The ecological determinants of baboon troop movements at local and continental scales

Johnson, Caspian L.; Piel, Alex K.; Forman, Dan W.; Stewart, Fiona; King, Andrew J.

doi:10.1186/s40462-015-0040-y

Cited by 75 publications

(33 citation statements)

References 99 publications

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“…Excluding topographic differences in mean monthly DPL measurements underestimated travel effort by 3–6% in Nyungwe. Cross‐site and cross‐species comparisons in DPL and home range size are used for numerous purposes, for example, comparisons of habitat quality (Palminteri & Peres, 2012; Yamagiwa & Basabose, 2006; Zhang et al, 2014) and territory defendability (Dunbar, 1992; Mitani & Rodman, 1979) and to test ecological and social determinants of movement behavior (Dunbar, 1992; C. Johnson et al, 2015; Wrangham et al, 1993) and even hypotheses on locomotor ecology and evolution (Pontzer, 2017a, 2017b). Ignoring topographic differences will result in the underestimation of path lengths and home ranges in rugged sites and may lead to misleading results.…”

Section: Discussionmentioning

confidence: 99%

“…Variation in primate travel effort is most commonly analyzed using daily path length (DPL, also referred to as daily travel distance or day journey length) and monthly home range size (e.g., Doran, 1997; Grueter et al, 2013; Grueter, Robbins et al, 2018; C. Johnson, Piel, Forman, Stewart, & King, 2015; Li, Chen, Ji, & Ren, 2000; Shaffer, 2013; Wrangham, Gittleman, & Chapman, 1993). DPL is calculated by summing the straight‐line distances between consecutive x and y location coordinates.…”

Section: Introductionmentioning

confidence: 99%

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Chimpanzee ranging responses to fruit availability in a high‐elevation environment

Green

Boruff

Niyigaba

et al. 2020

American J Primatol

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Most primates experience seasonal fluctuations in the availability of food resources and face the challenge of balancing energy expenditure with energy gain during periods of resource scarcity. This is likely to be particularly challenging in rugged, montane environments, where available energy is relatively low and travel costs are high. Chimpanzees (Pan troglodytes) show extensive behavioral diversity across study sites. Yet, as most research has focused on low-and mid-elevation sites, little is known on how chimpanzees respond to periods of low fruit availability in harsh montane environments. We use focal follow and phenology data to investigate how fruit availability influences daily path length and monthly home range in chimpanzees living in Nyungwe National Park, a montane forest in Rwanda. Nyungwe chimpanzees decreased their daily travel distances during periods of fruit scarcity. However, this decrease in travel effort did not correspond with a decrease in foraging area. Instead, monthly homes ranges shifted location across the study period. Nyungwe chimpanzees occupy a relatively wide altitudinal range and the shifts in monthly home range location may reflect differences in the altitudinal distribution of food resources.Chimpanzee monthly diet was often dominated by one or two species and each of these species were confined to different elevation zones. One important species, Podocarpus latifolius, grew only at high elevations (2,600-2,950 m) and chimpanzees ranged at the altitudinal peak of their range for 2 consecutive months while feeding on this species. Thus, while high elevations are often thought to be harsh environments for primates, they can be an important part of a species' home range when they provide a refugium for densely distributed, important food species. K E Y W O R D S3D home range, chimpanzee, ecological constraints, montane forest, path length, seasonality

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Chimpanzee ranging responses to fruit availability in a high‐elevation environment

Green

Boruff

Niyigaba

et al. 2020

American J Primatol

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“…Abiotic factors influence ranging (Baoping, Ming, Yongcheng, & Fuwen, ; Hill & Dunbar, ) as individuals thermoregulate to avoid overheating in hot temperatures and energy loss from cold during rainfall (Stelzner & Hausfater, ). Across habitats, high temperatures are associated with reduced travel speeds and duration (yellow baboons, P. cynocephalus , Stelzner, ; Johnson, Piel, Forman, Stewart, & King, ; white‐faced capuchins, Cebus capucinus , Campos & Fedigan, ) and determine activity schedules (yellow baboons, Hill, ; Hill, ; chimpanzees, Kosheleff & Anderson, ). DTD relates negatively to rainfall in both forests (red colobus, Piliocolobus tephrosceles , Isbell, ; gorillas, Gorilla beringei beringei , Ganas & Robbins, ; proboscis monkeys, Nasalis larvatus , Matsuda, Tuuga, & Higashi, ; siamangs, Hylobates syndactylus , and lar gibbons, H. lar , Raemaekers, ) and more heterogeneous mosaic habitats (baboons, Papio spp., Johnson et al, ).…”

