Research Article
Full Access
Investigating the form-function interface in African apes: Relationships between principal moments of area and positional behaviors in femoral and humeral diaphyses
Kristian J. Carlson,
Corresponding Author
Kristian J. Carlson
Department of Anatomical Sciences, School of Medicine, Stony Brook University, Stony Brook, New York 11794-8081
Department of Anatomical Sciences, Health Sciences Center, School of Medicine, Stony Brook University, Stony Brook, NY 11794-8081Search for more papers by this authorKristian J. Carlson,
Corresponding Author
Kristian J. Carlson
Department of Anatomical Sciences, School of Medicine, Stony Brook University, Stony Brook, New York 11794-8081
Department of Anatomical Sciences, Health Sciences Center, School of Medicine, Stony Brook University, Stony Brook, NY 11794-8081Search for more papers by this authorAbstract
Investigations of cross-sectional geometry in nonhuman primate limb bones typically attribute shape ratios to qualitative behavioral characterizations, e.g., leaper, slow climber, brachiator, or terrestrial vs. arboreal quadruped. Quantitative positional behavioral data, however, have yet to be used in a rigorous evaluation of such shape-behavior connections. African apes represent an ideal population for such an investigation because their relatedness minimizes phylogenetic inertia, they exhibit diverse behavioral repertoires, and their locomotor behaviors are known from multiple studies. Cross-sectional data from femoral and humeral diaphyses were collected for 222 wild-shot specimens, encompassing Pan paniscus and all commonly recognized African ape subspecies. Digital representations of diaphyseal cross sections were acquired via computed tomography at three locations per diaphysis. Locomotor behaviors were pooled broadly into arboreal and terrestrial categories, then partitioned into quadrupedal walking, quadrumanous climbing, scrambling, and suspensory categories. Sex-specific taxonomic differences in ratios of principal moments of area (PMA) were statistically significant more often in the femoral diaphysis than the humeral diaphysis. While it appears difficult to relate a measure of shape (e.g., PMA ratio) to individual locomotor modes, general locomotor differences (e.g., percentage arboreal vs. terrestrial locomotion) are discerned more easily. As percentage of arboreal locomotion for a group increases, average cross sections appear more circular. Associations between PMA ratio and specific locomotor behaviors are less straightforward. Individual behaviors that integrate eccentric limb positions (e.g., arboreal scrambling) may not engender more circular cross sections than behaviors that incorporate repetitive sagittal movements (e.g., quadrupedal walking) in a straightforward manner. Am J Phys Anthropol, 2005. © 2004 Wiley-Liss, Inc.
LITERATURE CITED
- Amtmann E. 1971. Mechanical stress, functional adaptation and the variation structure of the human femur diaphysis. Ergeb Anat Entwicklungs 44: 1–89.
- Ashton EH, Oxnard CE. 1963. The musculature of the primate shoulder. Trans Zool Soc Lond 29: 553–650.
- Avis V. 1962. Brachiation: the crucial issue for man's ancestry. Southwest J Anthropol 18: 119–148.
- Bertram JEA, Swartz SM. 1991. The “law of bone transformation”: a case of crying Wolff? Biol Rev Cambridge Philosophic Soc 66: 245–273.
- Biewener AA. 1982. Bone strength in small mammals and bipedal birds: do safety factors change with body size? J Exp Biol 98: 289–301.
- Biewener AA. 1983. Allometry of quadrupedal locomotion: the scaling of duty factor, bone curvature and limb orientation to body size. J Exp Biol 105: 147–171.
- Biewener AA, Taylor CR. 1986. Bone strain: a determinant of gait and speed? J Exp Biol 123: 383–400.
- Biewener AA, Thomason J, Lanyon LE. 1983. Mechanics of locomotion and jumping in the forelimb of the horse (Equus): in vivo stress developed in the radius and metacarpus. J Zool Lond 201: 67–82.
- Bouvier M, Hylander WL. 1981. The mechanical strain on cortical bone structure in macaques (Macaca mulatta). J Morphol 167: 1–12.
- Bridges PS. 1985. Changes in long bone structure with the transition to agriculture: implications for prehistoric activities. Ph.D. dissertation, University of Michigan, Ann Arbor.
- Bridges PS. 1989. Changes in activities with the shift to agriculture in the southeastern Unites States. Curr Anthropol 30: 385–394.
