Nelle K. Kulick scite author profile

Invasive plants often successfully occupy large areas encompassing broad environmental gradients in their invaded range, yet how invader dominance and effects on ecological communities vary across the landscape has rarely been explored. Furthermore, while the impacts of invasion on plant communities are well studied, it is not well understood whether responses of above‐ground (plant) and below‐ground (microbial) communities are coupled. Here we test patterns in Phragmites australis (common reed) invasion in a field survey of eight sites situated across a salinity gradient, ranging from freshwater to saline marsh, in Southeast Louisiana. At each site, we surveyed plant composition and used metabarcoding methods to assess soil fungal and bacterial composition in plots within the dense Phragmites stand, in a transition zone of ~50:50 Phragmites:native plants, and in native‐only areas. We hypothesized that Phragmites' abundance and impact on above‐ and below‐ground communities would vary across the salinity gradient and that the responses of above‐ and below‐ground communities to invasion would be coupled. We found weak evidence that invasion varied across the gradient: Phragmites stem densities increased slightly with salinity, and Phragmites increased above‐ground litter accumulation more in fresh and saline areas compared to brackish. We found stronger evidence that plant and microbial responses to invasion varied with salinity. Phragmites strongly reduced native plant density across the gradient, with slightly greater reductions in fresh and saline areas. Plant species richness displayed consistent decreases with invasion across the salinity gradient; however, fungal and bacterial richness increased sharply with invasion only in brackish sites. Furthermore, the effect of Phragmites on plant and microbial community composition became stronger as salinity increased. Plants and microbes exhibited coupled responses to invasion in the magnitude of compositional shifts brought on by Phragmites, but Phragmites' effects on richness were not coupled. Synthesis. Overall, the variability in Phragmites impacts across the gradient, particularly soil microbial impacts, suggests that it may be difficult to generalize invader effects from single‐site or single‐ecosystem studies. However, above‐ and below‐ground communities showed some coupled responses to Phragmites; thus understanding plant community responses to invasion gives insight into impacts occurring below‐ground.

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Cooperative rescue of a juvenile capuchin (Cebus imitator) from a Boa constrictor

Jack

Brown

Buehler

et al. 2020

Sci Rep

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The threat of predation by snakes is considered to have played a significant role in the evolution of primate sensory systems and behavior. However, we know relatively little about individual and group responses given the rarity of observed predation events. Here we report an observed (filmed) predation attempt by an adult Boa constrictor (~ 2 m) on a juvenile white-faced capuchin (Cebus imitator) in the Sector Santa Rosa of the Área de Conservación Guanacaste, Costa Rica. The snake caught the juvenile monkey on the ground during a terrestrial play session. When the victim screamed, the alpha male, alpha female, and another adult female ran to the scene, physically attacked the snake (with bites and hits), and pulled the victim to safety. Most group members participated in the vocal mobbing of the snake both during and after the attack. Based on the outcomes of this predation attempt and published reports of other B. constrictor attacks on primates, the coordinated efforts of ≥ 2 group members is needed for a successful rescue. This observation adds to our growing knowledge of cooperative group behavior and its importance in predator defense.

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Using an on-site laboratory for fecal steroid analysis in wild white-faced capuchins

Beehner

Alfaro²,

Allen³

et al. 2022

General and Comparative Endocrinology

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The impact of alpha male replacements on reproductive seasonality and synchrony in white‐faced capuchins (Cebus imitator)

Brasington

Kulick

Hogan

et al. 2022

American Journal of Biological Anthropology

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Objectives Reproductive seasonality is typically associated with ecological factors, but it can also be related to social factors, such as alpha male replacements (AMR). Such events can produce distinct birth peaks outside of the ecological peak, potentially increasing hardship for mother and infant and ultimately reducing fitness. We examined the impact of AMRs on birth seasonality, birth synchrony, and infant survival in the Santa Rosa population of white‐faced capuchins (Cebus imitator). Materials and Methods We analyzed 33 years of data on seven capuchin groups to test whether AMRs and births occur seasonally and whether birth seasonality changes following AMRs. Using sliding window analysis, we tested whether ecological conditions predict births in future months. We also tested whether birth period affects infant survival and likelihood of infanticide. Results AMRs shift birth seasonality from the ecological birth peak in the early wet season (late May–July) to a social birth peak during the late dry season (March–May), but they do not affect synchrony. In addition, we found that being born in the social peak significantly decreases infant survival relative to individuals born in the ecological and nonpeak periods. Discussion These findings suggest that Santa Rosa's predictable seasons can provide conception cues for female capuchins, but AMRs disrupt this ecological timing of conceptions. We suggest the increased infant mortality associated with the social birth peak is related to seasonal factors, including water scarcity and varying resource availability, and increased risk of infanticide, as the social birth peak overlaps with the AMR peak.

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Female-committed infanticide followed by juvenile-enacted cannibalism in wild white-faced capuchins

et al. 2021

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On 5 February 2021, we observed the first instance of female-committed infanticide followed by cannibalism in a longstudied (> 35 years) population of wild white-faced capuchins (Cebus imitator) in the Santa Rosa Sector of the Área de Conservación Guanacaste, Costa Rica. The events leading up to and including the infanticide and cannibalism were observed and documented ad libitum, with segments digitally recorded, and a post-mortem necropsy performed. Here we detail our observations and evaluate the events within the framework of leading adaptive explanations. The infanticide may have been proximately motivated by resource competition or group instability. The circumstances of the observed infanticide provided support for the resource competition, adoption avoidance, and social status hypotheses of infanticide, but not for the exploitation hypothesis, as neither the perpetrator nor her kin consumed the deceased infant. The subsequent cannibalism was performed by juveniles who observed the infanticide and may have been stimulated by social facilitation and their prior experience of meat consumption as omnivores. To our knowledge, cannibalism has been documented only once before in C. imitator, in an adjacent study group, with the two cases sharing key similarities in the context of occurrence and manner of consumption. These observations add to our growing knowledge of the evolutionary significance of infanticide and its importance as a reproductive strategy in nonhuman primates.

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Nelle K. Kulick

Plant and microbial impacts of an invasive species vary across an environmental gradient

Cooperative rescue of a juvenile capuchin (Cebus imitator) from a Boa constrictor

Using an on-site laboratory for fecal steroid analysis in wild white-faced capuchins

The impact of alpha male replacements on reproductive seasonality and synchrony in white‐faced capuchins (Cebus imitator)

Female-committed infanticide followed by juvenile-enacted cannibalism in wild white-faced capuchins

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