Section: Introductionmentioning

confidence: 99%

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

McLester

Brown

Stewart

et al. 2019

American J Phys Anthropol

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Objectives: Primates that live in predominantly forested habitats and open, savanna mosaics should exhibit behavioral responses to differing food distributions and weather. We compared ecological constraints on red-tailed monkey ranging behavior in forest and savanna mosaic environments. Intraspecific variation in adaptations to these conditions may reflect similar pressures faced by hominins during the Plio-Pleistocene.Methods: We followed six groups in moist evergreen forest at Ngogo (Uganda) and one group in a savanna-woodland mosaic at the Issa Valley (Tanzania). We used spatial analyses to compare home range sizes and daily travel distances (DTD) between sites. We used measures of vegetation density and phenology to interpolate spatially explicit indices of food (fruit, flower, and leaves) abundance. We modeled DTD and range use against food abundance. We modeled DTD and at Issa hourly travel distances (HTD), against temperature and rainfall.Results: Compared to Issa, monkeys at Ngogo exhibited significantly smaller home ranges and less variation in DTD. DTD related negatively to fruit abundance, which had a stronger effect at Issa. DTD and HTD related negatively to temperature but not rainfall. This effect did not differ significantly between sites. Home range use did not relate to food abundance at either site. Conclusions: Our results indicate food availability and thermoregulatory constraints influence red-tailed monkey ranging patterns. Intraspecific variation in home range sizes and DTD likely reflects different food distributions in closed and open habitats. We compare our results with hypotheses of evolved hominin behavior associated with the Plio-Pleistocene shift from similar closed to open environments. K E Y W O R D S guenon, hominin adaptation, movement ecology, resource distribution, savanna-woodland mosaic

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“…AB are ecologically flexible based on the factors influencing in that they use wide variety of foods and can live in a variety of habitats (Codron et al, 2006). The main reason why they are able to adapt to these numerous habitats could be their flexibility in foraging strategies and ability to extract food and nutrients from almost all strata of the environment (Strum, 1991;Johnson et al, 2015). AB are highly social animals; with a complex multi-male, multi-female social structure.…”

Section: Introductionmentioning

confidence: 99%

“…Females mostly stay in troops throughout their life while males sometimes move from the groups and search for food individually. Within the troop, there is social structure with according to their age; the dominant adult males lead the troop (Johnson et al, 2015). Reproduction in AB is linked with the social structure of this species.…”

Section: Introductionmentioning

confidence: 99%

Assessment of the abundance of Anubis baboons (Papio anubis) and conflict with humans in Trigni Forest of Gida Ayana District, Western Ethiopia

Mosissa¹,

Ameha²,

Mosissa³

2017

J. Ecol. Nat. Environ.

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Among baboon species, Papio anubis is the most broadly distributed species, ranging through most of central sub-Saharan of Africa. Papio anubis live in troops but the size varies in different area. There are three troops of P. anubis in Trigni forest with 149 to 180 members in each troop. The objective was to assess the abundance of Anubis baboon (AB) and their conflict with humans with respect to the livelihood of local farmers in Trigni forest of Gida Ayana district, Western Ethiopia. Counting was conducted early morning at 6:00 to 7:00 am and late afternoon at 5:00 to 6:00 pm when the baboons were at the site of their sleeping. Six trained data collators were arranged during census of AB. These six data collators were divided into three sites (Harawa, Gendo, and Kotam cliffs). To increase accuracy and minimize error, counting was also done when the baboons left their sleeping site and went to foraging area, and in the afternoon when AB return to their sleeping site. Population count was carried out three times during each dry and wet season. For the human-anubis baboon conflict (HABC) assessment, participatory techniques were used. Data were analyzed using descriptive statistical methods, using SPSS version 20. The dry and wet populations of AB were 484 and 511, respectively. The distance of farmland from forest edge and problems of HABC were directly correlated. Results showed that AB is physically strong enough to attack livestock. About 62.9% of the respondents indicated that they lost their livestock by AB during 2015/2016. Most of the respondents reported that they rely on dogs and children to protect AB from raiding crops and this require time and energy. The majority (78.5%) of the respondents strongly agree that habitat disturbance is the main cause of HABC in the study area. More than 93.1% of the livelihood of local farmers of Gute Gudina kebele, adjacent to the forest reserve was affected by conflict between humans and AB. AB spent most of their time along the road and entered the agricultural fields. They can also attack and injure humans especially females and babies if provoked. Therefore, leaving sufficient buffer zones between crop productions and forest that allow free movements of AB and avoid high guarding investments (easy for guarding) is recommended.

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The ecological determinants of baboon troop movements at local and continental scales

Cited by 75 publications

References 99 publications

Chimpanzee ranging responses to fruit availability in a high‐elevation environment

Chimpanzee ranging responses to fruit availability in a high‐elevation environment

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

Assessment of the abundance of Anubis baboons (Papio anubis) and conflict with humans in Trigni Forest of Gida Ayana District, Western Ethiopia

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