- Burr DB. 1979a. Patterns of variability in mineralization of the primate femoral diaphysis. Am J Phys Anthropol 51: 219–232.
- Burr DB. 1979b. Density variation in the humeral cortex of Macaca. Am J Anat 155: 311–318.
-
Burr DB.
1980.
The relationships among physical, geometrical and mechanical properties of bone, with a note on the properties of nonhuman primate bone.
Yrbk Phys Anthropol
23:
109–146.
10.1002/ajpa.1330230508 Google Scholar
- Burr DB, Piotrowski G. 1982. How do trabeculae affect the calculation of structural properties of bone? Am J Phys Anthropol 57: 341–352.
- Burr DB, Piotrowski G, Martin RB, Cook PN. 1982. Femoral mechanics in the lesser bushbaby (Galago senegalensis): structural adaptations to leaping in primates. Anat Rec 202: 419–429.
- Burr DB, Ruff CB, Johnson C. 1989. Structural adaptations of the femur and humerus to arboreal and terrestrial environments in three species of macaque. Am J Phys Anthropol 79: 357–367.
- Burr DB, Milgrom C, Fyhrie D, Forwood M, Nyska M, Finestone A, Hoshaw S, Saiag E, Simkin A. 1996. In vivo measurement of human tibial strains during vigorous activity. Bone 18: 405–410.
- Burr DB, Robling AG, Turner CH. 2002. Effects of biomechanical stress on bones in animals. Bone 30: 781–786.
- Carlson KJ. 2002a. Biomechanical investigation of African apes and influences of positional behavior [abstract]. Am J Phys Anthropol [Suppl] 34: 52.
- Carlson KJ. 2002b. Shape and material properties of African pongid femora and humeri: their relationship to observed positional behaviors. Ph.D. dissertation, Indiana University, Bloomington.
- Carlson KJ, Hardiway R, Holladay C, Knapczyk F, Satkoski J, Schuck S, Thomas G. 2000. How modal are positional behaviors—application of a new methodology, Labanotation, in the study of primate behavior [abstract]. Am J Phys Anthropol [Suppl] 30: 119.
- Cartmill M, Milton K. 1977. The lorisiform wrist joint and the evolution of “brachiating” adaptations in the Hominoidea. Am J Phys Anthropol 47: 249–272.
- Churches AE, Howlett CR, Waldron KJ. 1979. The response of living bone to controlled time-varying loading: method and preliminary results. J Biomech 12: 35–45.
- Churchill SE. 1994. Human upper body evolution in the Eurasian later Pleistocene. Ph.D. dissertation, University of New Mexico, Albuquerque.
- Churchill SE, Pearson OM, Grine FE, Trinkaus E, Holliday TW. 1996. Morphological affinities of the proximal ulna from Klasies River main site: archaic or modern? J Hum Evol 31: 213–237.
- Connour JR, Glander K, Vincent F. 2000. Postcranial adaptations for leaping in primates. J Zool Lond 251: 79–103.
- Cubo J, Casinos A. 1998. Biomechanical significance of cross-sectional geometry of avian long bones. Eur J Morphol 36: 19–28.
-
Daegling DJ.
2002.
Estimation of torsional rigidity in primate long bones.
J Hum Evol
42:
229–239.
10.1006/jhev.2002.0574 Google Scholar
- D'Août K, Aerts P, De Clercq D, Schoonaert K, Vereecke E, Van Elsacker L. 2001. Studying bonobo (Pan paniscus) locomotion using an integrated setup in a zoo environment: preliminary results. Primatology 4: 191–206.
- D'Août K, Aerts P, De Clercq D, De Meester K, Van Elsacker L. 2002. Segment and joint angles of the hindlimb during bipedal and quadrupedal walking of the bonobo (Pan paniscus). Am J Phys Anthropol 119: 37–51.
- Davies HMS, McCarthy RN, Jeffcott LB. 1993. Surface strain on the dorsal metacarpus of thoroughbreds at different speeds and gaits. Acta Anat (Basel) 146: 148–153.
- Demes B, Jungers WL. 1989. Functional differentiation of long bones in lorises. Folia Primatol (Basel) 52: 58–69.
- Demes B, Jungers WL. 1993. Long bone cross-sectional dimensions, locomotor adaptations and body size in prosimian primates. J Hum Evol 25: 57–74.
