TY - JOUR
T1 - Adult Male Chimpanzees Inherit Maternal Ranging Patterns
AU - Murray, Carson M.
AU - Gilby, Ian C.
AU - Mane, Sandeep V.
AU - Pusey, Anne E.
N1 - Funding Information: We thank Tanzania National Parks, the Tanzania Wildlife Research Institute, and the Tanzanian Commission for Science and Technology for granting us permission to work on this project in Gombe National Park. We also thank the Jane Goodall Institute for funding long-term research at Gombe, the Gombe Stream Research Center staff for maintaining data collection, and Dr. Jane Goodall for granting us permission to work with the long-term dataset. Digitization of the long-term data at the Jane Goodall Institute's Center for Primate Studies was supported by grants from the National Science Foundation (DBS-9021946, SBR-9319909, BCS-0452315), the University of Minnesota, the Harris Steel Group, the Windibrow Foundation, the Carnegie Corporation, and Minnesota Base Camp. Data analysis for this project was funded by a grant from the National Science Foundation (NSF # IIS–0431141). Drs. Sudipto Banerjee, Shashi Shekhar, and Jaideep Srivastava provided invaluable advice on spatial data mining and statistics, and we thank three anonymous reviewers for comments made on an earlier version of this manuscript. We also thank Esther Collins, Joann Schumacher-Stankey, and Emily Wroblewski for translation, extraction, and analysis of male dominance data.
PY - 2008/1/8
Y1 - 2008/1/8
N2 - Space use often correlates with reproductive success [1, 2]. Individual site fidelity is ubiquitous across a variety of taxa, including birds, mammals, insects, and reptiles [3-9]. Individuals can benefit from using the same area because doing so affords access to known resources, including food and/or breeding sites. The majority of studies on site fidelity have focused upon strictly territorial species in which individuals range in well-defined, exclusive areas (e.g., [4, 9]). By comparison, the transient groups that define fission-fusion species allow for considerable flexibility in individual space use. Although there is evidence that individual space use can influence reproductive success [2], relatively little is known about individual ranging patterns in fission-fusion species. Here, we investigate three potential correlates of male site fidelity (age, habitat quality, and maternal space use) in wild chimpanzees (Pan troglodytes). We found that when alone, each male preferentially concentrated his space use near the area where his mother ranged when he was dependent. We suggest that solitary ranging allows males to avoid direct competition with conspecifics and that foraging in familiar areas maximizes foraging efficiency. These results highlight the importance of male foraging strategies in a species in which male ranging is typically explained in terms of mating access to females.
AB - Space use often correlates with reproductive success [1, 2]. Individual site fidelity is ubiquitous across a variety of taxa, including birds, mammals, insects, and reptiles [3-9]. Individuals can benefit from using the same area because doing so affords access to known resources, including food and/or breeding sites. The majority of studies on site fidelity have focused upon strictly territorial species in which individuals range in well-defined, exclusive areas (e.g., [4, 9]). By comparison, the transient groups that define fission-fusion species allow for considerable flexibility in individual space use. Although there is evidence that individual space use can influence reproductive success [2], relatively little is known about individual ranging patterns in fission-fusion species. Here, we investigate three potential correlates of male site fidelity (age, habitat quality, and maternal space use) in wild chimpanzees (Pan troglodytes). We found that when alone, each male preferentially concentrated his space use near the area where his mother ranged when he was dependent. We suggest that solitary ranging allows males to avoid direct competition with conspecifics and that foraging in familiar areas maximizes foraging efficiency. These results highlight the importance of male foraging strategies in a species in which male ranging is typically explained in terms of mating access to females.
KW - EVO_ECOL
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U2 - 10.1016/j.cub.2007.11.044
DO - 10.1016/j.cub.2007.11.044
M3 - Article
C2 - 18158245
SN - 0960-9822
VL - 18
SP - 20
EP - 24
JO - Current Biology
JF - Current Biology
IS - 1
ER -