Your search keyword '"Octodontidae"' showing total 369 results

1. Microsatellite DNA variation in Spalacopus cyanus, a social subterranean rodent endemic to Chile (Rodentia: Octodontidae).

Author

BEGALL, Sabine and HONEYCUTT, Rodney L.

Subjects

*MICROSATELLITE repeats, *DNA, *SPALACOPUS cyanus, *RODENTS, *OCTODONTIDAE

Abstract

We used five polymorphic microsatellite loci to examine patterns of genetic variation within and among colonies of coruros (Spalacopus cyanus) at three localities in central Chile. Detailed comparisons of genetic variation at two locations, Los Maitenes in the northern portion of the species' range and El Alamo in the south, displayed very different patterns of variation. Overall variation (alleles per locus and heterozygosity) within and among colonies at Los Maitenes was several times higher than observed at El Alamo, with the latter showing patterns of variation more consistent with a social species of subterranean rodent. Comparisons among Los Maitenes, El Alamo, and Los Vilos, another northern population, revealed a distinct genetic subdivision between northern and southern localities, indicating little evidence of genetic exchange between these two regions. We discuss these patterns of variation in relation to previous genetic research on Spalacopus and other subterranean rodents. [ABSTRACT FROM AUTHOR]

Published

2022

2. Two new genera and species of halophytic desert mammals from isolated salt flats in Argentina /

Author

Mares, Michael A., Braun, Janet K., Texas Tech University. Museum, Museum of Texas Tech University, Mares, Michael A., Braun, Janet K., and Texas Tech University. Museum

Subjects

Argentina, %22">Argentinien , Catamarca (Province), Evolution, La Rioja (Province), Morphometrie, Octodontidae, Research, Rodents, Systematik, Trugratten, Wüstentiere

Published

2000

3. Can social behaviour drive accessory olfactory bulb asymmetries? Sister species of caviomorph rodents as a case in point.

Author

Fernández‐Aburto, Pedro, Delgado, Scarlett E., Sobrero, Raúl, and Mpodozis, Jorge

Subjects

*OCTODONTIDAE, *ANIMAL behavior, *OLFACTORY bulb, *VOMERONASAL organ, *MORPHOMETRICS

Abstract

In mammals, the accessory olfactory or vomeronasal system exhibits a wide variety of anatomical arrangements. In caviomorph rodents, the accessory olfactory bulb (AOB) exhibits a dichotomic conformation, in which two subdomains, the anterior (aAOB) and the posterior (pAOB), can be readily distinguished. Interestingly, different species of this group exhibit bias of different sign between the AOB subdomains (aAOB larger than pAOB or vice versa). Such species‐specific biases have been related with contrasting differences in the habitat of the different species (e.g. arid vs. humid environments). Aiming to deepen these observations, we performed a morphometric comparison of the AOB subdomains between two sister species of octodontid rodents, Octodon lunatus and Octodon degus. These species are interesting for comparative purposes, as they inhabit similar landscapes but exhibit contrasting social habits. Previous reports have shown that O. degus, a highly social species, exhibits a greatly asymmetric AOB, in which the aAOB has twice the size of the pAOB and features more and larger glomeruli in its glomerular layer (GL). We found that the same as in O. degus, the far less social O. lunatus also exhibits a bias, albeit less pronounced, to a larger aAOB. In both species, this bias was also evident for the mitral/tufted cells number. But unlike in O. degus, in O. lunatus this bias was not present at the GL. In comparison with O. degus, in O. lunatus the aAOB GL was significantly reduced in volume, while the pAOB GL displayed a similar volume. We conclude that these sister species exhibit a very sharp difference in the anatomical conformation of the AOB, namely, the relative size of the GL of the aAOB subdomain, which is larger in O. degus than in O. lunatus. We discuss these results in the context of the differences in the lifestyle of these species, highlighting the differences in social behaviour as a possible factor driving to distinct AOB morphometries. [ABSTRACT FROM AUTHOR]

