Tree climbing and human evolution

Paleoanthropologists have long argued—often contentiously—about the climbing abilities of early hominins and whether a foot adapted to terrestrial bipedalism constrained regular access to trees. However, some modern humans climb tall trees routinely in pursuit of honey, fruit, and game, often withou...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2013-01, Vol.110 (4), p.1237-1242
Hauptverfasser:	Venkataraman, Vivek V., Kraft, Thomas S., Dominy, Nathaniel J.
Format:	Artikel
Sprache:	eng
Schlagworte:	Adolescent Adult Animals Ankle Ankle Joint - anatomy & histology Ankle Joint - physiology Anthropology Australopithecus Biological Evolution Biological Sciences Chimpanzees Climbing Ethnic Groups Fossils Gait - physiology Genotype & phenotype Hominidae - anatomy & histology Hominidae - physiology Hominids Humans Hunter gatherers Locomotion Locomotion - physiology Male Men Middle Aged Paleontology Pan troglodytes - anatomy & histology Pan troglodytes - physiology Phenotypic traits Philippines Primates Trees Uganda Young Adult
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container_title	Proceedings of the National Academy of Sciences - PNAS
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creator	Venkataraman, Vivek V. Kraft, Thomas S. Dominy, Nathaniel J.
description	Paleoanthropologists have long argued—often contentiously—about the climbing abilities of early hominins and whether a foot adapted to terrestrial bipedalism constrained regular access to trees. However, some modern humans climb tall trees routinely in pursuit of honey, fruit, and game, often without the aid of tools or support systems. Mortality and morbidity associated with facultative arboreality is expected to favor behaviors and anatomies that facilitate safe and efficient climbing. Here we show that Twa hunter–gatherers use extraordinary ankle dorsiflexion (>45°) during climbing, similar to the degree observed in wild chimpanzees. Although we did not detect a skeletal signature of dorsiflexion in museum specimens of climbing hunter–gatherers from the Ituri forest, we did find that climbing by the Twa is associated with longer fibers in the gastrocnemius muscle relative to those of neighboring, nonclimbing agriculturalists. This result suggests that a more excursive calf muscle facilitates climbing with a bipedally adapted ankle and foot by positioning the climber closer to the tree, and it might be among the mechanisms that allow hunter–gatherers to access the canopy safely. Given that we did not find a skeletal correlate for this observed behavior, our results imply that derived aspects of the hominin ankle associated with bipedalism remain compatible with vertical climbing and arboreal resource acquisition. Our findings challenge the persistent arboreal–terrestrial dichotomy that has informed behavioral reconstructions of fossil hominins and highlight the value of using modern humans as models for inferring the limits of hominin arboreality.
doi_str_mv	10.1073/pnas.1208717110
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However, some modern humans climb tall trees routinely in pursuit of honey, fruit, and game, often without the aid of tools or support systems. Mortality and morbidity associated with facultative arboreality is expected to favor behaviors and anatomies that facilitate safe and efficient climbing. Here we show that Twa hunter–gatherers use extraordinary ankle dorsiflexion (>45°) during climbing, similar to the degree observed in wild chimpanzees. Although we did not detect a skeletal signature of dorsiflexion in museum specimens of climbing hunter–gatherers from the Ituri forest, we did find that climbing by the Twa is associated with longer fibers in the gastrocnemius muscle relative to those of neighboring, nonclimbing agriculturalists. This result suggests that a more excursive calf muscle facilitates climbing with a bipedally adapted ankle and foot by positioning the climber closer to the tree, and it might be among the mechanisms that allow hunter–gatherers to access the canopy safely. Given that we did not find a skeletal correlate for this observed behavior, our results imply that derived aspects of the hominin ankle associated with bipedalism remain compatible with vertical climbing and arboreal resource acquisition. 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This result suggests that a more excursive calf muscle facilitates climbing with a bipedally adapted ankle and foot by positioning the climber closer to the tree, and it might be among the mechanisms that allow hunter–gatherers to access the canopy safely. Given that we did not find a skeletal correlate for this observed behavior, our results imply that derived aspects of the hominin ankle associated with bipedalism remain compatible with vertical climbing and arboreal resource acquisition. 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This result suggests that a more excursive calf muscle facilitates climbing with a bipedally adapted ankle and foot by positioning the climber closer to the tree, and it might be among the mechanisms that allow hunter–gatherers to access the canopy safely. Given that we did not find a skeletal correlate for this observed behavior, our results imply that derived aspects of the hominin ankle associated with bipedalism remain compatible with vertical climbing and arboreal resource acquisition. Our findings challenge the persistent arboreal–terrestrial dichotomy that has informed behavioral reconstructions of fossil hominins and highlight the value of using modern humans as models for inferring the limits of hominin arboreality.</abstract><cop>United States</cop><pub>National Academy of Sciences</pub><pmid>23277565</pmid><doi>10.1073/pnas.1208717110</doi><tpages>6</tpages><oa>free_for_read</oa></addata></record>
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subjects	Adolescent Adult Animals Ankle Ankle Joint - anatomy & histology Ankle Joint - physiology Anthropology Australopithecus Biological Evolution Biological Sciences Chimpanzees Climbing Ethnic Groups Fossils Gait - physiology Genotype & phenotype Hominidae - anatomy & histology Hominidae - physiology Hominids Humans Hunter gatherers Locomotion Locomotion - physiology Male Men Middle Aged Paleontology Pan troglodytes - anatomy & histology Pan troglodytes - physiology Phenotypic traits Philippines Primates Trees Uganda Young Adult
title	Tree climbing and human evolution
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