Abstract
Among rodents, the group of caviomorphs (South American Hystricognaths; Vucetich et al. 2012) is usually considered atypical because of the peculiar adaptations of many species in this group, which contrast with features that come to mind when we think about “typical” rodents, such as rats, mice, or squirrels. Among the characteristics that make caviomorph rodents special is of course their large size: from pacas (Cuniculus paca, 7–12 kg) to coypus (Myocastor coypus5–9 kg) and capybaras (Hydrochoerus hydrochaeris, 50 kg), caviomorphs include the largest of all rodents. Additionally, caviomorphs show a number of unique (among rodents) adaptations and ecological niches, in some cases exhibiting striking convergences with ungulates from other continents (Eisenberg and Mckay 1974; Kleiman 1974), including almost all forms of social behavior and mating systems. Thus, for instance, there are monogamous caviomorphs such as the Patagonian maras (Dolichotis patagonum; Taber and Macdonald 1992) while cavies are clearly promiscuous (Caviasp.; Rood 1972; Schwarz-Weig and Sachser 1996). There are also highly social species such as the subterranean social tuco-tucos (Ctenomys sociabilis; Zenuto et al. 1999) and the capybaras.
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References
Aars J, Ims RA (2000) Population dynamic and genetic consequences of spatial density-dependent dispersal in patchy populations. Am Nat 155:252–265
Alho CJR, Rondon NL (1987) Habitat, population densities, and social structure of capybaras, (Hydrochaeris hydrochaeris, Rodentia) in the Pantanal, Brazil. Rev Bras Zool 4:139–149
Alho CJR, Campos ZMS, Gonçalves HC (1987) Ecologia da capivara, (Hydrochaeris hydrochaeris, Rodentia) do Pantanal: I. Habitats, densidades e tamanho de grupo. Rev Bras Biol 47:87–97
Azcárate T (1980) Sociobiología del capibara (Hydrochoerus hydrochaeris). Doñana Acta Vertebrat 7–6:1–228
Barreto GR, Herrera EA (1998) Foraging patterns of capybaras in a seasonally flooded savanna in Venezuela. J Trop Ecol 14:87–98
Barreto GR, Quintana RD (2012) Foraging strategies and feeding habits of capybaras. In: Moreira JR, Ferraz KMPMB, Herrera EA, Macdonald DW (eds) Capybara: biology, use and conservation of an exceptional neotropical species. Springer, New York, pp 83–96
Barros KS, Tokumaru RS, Pedroza JP, Nogueira SSC (2010) Vocal repertoire of captive capybara (Hydrochoerus hydrochaeris): structure, context and function. Ethology 116:1–11
Bedoya M (2007) Elección de pareja en hembras de Hydrochoerus hydrochaeris. Graduate dissertation, Universidad Simón Bolívar, Caracas
Birkhead TR, Pizzari T (2002) Postcopulatory sexual selection. Nat Rev Genet 3:262–273
Borges PA, Domínguez MG, Herrera EA (1996) Digestive ecophysiology of capybaras. J Comp Physiol B 166:55–60
Clauss M, Hummel J (2005) The digestive performance of mammalian herbivores: why big may not be that much better. Mammal Rev 35:174–187
Clutton-Brock TH, Guinness FE, Albon SD (1982) Red deer. Chicago University Press, Chicago
Congdon ER (2007) Natal dispersal and new group formation in capybaras (Hydrochoerus hydrochaeris) in a seasonally flooded savanna of Venezuela. Ph.D. thesis, University of Missouri at Saint Louis, Saint Louis
Dobson FS (2007) Gene dynamics and social behavior. In: Wolff JO, Sherman PW (eds) Rodent societies, an ecological and evolutionary approach. Chicago University Press, Chicago, pp 163–172