- Demes B, Jungers WL, Selpien K. 1991. Body size, locomotion, and long bone cross-sectional geometry in Indriid primates. Am J Phys Anthropol 86: 537–547.
- Demes B, Larson SG, Stern JT, Jungers WL, Biknevicius AR, Schmitt D. 1994. The kinetics of primate quadrupedalism: “hindlimb drive” reconsidered. J Hum Evol 26: 353–374.
-
Demes B,
Stern JT,
Hausman MR,
Larson SG,
McLeod KJ,
Rubin CT.
1998.
Patterns of strain in the macaque ulna during functional activity.
Am J Phys Anthropol
106:
87–100.
10.1002/(SICI)1096-8644(199805)106:1<87::AID-AJPA6>3.0.CO;2-A CAS PubMed Web of Science® Google Scholar
- Demes B, Qin Y, Stern JT Jr, Larson SG, Rubin CT. 2001. Patterns of strain in the Macaque tibia during functional activity. Am J Phys Anthropol 116: 257–265.
- Doran DM. 1989. Chimpanzee and pygmy chimpanzee positional behavior: the influence of environment, body size, morphology, and ontogeny on locomotion and posture. Ph.D. dissertation, State University of New York, Stony Brook.
- Doran DM. 1993. Comparative locomotor behavior of chimpanzee and bonobos: the influence of morphology on locomotion. Am J Phys Anthropol 91: 83–98.
-
Doran DM.
1996.
The comparative positional behavior of African apes. In:
W McGrew,
T Nishida, editors.
Great ape societies.
Cambridge:
Cambridge University Press. p
213–224.
10.1017/CBO9780511752414.018 Google Scholar
- Doran DM, Hunt KD. 1994. Comparative locomotor behavior of chimpanzees and bonobos: species and habitat differences. In: RW Wrangham, WC McGrew, FBM de Waal, PG Heltne, editors. Chimpanzee cultures. Cambridge, MA: Harvard University Press. p 93–106.
- Ellefson JO. 1974. A natural history of white-handed gibbons in the Malayan peninsula. In: DM Rumbaugh, editor. Gibbon and siamang. Basel: Karger. p 1–136.
- Erickson GE. 1952. Locomotor types and body proportions in the New World primates. Anat Rec 112: 326.
- Fleagle JG. 1976. Locomotion and posture of the Malayan siamang and implications for hominid evolution. Folia Primatol (Basel) 26: 245–269.
- Fleagle JG, Stern JT, Jungers WL, Susman RL, Vangor AK, Wells JP. 1981. Climbing: a biomechanical link with brachiation and with bipedalism. In: MH Day, editor. Vertebrate locomotion. New York: Academic Press. p 359–375.
- Goodship AE, Lanyon LE, McFie H. 1979. Functional adaptation of bone to increased stress. J Bone Joint Surg [Am] 61: 539–546.
- Grand TI. 1972. A mechanical interpretation of terminal branch feeding. J Mammal 53: 198–201.
- Gregory WK. 1916. Studies on the evolution of primates. Bull Am Mus Nat Hist 35: 239–355.
-
Gregory WK.
1927.
How near is the relationship of man to the chimpanzee-gorilla stock?
Q Rev Biol
11:
549–560.
10.1086/394289 Google Scholar
- Gregory WK. 1928. Were the ancestors of man primitive brachiators? Proc Am Philos Soc 67: 129–150.
- Gregory WK. 1950. The anatomy of the gorilla. New York: Columbia University Press.
- Gross TS, McLeod KJ, Rubin CT. 1992. Characterizing bone strain distributions in vivo using three triple rosette strain gages. J Biomech 25: 1081–1087.
- Gross TS, Edwards JL, McLeod KJ, Rubin CT. 1997. Strain gradients correlate with sites of periosteal bone formation. J Bone Miner Res 12: 982–988.
-
Heinrich RE,
Biknevicius AR.
1998.
Skeletal allometry and interlimb scaling patterns in mustelid carnivorans.
J Morphol
235:
121–134.
10.1002/(SICI)1097-4687(199802)235:2<121::AID-JMOR3>3.0.CO;2-C CAS PubMed Web of Science® Google Scholar
-
Hendee W.
1983.
The physical principles of computed tomography.
Boston:
Little, Brown, and Co.
