Abstract
The study of the locomotion and postures of arboreal squirrels may provide important contextual information on the evolution of the morphology and ecology of sciurids. In this context, we studied the positional behaviour and habitat use of four adult European red squirrels (Sciurus vulgaris L.) in a mixed coniferous forest in northern Greece. Our results show that, during the study period, S. vulgaris extensively used the forest canopy and the terminal branch zone. The use of small and medium supports of all orientations was also particularly frequent. The positional profile of the species was characterized by the dominance of quadrupedal, clawed and airborne locomotion along with seated and standing postures. Quadrupedalism and sitting appeared to promote terminal branch use for food access and manipulation, while claw climbing favored vertical ranging and retreat to trees after terrestrial foraging. Finally, leaping reduced energetic costs during travelling between food sites within the relatively dispersed forest. These results and those of previous research on the positional behaviour of other squirrels reveal several trends related to body size, arboreal or gliding habits and tropical or temperate forest distribution and contribute to the understanding of evolutionary novelty in multiple levels within the sciurid radiation.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bock WJ, von Walhert G (1965) Adaptation and the form–function complex. Evolution 19:269–299
Bock WJ, Winkler H (1978) Mechanical analysis of the external forces on climbing mammals. Zoomorphologie 91:49–61
Bryant MD (1945) Phylogeny of neartic Sciuridae. Am Midl Nat 33:257–390
Cagnin M, Aloise G, Fiore F, Oriolo V (2000) Habitat use and population density of the red squirrel, Sciurus vulgaris meridionalis, in the Sila Grance mountain range (Calabria, South Italy). Ital J Zool 67:81–87
Cant JGH (1992) Positional behaviour and body size of arboreal primates: a theoretical framework for field studies and an illustration of its application. Am J Phys Anthrop 88:273–283
Cant JGH, Youlatos D, Rose MD (2001) Locomotor behavior of Lagothrix lagothricha and Ateles belzebuth in Yasuni National Park, Ecuador: general patterns and nonsuspensory modes. J Hum Evol 41:141–166
Cartmill M (1974) Pads and claws in arboreal locomotion. In: Jenkins FA Jr (ed) Primate locomotion. Academic Press, New York, pp 45–83
Dagosto M (1994) Testing positional behavior of Malagasy lemurs: a randomization approach. Am J Phys Anthropol 94:189–202
Dawkins MS (2007) Observing animal behaviour. Oxford University Press, Oxford
Dial R (2003) Energetic savings and the body size distributions of gliding mammals. Evol Ecol Res 5:1151–1162
Emmons LH, Feer F (1990) Neotropical rainforest mammals: a field guide. Cambridge University Press, Cambridge
Emry RJ, Thorington RW Jr (1982) Descriptive and comparative osteology of the oldest fossil squirrel, Protosciurus (Rodentia: Scuiridae). Smiths Contrib Paleobiol 47:1–35
Emry RJ, Thorington RW Jr (1984) The tree squirrel Sciurus (Scuiridae, Rodentia) as a living fossil. In: Eldredge N, Stanley SM (eds) Living fossils. Springer, New York, pp 23–31
Essner RL (2002) Three-dimensional launch kinematics in leaping, parachuting, and gliding squirrels. J Exp Biol 205:2469–2477
Essner RL (2007) Morphology, locomotor behaviour and microhabitat use in North American squirrels. J Zool Lond 272:101–109
Flaherty EA, Scheibe JS, Goldingay R (2008) Locomotor performance in the squirrel glider, Petaurus norfolcensis, and the sugar glider, Petaurus breviceps. Aust Mammal 30:25–35
Flaherty EA, Ben-David M, Smith WP (2010) Quadrupedal locomotion performance in two species of arboreal squirrels: predicting energy savings of gliding. J Comp Physiol B 180:1067–1078
Garber PA, Sussman RW (1984) Ecological distinctions between sympatric species of Saguinus and Sciurus. Am J Phys Anthrop 65:135–146
Garland T Jr, Losos JB (1994) Ecological morphology of locomotor performance in squamate reptiles. In: Wainwright PC, Reilly SM (eds) Ecological morphology. Chicago University Press, Chicago, pp 240–302
Gebo DL (1992) Locomotor and postural behaviour in Alouatta palliata and Cebus capucinus. Am J Primatol 26:277–290
Hayssen V (2008) Patterns of body and tail length and body mass in Sciuridae. J Mammal 89:852–873
