Food abundance and weather influence habitat‐specific ranging patterns in forest‐ and savanna mosaic‐dwelling red‐tailed monkeys (<i>Cercopithecus ascanius</i>)

McLester, Edward; Brown, Michelle; Stewart, Fiona; Piel, Alex K.

doi:10.1002/ajpa.23920

Cited by 11 publications

(6 citation statements)

References 99 publications

(116 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The seasonal variation in activities and microhabitat use is thought to be related to thermoregulation in a number of primates (e.g., Alouatta palliate : Thompson, Williams, Glander, & Vinyard, 2016). For instance, when T a is high, primates reduce their daily travel distance (McLester, Brown, Stewart, & Piel, 2019), spend more time resting in the shade ( Callithrix jacchus : Abreu, De la Fuente, Schiel, & Souto, 2016; Fuente, Souto, Sampaio, & Schiel, 2014; Colobus polykomos : Dasilva, 1992; Papio cynocephalus: Stelzner, 1988), and stay in cooler microhabitats (e.g., caves) during the day ( Pan troglodytes verus : Pruetz, 2007; A. palliate : Thompson et al, 2016). On the other hand, when T a is low, primates respond by adopting alternative behaviors: They may change social relationships (increasing physical contact with others) within their group to benefit their thermal competences (McFarland et al, 2015), adjust nest architecture to increase thermoregulation (Stewart, Piel, Azkarate, & Pruetz, 2018), preferentially use heat‐conserving postures in sunny areas or stay under direct sunlight ( Alouatta caraya: Bicca‐Marques & Calegaro‐Marques, 1998; Callicebus nigrifrons: Gestich, Caselli, & Setz, 2014; P. cynocephalus: Stelzner & Hausfater, 1986), form huddles ( Macaca fuscata: Ogawa & Wada, 2011; Ueno & Nakamichi, 2018), select warmer microhabitats during the day ( A. palliate: Thompson et al, 2016), or remain for longer in caves ( P. hamadryas ursinus: Barrett, Gaynor, Rendall, Mitchell, & Henzi, 2004).…”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Behavioral adjustments and support use of François' langur in limestone habitat in Fusui, China: Implications for behavioral thermoregulation

Huang

2020

Ecology and Evolution

View full text Add to dashboard Cite

Climatic factors such as temperature and humidity vary seasonally in primate habitats; thus, behavioral adjustments and microhabitat selection by primate species have been interpreted as behavioral adaptations. François' langur (Trachypithecus francoisi), a native species to southwest China and northern Vietnam, inhabits a limestone habitat with extreme climatic conditions. To understand the potential effects of climatic seasonality on this species, we collected data on the individual behavioral budgets in a T. francoisi group between January and December 2010 in Fusui County, China. Monthly, we performed 5–11 days of observation during this period, using focal animal sampling and continuous recording methods. We also recorded ambient temperature (Ta) and relative humidity (Hr) data at our study site. Results indicated that Ta and Hr were significantly correlated with each other and fluctuated dramatically on a daily, monthly, and seasonal basis. The amount of time spent resting, grooming, basking, and huddling also varied on a daily, monthly, and seasonal basis. The proportion of resting time and total sedentary activity time significantly increased at high and low Tas, respectively. The total sedentary time, resting time, and plant branch use all showed positive significant correlations with Ta. Our results suggest that behavioral adjustment and support use of T. francoisi, at least partly, were related to thermoregulation. T. francoisi minimized thermal stress through behavioral adjustments and support use. It is an adaptive behavior associated with the climatic extremes of limestone habitat. This study can potentially advise conservation management strategies in this specific habitat. Conservation efforts should focus on vegetation restoration in langurs' habitat, including those in the foothills.

show abstract

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Behavioral adjustments and support use of François' langur in limestone habitat in Fusui, China: Implications for behavioral thermoregulation

Huang

2020

Ecology and Evolution

View full text Add to dashboard Cite

show abstract

“…The study site is characterized as a mosaic of miombo woodland, dominated by Brachystegia and Julbernardia spp., and small strips of riverine forest (Piel 2018). Mean annual rainfall since 2012 is ~1250mm, and daily mean temperatures in forest range from 10-33 o C throughout the year (McLester et al 2019).…”

Section: Methodsmentioning

confidence: 99%

Red-tailed monkeys (Cercopithecus ascanius) prey upon and mob birds in the Issa Valley, western Tanzania

Lile¹,

McLester

Stewart

et al. 2020

Primates

Self Cite

View full text Add to dashboard Cite

show abstract

“…While previous studies have shown that chimpanzees frequently panthoot at food sources (Clark & Wrangham, 1993;Fedurek, Donnellan & Slocombe, 2014;Wrangham, 1977), call rate did not change with the proportion of time spent feeding in our study. However, our brief field season took place during the late dry season, when fruit availability is highest (McLester et al, 2019). The abundance of food might reduce competition among individuals and thus depress the need for calling.…”

Section: Travelling and Feeding Activitiesmentioning

confidence: 99%

Vocal communication in wild chimpanzees: a call rate study

Crunchant

Stewart

Piel

2021

PeerJ

Self Cite

View full text Add to dashboard Cite

Background Patterns of vocal communication have implications for species conservation: a change in calling behaviour can, for instance, reflect a disturbed habitat. More importantly, call rate is a parameter that allows conservation planners to convert call density into animal density, when detecting calls with a passive acoustic monitoring system (PAM). Methods We investigated chimpanzee (Pan troglodytes schweinfurthii) call rate during the late dry season in the Issa Valley, western Tanzania by conducting focal follows. We examined the socio-ecological factors that influence call production rate of savanna woodland chimpanzees. Results We found that sex, proportion of time spent in a vegetation type, proportion of time spent travelling, time of the day, party size and swollen parous female presence had a significant effect on the call rate. Call rate differed among the different demographic classes with subadult and adult males vocalising twice as often as the subadult and adult females and three times as often as the juveniles. Applications The use of PAM and recent statistical developments to estimate animal density is promising but relies on our knowing individual call rate, often not available for many species. With the improvement in automatic call detection, we anticipate that PAM will increasingly be broadly applied to primates but also across taxa, for conservation.

show abstract

Food abundance and weather influence habitat‐specific ranging patterns in forest‐ and savanna mosaic‐dwelling red‐tailed monkeys (Cercopithecus ascanius)

Cited by 11 publications

References 99 publications

Behavioral adjustments and support use of François' langur in limestone habitat in Fusui, China: Implications for behavioral thermoregulation

Behavioral adjustments and support use of François' langur in limestone habitat in Fusui, China: Implications for behavioral thermoregulation

Red-tailed monkeys (Cercopithecus ascanius) prey upon and mob birds in the Issa Valley, western Tanzania

Vocal communication in wild chimpanzees: a call rate study

Contact Info

Product

Resources

About