10.1016/0360-3016(83)90353-X Google Scholar
- Heřt J, Lišková M, Landrgot B. 1969. Influence of the long-term, continuous bending on the bone. Folia Morphol (Warsz) 17: 389–399.
- Heřt J, Lišková M, Landa J. 1971. Reaction of bone to mechanical stimuli. Part 1. Continuous and intermittent loading of the rabbit tibia. Folia Morphol (Warsz) 19: 290–300.
- Heřt J, Přibylová E, Lišková M. 1972. Reaction of bone to mechanical stimuli. Part 3. Microstructure of compact bone of rabbit tibia after intermittent loading. Acta Anat (Basel) 82: 218–230.
- Hirasaki E, Matano S, Nakano Y, Ishida H. 1992. Vertical climbing in Ateles geoffroyi and Macaca fuscata and its comparative neurological background. In: S Matano, R Tuttle, H Ishida, M Goodman, editors. Topics in primatology. Volume 3. Tokyo: University of Tokyo Press. p 167–176.
- Hooton EA. 1942. Up from the ape. London: MacMillan Press.
- Huiskes R. 1982. On the modeling of long bones in structural analyses. J Biomech 15: 65–69.
- Huiskes R, Janssen JD, Slooff TJ. 1981. A detailed comparison of experimental and theoretical stress-analyses of a human femur. Mech Properties Bone AMD 45: 211–234.
- Hunt KD. 1989. Positional behavior in Pan troglodytes at the Mahale Mountains and the Gombe Stream National Parks, Tanzania. Ph.D. dissertation, University of Michigan, Ann Arbor.
- Hunt KD. 1991a. Mechanical implications of chimpanzee positional behavior. Am J Phys Anthropol 86: 521–536.
- Hunt KD. 1991b. Positional behavior in the Hominoidea. Int J Primatol 12: 95–118.
- Hunt KD. 1992. Positional behavior of Pan troglodytes in the Mahale Mountains and Gombe Stream National Parks, Tanzania. Am J Phys Anthropol 87: 83–107.
- Hunt KD. 1994. The evolution of human bipedality: ecology and functional morphology. J Hum Evol 26: 183–202.
- Hunt KD. 1996. The postural feeding hypothesis: an ecological model for the evolution of bipedalism. S Afr J Sci 92: 77–90.
- Hunt KD, Cant JGH, Gebo DL, Rose MD, Walker SE. 1996. Standardized descriptions of primate locomotor and postural modes. Primates 37: 363–387.
- Ishida H, Jouffroy F, Nakano Y. 1990. Comparative dynamics of pronograde and upside down quadrupedalism in the slow loris (Nycticebus coucang). In: FK Jouffroy, MH Stack, C Niemitz, editors. Gravity, posture, and locomotion in primates. Florence: Sedicesimo Press. p 209–220.
- Jenkins FA, Fleagle JG. 1975. Knuckle-walking and the functional anatomy of the wrists in living apes. In: RH Tuttle, editor. The functional and evolutionary biology of primates. Chicago: Aldine Press. p 213–228.
- Jones HH, Priest JD, Hayes WC, Tichenor CC, Nagel DA. 1977. Humeral hypertrophy in response to exercise. J Bone Joint Surg [Am] 59: 204–208.
- Judex S, Gross TS, Zernicke RF. 1997. Strain gradients correlation with sites of exercise-induced bone-forming surfaces in the adult skeleton. J Bone Miner Res 12: 1737–1745.
- Jungers WL, Burr DB. 1994. Body size, long bone geometry and locomotion in quadrupedal monkeys. Z Morphol Anthropol 80: 89–97.
- Jungers WL, Minns RJ. 1979. Computed tomography and biomechanical analysis of fossil long bones. Am J Phys Anthropol 50: 285–290.
- Keith A. 1891. Anatomical notes on Malay apes. J Straits Br R Asiat Soc 23: 77–94.
- Keith A. 1923. Man's posture: its evolution and disorder. Br Med J 1: 451–454, 499–502, 545–548, 587–590, 624–626, 669–672.
- Keith A. 1934. The construction of man's family tree. London: Watts.
- Kimura T. 1985. Bipedal and quadrupedal walking of primates: comparative dynamics. In: S Kondo, H Ishida, T Kimura, M Okada, M Yamazaki, J Prost, editors. Primate morphophysiology, locomotor analyses and human bipedalism. Tokyo: University of Tokyo Press. p 47–58.