Hecht-Markou P (1989) Vergleichende untersuchungen an postrcanialen skeletten von Sciurus vulgaris (Linne, 1758) und Citellus citellus (Linne, 1766). Biol Gallo-Hellen 14:191–232
Lauder GV (1998) On the inference of function from structure. In: Thomason JJ (ed) Functional morphology in vertebrate paleontology. Cambridge University Press, Cambridge, pp 1–18
Lurz PWW, Garson PJ, Rushton SP (1995) The ecology of squirrels in spruce dominated plantations: implications for forest management. For Ecol Manag 79:79–90
Lurz PWW, Gurnell J, Magris L (2005) Sciurus vulgaris. Mammal Spec 769:1–10
Martin P, Bateson P (1994) Measuring behaviour. Cambridge University Press, Cambridge
Peterka HE (1936) A study of the myology and osteology of tree sciurids with regard to adaptation to arboreal, glissant and fossorial habits. Trans Kansas Acad Sci 39:313–332
Prost JH (1965) A definitional system for the classification of primate locomotion. Am Anthropol 67:1198–1214
Roth VL (1996) Cranial integration in the Sciuridae. Am Zool 36:14–23
Scheibe JS, Smith WP, Bassham J, Magness D (2006) Locomotor performance and cost of transport in the northern flying squirrel Glaucomys sabrinus. Acta Theriol 51:169–178
Scheibe JS, Paskins KE, Ferdous S, Birdsill D (2007) Kinematics and functional morphology of leaping, landing, and branch use in Glaucomys sabrinus. J Mammal 88:841–850
Stafford BJ, Thorington RW Jr, Kawamichi T (2003) Positional behaviour of Japanese giant flying squirrels (Petaurista leucogenys). J Mammal 84:263–271
Stalheim-Smith A (1984) Comparative study of the forelimbs of the semi-fossorial prairie dog, Cynomys gunnisoni, and the semi-arboreal fox squirrel, Sciurus niger. J Morphol 180:55–68
Stalheim-Smith A (1989) Comparison of muscle mechanics of the forelimb of three climbers. J Morphol 202:89–98
Steppan SJ, Storz BL, Hoffmann RS (2004) Nuclear DNA phylogeny of the squirrels (Mammalia: Rodentia) and the evolution of arboreality from c-myc and RAG1. Mol Phylogenet Evol 30:703–719
Swiderski DL (1993) Morphological evolution of the scapula in tree squirrels, chipmunks, and ground squirrels (Sciuridae): an analysis using thin-plate splines. Evolution 47:1854–1873
Thorington RW Jr, Heaney LR (1981) Body proportions and gliding adaptations of flying squirrels (Pateuristinae). J Mammal 62:101–114
Thorington RW Jr, Thorington EM (1989) Postcranial proportions of Microsciurus and Sciurillus, the American pygmy tree squirrels. In: Redford KH, Eisenberg JF (eds) Advances in neotropical mammalogy. Sandhill Crane Press, Gainesville, pp 125–136
Thorington RW Jr, Darrow K, Betts ADK (1997) Comparative myology of the forelimb of squirrels (Sciuridae). J Morphol 234:155–182
Thorington RW Jr, Miller AML, Anderson CG (1998) Arboreality in tree squirrels (Sciuridae). In: Steele MA, Merritt JF, Zegers DA (eds) Ecology and evolutionary biology of tree squirrels. Virginia Museum of Natural History, Martinsville, pp 119–130
Wauters L, Dhondt AA (1988) The use of red squirrel (Sciurus vulgaris) dreys to estimate population density. J Zool Lond 214:179–187
Wauters L, Swinnen C, Dhondt AA (1992) Activity budget and foraging behaviour of red squirrels (Sciurus vulgaris) in coniferous and deciduous habitats. J Zool Lond 227:71–86
Youlatos D (1999) Locomotor and postural behaviour of Sciurus igniventris and Microsciurus flaviventer (Rodentia, Sciuridae) in eastern Ecuador. Mammalia 63:405–416
Youlatos D, Michael DE, Tokalaki K (2008) Positional behaviour of Siberian chipmunks (Tamias sibiricus) in captivity. J Ethol 26:51–60
Acknowledgments
We are particularly grateful to the Municipality of Panorama for granting permission to work in Platanakia. This research was supported by funds provided by the Aristotle University of Thessaloniki, School of Biology. We are highly indebted to the three reviewers and the associate editor who provided thorough and constructive remarks throughout the reviewing process that greatly improved this article.
Author information
Authors and Affiliations
Corresponding author
About this article
Cite this article
Youlatos, D., Samaras, A. Arboreal locomotor and postural behaviour of European red squirrels (Sciurus vulgaris L.) in northern Greece. J Ethol 29, 235–242 (2011). https://doi.org/10.1007/s10164-010-0248-7
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10164-010-0248-7