Eisenberg JF, Mckay GM (1974) Comparison of ungulate adaptations in the new world and the old world tropical forests with special reference to Ceylon and the rainforests of Central America. In: Geist V, Walther F (eds) The behavior of ungulates and its relation to management. IUCN NS, Morges, pp 585–602
Ferraz KMPMB, Izar P, Sato T, Nishida SM (2012) Social and spatial relationships of capybaras in a semi-confined production system. In: Moreira JR, Ferraz KMPMB, Herrera EA, Macdonald DW (eds) Capybara: biology, use and conservation of an exceptional neotropical species. Springer, New York, pp 243–260
Greenwood PJ (1980) Mating systems, philopatry and dispersal in birds and mammals. Anim Behav 28:1140–1162
Hamilton WD (1963) The evolution of altruistic behavior. Am Nat 97:354–356
Hamilton WD (1971) Geometry for the selfish herd. J Theor Biol 31:295–311
Herrera EA (1985) Coprophagy in the capybara, Hydrochoerus hydrochaeris. J Zool (Lond) 207A:616–619
Herrera EA (1986) The behavioural ecology of the capybara. D.Phil. thesis, University of Oxford, Oxford
Herrera EA (1992a) Size of testes and scent glands in capybaras, Hydrochaeris hydrochaeris(Rodentia: Caviomorpha). J Mammal 73:871–875
Herrera EA (1992b) Growth and dispersal of capybaras, Hydrochaeris hydrochaeris, in the llanos of Venezuela. J Zool (Lond) 228:307–316
Herrera EA (2012) Capybara digestive adaptations. In: Moreira JR, Ferraz KMPMB, Herrera EA, Macdonald DW (eds) Capybara: biology, use and conservation of an exceptional neotropical species. Springer, New York, pp 97–106
Herrera EA, Macdonald DW (1987) Group stability and the structure of a capybara population. Symp Zool Soc Lond 58:115–130
Herrera EA, Macdonald DW (1989) Resource utilization and territoriality in group-living capybaras. J Anim Ecol 58:667–679
Herrera EA, Macdonald DW (1993) Aggression, dominance and mating success among capybara males. Behav Ecol 4:114–119
Herrera EA, Salas V, Congdon ERC, Corriale MJ, Tang-Martínez Z (2011) Capybara social structure and dispersal patterns: variations on a theme. J Mammal 92(1):12–20
Herrera EA, Macdonald DW (1993) Aggression, dominance and mating success among capybara males. Behav Ecol 4:114–119
Jorgenson JP (1986) Notes on the ecology and behavior of capybaras in northeastern Colombia. Vida Silvestre Neotrop 1:31–40
Kleiman D (1974) Patterns of behaviour in hystricomorph rodents. Symp Zool Soc Lond 34:171–309
Kokko H, Johnstone R (1999) Social queuing in animal societies: a dynamic model of reproductive skew. Proc Roy Soc Lond Ser B 266:571–578
Krebs JR, Davies NB (1993) Introduction to behavioural ecology. Blackwells, Oxford
López M, Muñoz MG, Herrera EA (2008) Reproductive morphology of capybaras, Hydrochoerus hydrochaeris(Rodentia: Hystricognathi): no evidence for sperm competition? Mamm Biol 73:241–244
López-Barbella S (1982) Determinación del ciclo estral en chigüires, Hydrochoerus hydrochaeris. Acta Cient Venez 33:497–501
Macdonald DW (1981a) Dwindling resources and the social behaviour of capybaras, Hydrochoerus hydrochaeris. J Zool (Lond) 194:371–391
Macdonald DW (1981b) Feeding associations between capybaras, Hydrochoerus hydrochaeris, and some bird species. Ibis 123:364–366
Macdonald DW (1983) The ecology of carnivore social behaviour. Nature 301:379–384