- Kimura T, Takahashi H. 1992. Cross sectional geometry of the Minatogawa limb bones. In: T Akazawa, K Aoki, T Kimura, editors. The evolution and dispersal of modern humans in Asia. Tokyo: Hokusen-sha. p 305–320.
- Kimura T, Okada M, Ishida H. 1979. Kinesiological characteristics of primate walking: its significance in human walking. In: ME Morbeck, H Preuschoft, N Gomberg, editors. Environment, behavior and morphology: dynamic interactions in primates. New York: Gustav Fischer. p 297–312.
- King JW, Brelsford HJ, Tullos HS. 1969. Analysis of the pitching arm of the professional baseball pitcher. Clin Orthop 67: 116–123.
-
Koch JC.
1917.
The laws of bone architecture.
Am J Anat
21:
17–293.
10.1002/aja.1000210202 Google Scholar
- Kortlandt A. 1975. Ecology and paleoecology of ape locomotion. In: S Kondo, M Kowai, A Ehara, S Kawamura, editors. Symposia 5th Congress of the International Primatological Society. Tokyo: Japan Science Press. p 361–364.
- Kummer B. 1959. Bauprinzipien des Säugetierskeletes. Stuttgart: Georg Thieme.
- Lanyon LE. 1980. The influence of function on the development of bone curvature. An experimental study on the rat tibia. J Zool Lond 192: 457–466.
- Lanyon LE, Baggott DG. 1976. Mechanical function as an influence on the structure and form of bone. J Bone Joint Surg [Br] 58: 436–443.
- Lanyon LE, Rubin CT. 1984. Static vs. dynamic loads as an influence on bone remodeling. J Biomech 17: 897–905.
- Lanyon LE, Smith RN. 1969. Measurements of bone strain in the walking animal. Res Vet Sci 10: 93–94.
- Lanyon LE, Smith RN. 1970. Bone strain in the tibia during normal quadrupedal locomotion. Acta Orthop Scand 41: 238–248.
- Lanyon LE, Hampson WGJ, Goodship AE, Shah JS. 1975. Bone deformation recorded in vivo from strain gauges attached to the human tibial shaft. Acta Orthop Scand 46: 256–268.
- Lanyon LE, Goodship AE, Pye CJ, MacFie JH. 1982. Mechanically adaptive bone remodeling. J Biomech 15: 141–154.
- Larsen CS, Ruff CB. 1991. Biomechanical adaptation and behavior on the prehistoric Georgia coast. In: MP Powell, PS Bridges, AM Mires, editors. What mean these bones? Studies in Southeastern bioarchaeology. Tuscaloosa: University of Alabama Press. p 102–113.
- Lewis OJ. 1965. Evolutionary change in the primate wrist and inferior radio-ulnar joints. Anat Rev 151: 275–286.
- Lieberman DE, Crompton AW. 1998. Responses of bone to stress: constraints on symmorphosis. In: E Weibel, DR Taylor, L Brolis, editors. Diversity in biological design: symmorphosis—fact or fancy? Cambridge: Cambridge University Press. p 78–86.
- Lieberman DE, Polk JD, Demes B. 2004. Predicting long bone loading from cross-sectional geometry. Am J Phys Anthropol 123: 156–171.
- Lišková M., Heřt J. 1971. Reaction of bone to mechanical stimuli. Part 2. Periosteal and endosteal reaction of tibial diaphysis in rabbit to intermittent loading. Folia Morphol (Warsz) 19: 301–317.
- Loitz BJ, Zernicke RF. 1992. Strenuous exercise-induced remodeling of mature bone: relationships between in vivo strains and bone mechanics. J Exp Biol 170: 1–18.
- Lovejoy CO, McCollum MA, Reno PL, Rosenman BA. 2003. Developmental biology and human evolution. Annu Rev Anthropol 32: 85–109.
- Madar SI, Rose MD, Kelley J, MacLatchy L, Pilbeam D. 2002. New Sivapithecus postcranial specimens from the Siwaliks of Pakistan. J Hum Evol 42: 705–752.
- Martin RB. 1991. Determinants of the mechanical properties of bones. J Biomech [Suppl] 24: 79–88.
-
Martin RB,
Burr DB,
Sharkey NA.
1998.
Skeletal tissue mechanics.
New York:
Springer-Verlag.
