in GMAs relative to the National Park probably have at least two causes. First, the densities of large herbivores are lower in the GMAs 62 , including impala and puku, which are most important prey of African wild dogs in the Luangwa Valley 66 . Lower prey density would be expected to translate into increased effort to locate and kill prey.…”

Section: Discussionmentioning

confidence: 99%

Hidden Markov Models reveal a clear human footprint on the movements of highly mobile African wild dogs

Creel

Merkle

Mweetwa³

et al. 2020

Sci Rep

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Large carnivores have experienced considerable range contraction, increasing the importance of movement across human-altered landscapes between small, isolated populations. African wild dogs (Lycaon pictus) are exceptionally wide-ranging, and recolonization is an important element of their persistence at broad scales. The competition-movement-connection hypothesis suggests that adaptations to move through areas that are unfavorable due to dominant competitors might promote the ability of subordinate competitors (like wild dogs) to move through areas that are unfavorable due to humans. Here, we used hidden Markov models to test how wild dog movements were affected by the Human Footprint Index in areas inside and outside of South Luangwa National Park. Movements were faster and more directed when outside the National Park, but slowed where the human footprint was stronger. Our results can be directly and quantitatively applied to connectivity planning, and we use them to identify ways to better understand differences between species in recent loss of connectivity.

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“…Wildebeest, were less likely to flee from these threats, instead appearing to offset this response by increasing the amount of time spent monitoring the danger. The use of complementary anti-predator responses such as this would not have been detected if we had only examined a single behavioral metric (see [ 68 – 70 ]). Several authors have noted that anti-predatory behaviors should decrease levels of direct predation to the point that lethality becomes a poor proxy for predation threat [ 64 , 71 ], and studies in other large herbivore communities found that capture success fails to predict proactive anti-predator avoidance behaviors (e.g., [ 72 ]) and reactive levels of vigilance to predators within 0.5 km [ 59 , 69 ].…”

Section: Discussionmentioning

confidence: 99%

“…The physical and social environments may also shape anti-predator decision-making [ 57 , 68 , 70 ]. The distribution of resources across the landscape differs for browsers and grazers, forcing certain species to enter habitats of varying complexity [ 59 ] and/or that differ in underlying predation risk [ 57 ].…”

Section: Discussionmentioning

confidence: 99%

Reactive anti-predator behavioral strategy shaped by predator characteristics

Palmer

Packer

2021

PLoS ONE

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Large mammalian herbivores use a diverse array of strategies to survive predator encounters including flight, grouping, vigilance, warning signals, and fitness indicators. While anti-predator strategies appear to be driven by specific predator traits, no prior studies have rigorously evaluated whether predator hunting characteristics predict reactive anti-predator responses. We experimentally investigated behavioral decisions made by free-ranging impala, wildebeest, and zebra during encounters with model predators with different functional traits. We hypothesized that the choice of response would be driven by a predator’s hunting style (i.e., ambush vs. coursing) while the intensity at which the behavior was performed would correlate with predator traits that contribute to the prey’s relative risk (i.e., each predator’s prey preference, prey-specific capture success, and local predator density). We found that the choice and intensity of anti-predator behaviors were both shaped by hunting style and relative risk factors. All prey species directed longer periods of vigilance towards predators with higher capture success. The decision to flee was the only behavior choice driven by predator characteristics (capture success and hunting style) while intensity of vigilance, frequency of alarm-calling, and flight latency were modulated based on predator hunting strategy and relative risk level. Impala regulated only the intensity of their behaviors, while zebra and wildebeest changed both type and intensity of response based on predator traits. Zebra and impala reacted to multiple components of predation threat, while wildebeest responded solely to capture success. Overall, our findings suggest that certain behaviors potentially facilitate survival under specific contexts and that prey responses may reflect the perceived level of predation risk, suggesting that adaptive functions to reactive anti-predator behaviors may reflect potential trade-offs to their use. The strong influence of prey species identity and social and environmental context suggest that these factors may interact with predator traits to determine the optimal response to immediate predation threat.

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What explains variation in the strength of behavioral responses to predation risk? A standardized test with large carnivore and ungulate guilds in three ecosystems

Cited by 26 publications

References 50 publications

Fear of large carnivores is tied to ungulate habitat use: evidence from a bifactorial experiment

Fear of large carnivores is tied to ungulate habitat use: evidence from a bifactorial experiment

Hidden Markov Models reveal a clear human footprint on the movements of highly mobile African wild dogs

Reactive anti-predator behavioral strategy shaped by predator characteristics

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