Interspecific Asymmetries in Behavioral Plasticity Drive Seasonal Patterns of Temporal Niche Partitioning in an Island Carnivore Community

Zhang, Victor; Gagorik, Calypso N; Brenner, Lara J.; Boser, Christina L.; Theimer, Tad C.; Buck, C. Loren

doi:10.1093/icb/icac113

Cited by 3 publications

(1 citation statement)

References 83 publications

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“…There may be further differences in microhabitat use, with island spotted skunks often found in areas with ground‐level cover in the form of rugged terrain or dense vegetation (Bolas, Sollmann, et al., 2022 ; Gagorik, 2020 ). Regarding temporal dynamics, island spotted skunks are largely nocturnal, whereas island foxes are cathemeral (active during both the day and night; Bolas, Sollmann, et al., 2022 ; Zhang et al., 2022 ), with differing degrees of seasonality. Finally, island spotted skunks are strictly carnivorous while island foxes are largely omnivorous (Crooks & Van Vuren, 1995 ; Cypher et al., 2014 ).…”

Section: Introductionmentioning

confidence: 99%

The gut microbiomes of Channel Island foxes and island spotted skunks exhibit fine‐scale differentiation across host species and island populations

Pasciullo Boychuck,

Brenner,

Gagorik

et al. 2024

Ecology and Evolution

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California's Channel Islands are home to two endemic mammalian carnivores: island foxes (Urocyon littoralis) and island spotted skunks (Spilogale gracilis amphiala). Although it is rare for two insular terrestrial carnivores to coexist, these known competitors persist on both Santa Cruz Island and Santa Rosa Island. We hypothesized that examination of their gut microbial communities would provide insight into the factors that enable this coexistence, as microbial symbionts often reflect host evolutionary history and contemporary ecology. Using rectal swabs collected from island foxes and island spotted skunks sampled across both islands, we generated 16S rRNA amplicon sequencing data to characterize their gut microbiomes. While island foxes and island spotted skunks both harbored the core mammalian microbiome, host species explained the largest proportion of variation in the dataset. We further identified intraspecific variation between island populations, with greater differentiation observed between more specialist island spotted skunk populations compared to more generalist island fox populations. This pattern may reflect differences in resource utilization following fine‐scale niche differentiation. It may further reflect evolutionary differences regarding the timing of intraspecific separation. Considered together, this study contributes to the growing catalog of wildlife microbiome studies, with important implications for understanding how eco‐evolutionary processes enable the coexistence of terrestrial carnivores–and their microbiomes–in island environments.

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Section: Introductionmentioning

confidence: 99%

The gut microbiomes of Channel Island foxes and island spotted skunks exhibit fine‐scale differentiation across host species and island populations

Pasciullo Boychuck,

Brenner,

Gagorik

et al. 2024

Ecology and Evolution

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Classification of sex-dependent specific behaviours by tri-axial acceleration in the tegu lizard Salvator merianae

Guadalupe-Silva,

Zena,

Hervas

et al. 2024

Comparative Biochemistry and Physiology Part A: Molecular &

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Lack of circadian entrainment and limited nocturnal plasticity in response to a cyclic aversive stimulus in a diurnal rodent, the antelope ground squirrel (Ammospermophilus leucurus)

Zhang,

Kenagy,

de la Iglesia

2024

Preprint

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Recent studies have shown that cyclic aversive stimuli, such as random footshocks, act as a nonphotic zeitgeber to entrain circadian behaviors in nocturnal rodents, a pattern termed fear entrainment. However, it remains unknown whether diurnal species exhibit similar plasticity in behavioral timing. This study aimed to determine if antelope ground squirrels (Ammospermophilus leucurus; AGS), a naturally diurnal rodent, can also shift their activity patterns to cyclic aversive stimuli. We conducted two experiments with 20 AGS housed in custom cages featuring a safe nesting area and a separate foraging area (for feeding and drinking), rendered aversive by presentation of unsignaled, time-specific footshocks. In the first experiment, animals were subjected to a 12:12 light-dark (LD) cycle. One group experienced aversion during the light phase, while the control group received the same treatment during the dark phase. In the second experiment, a 16:8 LD cycle was used, and animals were divided into three groups with the foraging area rendered aversive either during the first or second half of the light phase or during the dark phase. Following each of these treatments, animals were released into constant darkness (DD) to assess the phase and period of free-running rhythms. Contrary to previous findings in nocturnal rodents, AGS did not exhibit consistent shifts in activity to avoid footshocks. Most animals maintained their normal diurnal activity, with only minor and inconsistent phase shifts. In experiment two, animals exposed to footshocks during half of the light phase also failed to reliably shift activity to the opposite safe portion of the light phase. Together, these findings show AGS lack the ability to entrain to cyclic aversive stimuli or become nocturnal; this result suggests a lack of substantial plasticity in activity timing. These results highlight the importance of considering species-specific differences in nonphotic circadian entrainment and temporal niche plasticity.

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Interspecific Asymmetries in Behavioral Plasticity Drive Seasonal Patterns of Temporal Niche Partitioning in an Island Carnivore Community

Cited by 3 publications

References 83 publications

The gut microbiomes of Channel Island foxes and island spotted skunks exhibit fine‐scale differentiation across host species and island populations

The gut microbiomes of Channel Island foxes and island spotted skunks exhibit fine‐scale differentiation across host species and island populations

Classification of sex-dependent specific behaviours by tri-axial acceleration in the tegu lizard Salvator merianae

Lack of circadian entrainment and limited nocturnal plasticity in response to a cyclic aversive stimulus in a diurnal rodent, the antelope ground squirrel (Ammospermophilus leucurus)

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