10.1007/978-1-4757-2968-9 Google Scholar
- Meyer GH. 1867. Die Architektur der Spongiosa. Anat Physiol Wiss Med 34: 615–628.
- Morton DJ. 1922. The evolution of the human foot. Am J Phys Anthropol 5: 305–336.
- Mott RL. 1996. Applied strength of materials. 3rd ed. Upper Saddle River, NJ: Prentice Hall, Inc.
- Nagurka ML, Hayes WC. 1980. An interactive graphics package for calculating cross-sectional properties of complex shapes. J Biomech 13: 59–64.
- Napier JR. 1963. Brachiation and brachiators. Symp Zool Soc Lond 10: 183–195.
- Newton TH, Potts DG. 1981. Radiology of the skull and brain: technical aspects of computed tomography, volume 5. St. Louis: C.V. Mosby Co.
- O'Connor BL. 1975. The functional morphology of the cercopithecid wrist and inferior radioulnar joints, and their bearing on some problems in the evolution of the Hominoidea. Am J Phys Anthropol 43: 113–122.
- O'Connor JA, Lanyon LE, MacFie H. 1982. The influence of strain rate on adaptive bone remodelling. J Biomech 15: 767–781.
- Ohman JC. 1993. Cross-sectional geometric properties from biplanar radiographs and computed tomography: functional application to the humerus and femur in hominoids. Ph.D. dissertation, Kent State University, Kent, OH.
- Pauwels F. 1968. Beitrag zur funktionellen Anpassung der Corticalis der Röhrenknochen. Untersuchung an drei rachitisch deformierten Femora. Z Anat Entwicklungs 127: 121–137.
-
Pauwels F.
1980.
Biomechanics of the locomotor apparatus: contributions on the functional anatomy of the locomotor apparatus.
Berlin:
Springer-Verlag.
10.1007/978-3-642-67138-8 Google Scholar
- Polk JD, Demes B, Jungers WL, Biknevicius AR, Heinrich RE, Runestad JA. 2000. A comparison of primate, carnivoran and rodent limb bone cross-sectional properties: are primates really unique? J Hum Evol 39: 297–325.
- Remis M. 1994. Feeding ecology and positional behavior of western lowland gorillas (Gorilla gorilla gorilla) in the Central African Republic. Ph.D. dissertation, Yale University, New Haven, CT.
- Remis M. 1995. The effects of body size and social context on the arboreal activities of lowland gorillas in the Central African Republic. Am J Phys Anthropol 97: 413–433.
- Remis M. 1998. The effects of body size and habitat on the positional behavior of lowland and mountain gorillas. In: E Strasser, J Fleagle, A Rosenberger, HM McHenry, editors. Primate locomotion—recent advances. New York: Plenum Press. p 95–106.
- Reynolds TR. 1985. Stresses on the limbs of quadrupedal primates. Am J Phys Anthropol 67: 351–362.
- Ripley S. 1970. Leaves and leaf-monkeys: the social organization of foraging gray langurs (Presbytis entellus thersites). In: JR Napier, PH Napier, editors. Old World monkeys: evolution, systematics, and behavior. New York: Academic Press. p 481–509.
- Robling AG. 1998. Histomorphometric assessment of mechanical loading history from human skeletal remains: the relation between micromorphology and macromorphology at the femoral midshaft. Ph.D. dissertation, University of Missouri, Columbia, MO.
- Rose MD. 1974. Postural adaptations in New and Old World monkeys. In: FA Jenkins, editor. Primate locomotion. New York: Academic Press. p 201–222.
- Roux W. 1881. Der zuchtende Kampf der Teile, oder die “Teilauslese” im Organimus (Theorie der “funktionellen Anpassung”). Leipzig: Wilhelm Engelmann.
- Rubin CT, Lanyon LE. 1982. Limb mechanics as a function of speed and gait: a study of functional strains in the radius and tibia of horse and dog. J Exp Biol 101: 187–211.
- Rubin CT, Lanyon LE. 1984a. Regulation of bone formation by applied dynamic loads. J Bone Joint Surg [Am] 66: 397–402.
- Rubin CT, Lanyon LE. 1984b. Dynamic strain similarity in vertebrates: an alternative to allometric limb bone scaling. J Theor Biol 107: 321–327.