Macdonald DW, Herrera EA (2012) Capybara scent glands and scent-marking behavior. In: Moreira JR, Ferraz KMPMB, Herrera EA, Macdonald DW (eds) Capybara: biology, use and conservation of an exceptional neotropical species. Springer, New York, pp 185–193
Macdonald DW, Krantz K, Aplin RT (1984) Behavioral, anatomical and chemical aspects of scent marking amongst capybaras (Hydrochoerus hydrochaeris) (Rodentia, Caviomorpha). J Zool 202:341–360
Moreira JR, Macdonald DW, Clarke JR (1997) Correlates of testis mass in capybaras (Hydrochoerus hydrochaeris), dominance assurance or sperm production? J Zool (Lond) 241:457–463
Nogueira SSC, Nogueira-Filho SLG, Otta E, Dias CTS, Carvalho A (1999) Determination of infanticide causes in capybara (Hydrochoerus hydrochaeris) groups in captivity. Appl Anim Behav Sci 62:351–357
Nogueira SSC, Otta E, Dos Santos Dias CT, Nogueira-Filho SLG (2000) Alloparental behavior in the capybara (Hydrochoerus hydrochaeris). Rev Etologia 2:17–21
Nutt KJ (2005) Philopatry of both sexes leads to the formation of multimale, multifemale groups in Ctenodactylus gundi(Rodentia: Ctenodatylidae). J Mammal 86:961–968
Ojasti J (1973) Estudio Biológico del chigüire o capibara. FONAIAP, Caracas, p 270. Reprinted 2011, Editorial Equinoccio, USB, Caracas
Ojasti J, Sosa Burgos L (1985) Density regulation in populations of capybara. Acta Zool Fennica 173:81–83
Perea J, Ruíz S (1977) Organización social y hábitos territoriales del cacó. Graduate Dissertation, Biología Universidad Nacional, Santa Fé de Bogotá, p 109
Pérez-González J, Carranza J (2009) Female-biased dispersal under conditions of low male competition in a polygynous mammal. Mol Ecol 18:4617–4630
Quintana RD, Rabinovich JE (1993) Assessment of capybara (Hydrochoerus hydrochaeris) populations in the wetlands of Corrientes, Argentina. Wetlands Ecol Manag 2:223–230
Rood JP (1972) Ecological and behavioral comparisons of three genera of Argentine cavies. Anim Behav Monogr 5:1–83
Salas V (1999) Social organisation of capybaras in the Venezuelan Llanos. Ph.D. thesis, University of Cambridge, Cambridge
Schaller GB, Crawshaw PG (1981) Social organization in a capybara population. Säugetierkd Mitt 29:3–16
Schwarz-Weig E, Sachser N (1996) Social behaviour, mating system and testes size in cuis (Galea musteloides). Z Säugetierkd 61:25–38
Soini P, Soini M (1992) Ecologia del ronsoco o capibara (Hydrochoerus hydrochaeris) en la reserva nacional Pacaya-Samiria, Peru. Folia Amazonica 4:135–150
Taber AB, Macdonald DW (1992) Spatial organization and monogamy in the mara, Dolichotis patagonum. J Zool (Lond) 227:417–438
Vucetich MG, Deschamps CM, Pérez ME (2012) Paleontology, evolution and systematics of capybara. In: Moreira JR, Ferraz KMPMB, Herrera EA, Macdonald DW (eds) Capybara: biology, use and conservation of an exceptional neotropical species. Springer, New York, pp 39–59
Yáber MC, Herrera EA (1994) Vigilance, group size and social status in capybaras. Anim Behav 48:1301–1307
Zenuto RR, Lacey EA, Busch C (1999) DNA fingerprinting reveals polygyny in the subterranean rodent Ctenomys talarum. Mol Ecol 8:1529–1532
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Herrera, E.A. (2013). Capybara Social Behavior and Use of Space: Patterns and Processes. In: Moreira, J., Ferraz, K., Herrera, E., Macdonald, D. (eds) Capybara. Springer, New York, NY. https://doi.org/10.1007/978-1-4614-4000-0_11
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