TY - JOUR
T1 - Age-related changes in molar topography and shearing crest length in a wild population of mountain Gorillas from Volcanoes National Park, Rwanda
AU - Glowacka, Halszka
AU - Mcfarlin, Shannon C.
AU - Catlett, Kierstin K.
AU - Mudakikwa, Antoine
AU - Bromage, Timothy G.
AU - Cranfield, Michael R.
AU - Stoinski, Tara S.
AU - Schwartz, Gary
N1 - Funding Information:
Grant sponsor: National Science Foundation; Grant number: BCS-0852866, BCS-0964944; Grant sponsor: National Geographic Society's Committee for Research and Exploration; Grant number: 8486-08; Grant sponsor: The Leakey Foundation; Institute of Human Origins; Arizona State University's School of Human Evolution and Social Change.
Publisher Copyright:
© 2016 Wiley Periodicals, Inc.
PY - 2016/5/1
Y1 - 2016/5/1
N2 - Objectives Great ape teeth must remain functional over long lifespans. The molars of the most folivorous apes, the mountain gorillas, must maintain shearing function for 40+ years while the animals consume large quantities of mechanically challenging foods. While other folivorous primates experience dental senescence, which compromises their occlusal surfaces and affects their reproductive success as they age, it is unknown whether dental senescence also occurs in mountain gorillas. In this article, we quantified and evaluated how mountain gorilla molars change throughout their long lifespans. Materials and Methods We collected high-resolution replicas of M1s (n = 15), M2s (n = 13), and M3s (n = 11) from a cross-sectional sample of wild mountain gorilla skeletons from the Virunga Volcanoes, ranging in age from 4 to 43 years. We employed dental topographic analyses to track how aspects of occlusal slope, angularity, relief index, and orientation patch count rotated change with age. In addition, we measured the relative length of shearing crests in two- and three-dimensions. Results Occlusal topography was found to decrease, while 2D relative shearing crest length increased, and 3D relative crest lengths were maintained with age. Discussion Our findings indicate that shearing function is maintained throughout the long lifetimes of mountain gorillas. Unlike the dental senescence experienced by other folivorous primates, mountain gorillas do not appear to possess senesced molars despite their long lifetimes, mechanically challenging diets, and decreases in occlusal topography with age.
AB - Objectives Great ape teeth must remain functional over long lifespans. The molars of the most folivorous apes, the mountain gorillas, must maintain shearing function for 40+ years while the animals consume large quantities of mechanically challenging foods. While other folivorous primates experience dental senescence, which compromises their occlusal surfaces and affects their reproductive success as they age, it is unknown whether dental senescence also occurs in mountain gorillas. In this article, we quantified and evaluated how mountain gorilla molars change throughout their long lifespans. Materials and Methods We collected high-resolution replicas of M1s (n = 15), M2s (n = 13), and M3s (n = 11) from a cross-sectional sample of wild mountain gorilla skeletons from the Virunga Volcanoes, ranging in age from 4 to 43 years. We employed dental topographic analyses to track how aspects of occlusal slope, angularity, relief index, and orientation patch count rotated change with age. In addition, we measured the relative length of shearing crests in two- and three-dimensions. Results Occlusal topography was found to decrease, while 2D relative shearing crest length increased, and 3D relative crest lengths were maintained with age. Discussion Our findings indicate that shearing function is maintained throughout the long lifetimes of mountain gorillas. Unlike the dental senescence experienced by other folivorous primates, mountain gorillas do not appear to possess senesced molars despite their long lifetimes, mechanically challenging diets, and decreases in occlusal topography with age.
KW - Gorilla beringei beringei
KW - aging
KW - dental senescence
KW - tooth wear
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U2 - 10.1002/ajpa.22943
DO - 10.1002/ajpa.22943
M3 - Article
C2 - 26853974
AN - SCOPUS:84969433203
SN - 0002-9483
VL - 160
SP - 3
EP - 15
JO - American journal of physical anthropology
JF - American journal of physical anthropology
IS - 1
ER -