- Ruff CB. 1981. Structural changes in the lower limb bones with aging at Pecos Pueblo. Ph.D. dissertation, University of Pennsylvania, Philadelphia, PA.
- Ruff CB. 1983. The contribution of cancellous bone to long bone strength and rigidity. Am J Phys Anthropol 61: 141–143.
- Ruff CB. 1987. Structural allometry of the femur and tibia in Hominoidea and Macaca. Folia Primatol (Basel) 48: 9–49.
- Ruff CB. 1989. New approaches to structural evolution of limb bones in primates. Folia Primatol (Basel) 53: 142–159.
- Ruff CB. 2002. Long bone articular and diaphyseal structure in Old World monkeys and apes. I: locomotor effects. Am J Phys Anthropol 119: 305–342.
- Ruff CB, Hayes WC. 1983a. Cross-sectional geometry of Pecos Pueblo femora and tibiae—a biomechanical investigation: I. Method and general patterns of variation. Am J Phys Anthropol 60: 359–381.
- Ruff CB, Hayes WC. 1983b. Cross-sectional geometry of Pecos Pueblo femora and tibiae—a biomechanical investigation: II. Sex, age, and side differences. Am J Phys Anthropol 60: 383–400.
- Ruff CB, Leo FP. 1986. Use of computed tomography in skeletal structure research. Yrbk Phys Anthropol 29: 181–196.
- Ruff CB, Runestad JA. 1992. Primate limb bone structural adaptations. Annu Rev Anthropol 21: 407–433.
- Runestad JA. 1994. Humeral and femoral diaphyseal cross-sectional geometry and articular dimensions in Prosimii and Platyrrhini (Primates) with application for reconstruction of body mass and locomotor behavior in Adapidae (Primates: Eocene). Ph.D. dissertation, Johns Hopkins University, Baltimore, MD.
- Runestad JA, Ruff CB, Teaford MF. 1992. Reconstruction of body mass and locomotor mode in primates from structural properties of limb bones [abstract]. Am J Phys Anthropol [Suppl] 14: 143–144.
- Rybicki EF, Simonen FA, Weis EB. 1972. On the mathematical analysis of stress in the human femur. J Biomech 5: 203–215.
- Sarmiento EE. 1985. Functional differences in the skeleton of wild and captive orang-utans and their adaptive significance. Ph.D. dissertation, New York University, New York, NY.
- Schaffler MB, Burr DB, Jungers WL, Ruff CB. 1985. Structural and mechanical indicators of limb specialization in primates. Folia Primatol (Basel) 45: 61–75.
- Schmitt D. 1994. Forelimb mechanics as a function of substrate type during quadrupedalism in two anthropoid primates. J Hum Evol 26: 441–458.
- Schmitt D. 1995. Kinematic and kinetic analysis of forelimb use during arboreal and terrestrial quadrupedalism in Old World monkeys. Ph.D. dissertation, State University of New York, Stony Brook, NY.
- Schmitt D. 1998. Forelimb mechanics during arboreal and terrestrial quadrupedalism in Old World monkeys. In: E Strasser, J Fleagle, A Rosenberger, HM McHenry, editors. Primate locomotion—recent advances. New York: Plenum Press. p 175–200.
- Schmitt D. 2003. Mediolateral reaction forces and forelimb anatomy in quadrupedal primates: implications for interpreting locomotor behavior in fossil primates. J Hum Evol 44: 47–58.
- Selker F, Carter DR. 1989. Scaling of long bone fracture strength with animal mass. J Biomech 22: 1175–1183.
- Spoor F, Jeffery N, Zonneveld F. 2000. Using diagnostic radiology in human evolutionary studies. J Anat 197: 61–76.
- Stephenson P, Seedhom BB. 1999. Cross-sectional geometry of the human femur in the mid-third region. Proc Inst Mech Eng [H] 213: 159–166.
- Stern JT, Wells JP, Vangor AK, Fleagle JG. 1977. Electromyography of some muscles of the upper limb in Ateles and Lagothrix. Yrbk Phys Anthropol 20: 498–507.
- Sumner DR, Mockbee B, Morse K, Cram T, Pitt M. 1985. Computed tomography and automated image analysis of prehistoric femora. Am J Phys Anthropol 68: 225–232.
- Sumner DR, Morbeck ME, Lobick JJ. 1989. Apparent age-related bone loss among adult female Gombe chimpanzees. Am J Phys Anthropol 79: 225–234.
-
Susman RL.
1984.
The locomotor behavior of Pan paniscus in the Lomako Forest. In:
RL Susman, editor.
The pygmy chimpanzee: evolutionary biology and behavior.
New York:
Plenum Press. p
369–393.
10.1007/978-1-4757-0082-4_15 Google Scholar
- Swartz SM, Bertram JEA, Biewener AA. 1989. Telemetered in vivo strain analysis of locomotor mechanics of brachiating gibbons. Nature 342: 270–272
- Swindler DR, Wood CD. 1973. An atlas of primate gross anatomy—baboon, chimpanzee, and man. Seattle: University of Washington Press.
- Terranova CJ. 1995a. Functional morphology of leaping behaviors in galagids: associations between loading, limb use and diaphyseal geometry. In: L Atterman, MK Izard, GA Doyle, editors. Creatures of the dark: the nocturnal prosimians. New York: Plenum Press. p 473–493.
- Terranova CJ. 1995b. Leaping behaviors and the functional morphology of strepsirhine primate long bones. Folia Primatol (Basel) 65: 181–201.
- Toridis TG. 1969. Stress analysis of the femur. J Biomech 2: 163–174.
- Trinkaus E, Churchill SE. 1999. Diaphyseal cross-sectional geometry of Near Eastern Middle Paleolithic humans: the humerus. J Archaeol Sci 26: 173–184.
- Trinkaus E, Churchill SE, Ruff CB. 1994. Postcranial robusticity in Homo. II: Humeral bilateral asymmetry and bone plasticity. Am J Phys Anthropol 93: 1–34.
- Trinkaus E, Stringer CB, Ruff CB, Hennessy RJ, Roberts MB, Parfitt SA. 1999. Diaphyseal cross-sectional geometry of the Boxgrove I Middle Pleistocene human tibia. J Hum Evol 37: 1–25.
- Turner CH. 1998. Three rules for bone adaptation to mechanical stimuli. Bone 23: 399–407.
-
Tuttle RH.
1975.
Parallelism, brachiation and hominoid phylogeny. In:
WP Luckett,
F Szalay, editors.
The phylogeny of the primates: a multidisciplinary approach.
New York:
Plenum Press. p
447–480.
10.1007/978-1-4684-2166-8_17 Google Scholar
- Tuttle RH, Watts DP. 1985. The positional behavior and adaptive complexes of Pan gorilla. In: S Kondo, editor. Primate morphophysiology, locomotor analyses and human bipedalism. Tokyo: University of Tokyo Press. p 261–288.
- Tuttle RH, Basmajian JV, Ishida H. 1979. Activities of pongid thigh muscles during bipedal behavior. Am J Phys Anthropol 50: 123–136.
- Umemura Y, Ishiko T, Yamauchi T, Kurono M, Mashiko S. 1997. Five jumps per day increase bone mass and breaking force in rats. J Bone Miner Res 12: 1480–1485.
- Unité d' Imageri Numerique. 1995. Osiris 3.1. Geneva: Hopitaux Universitaires de Genéve. Most recent version is available at http://www.expasy.ch/www/UIN/html1/projects/osiris/DownloadOsiris.html
- Valliappan S, Svensson NL, Wood RD. 1977. Three dimensional stress analysis of the human femur. Comput Biol Med 7: 253–264.
- Washburn SL. 1950. The analysis of primate evolution with particular reference to the origin of man. Cold Spring Harbor Symp Quant Biol 15: 67–77.
- Washburn SL. 1973. Primate field studies. In: GH Bourne, editor. Nonhuman primates and medical research. New York: Academic Press. p 467–485.
- Weiss E. 2003. Understanding muscle markers: aggregation and construct validity. Am J Phys Anthropol 121: 230–240.
- Wolff J. 1892. Das Gesetz der Transformation der Knochen. Berlin: Springer-Verlag.
- Woo SLY, Kuei SC, Amiel D, Gomez MA, Hayes WC, White FC, Akeson WH. 1981. The effect of prolonged physical training on the properties of long bone: a study of Wolff's law. J Bone Joint Surg [Am] 63: 780–787.
- Young DR, Howard WH, Cann C, Steele CR. 1979. Noninvasive measures of bone bending rigidity in the monkey (M. nemestrina). Calcif Tissue Int 27: 109–115.