Published

2020

4. ACTIVITY AND GROUP-LIVING IN THE PORTER'S ROCK RATS, Aconaemys porteri.

Author

Frugone, María José, Correa, Loreto A., and Sobrero, Raúl

Subjects

*TELEMETRY, *RATS

Abstract

We provide the first systematic data on behavior and ecology of Aconaemys porteri. We used telemetry to monitor patterns of activity, resting locations, and range areas. Rock rat movements were statistically similar during nighttime and daytime, implying no clear diurnal or nocturnal activity. Animals used from 2 to 9 putative resting locations, but one was used more frequently. Rock rats showed relatively smaller range areas and low-to-moderate spatial overlap with neighbors, compared to other rodent species. These results indicate that A. porteri exhibit an intermediate level of sociality, compared to other octodontids. [ABSTRACT FROM AUTHOR]

Published

2019

5. Andryoides gen. n. and morphological key features in cestodes of the family Anoplocephalidae sensu stricto (Cyclophyllidea) in mammals

Author

Voitto Haukisalmi, Organismal and Evolutionary Biology Research Programme, and Faculty of Biological and Environmental Sciences

Subjects

Andrya, Octodontidae, Neandrya, 1181 Ecology, evolutionary biology, Cestoda, Parasitology, Rodentia, New genus, Cricetidae

Abstract

As presently defined, the tapeworm genus Andrya Railliet, 1895 (Cyclophyllidea: Anoplocephalidae sensu stricto) includes the type species A. rhopalocephala (Riehm, 1881) in hares of the genus Lepus Linnaeus (Leporidae) in western Eurasia and four species in cricetid (Neotominae, Sigmodontinae) and octodontid rodents in North and South America. The host range of Andrya is puzzling, be-cause it is the only genus of anoplocephalid (s. s.) cestodes parasitising both rodents and lagomorphs. The present morphological analy-sis shows that the American species of Andrya share multiple consistent features, in which they differ from those of A. rhopalocephala and the morphologically related Neandrya cuniculi (Blanchard, 1891). The main differences concern the position of the uterus with re-spect to the longitudinal osmoregulatory canals and testes. Consequently, a new genus Andryoides gen. n. is proposed for the American species, resulting in the following combinations: Andryoides neotomae (Voge, 1946) comb. n. (type species), Andryoides octodonensis (Babero et Cattan, 1975) comb. n., Andryoides vesicula (Haverkost et Gardner, 2010) comb. n. and Andryoides boliviensis (Haverkost et Gardner, 2010) comb. n. However, A. boliviensis is regarded here as a junior synonym of A. vesicula (new synonymy). The present study also defines the morphological key features for all the valid genera of cestodes of the family Anoplocephalidae (s. s.), and dis-cusses the phylogenetic affinities and historical biogeography of Andryoides and other endemic American anoplocephalid cestodes.

Published

2023

6. Analyzing the impact of conflictive dental characters on the phylogeny of octodontoid rodents

Author

Adriana M. Candela

Subjects

Mammalia, Rodentia, Octodontidae, Echimyidae, homology, parsimony analysis, tooth morphology, Fossil man. Human paleontology, GN282-286.7, Paleontology, QE701-760

Abstract

Systematics of fossil octodontoids (Rodentia, Caviomorpha) is in great part based on insights into the knowledge of teeth, making the step of dental characterization certainly relevant for the evolutionary reconstruction of these rodents. Different homology hypotheses were proposed for the same tooth structures, a fact that indicates the importance of knowing on which criteria the dental characters supporting the classifications were based. In this line, I evaluate the step of characterization of certain conflictive molar characters previously used, and their impact on phylogeny of octodontoids. I explore which the criteria followed to propose the hypotheses of correspondences for these characters are in light of the anatomical evidence. Based on the outcome of phylogenetic trees obtained previously, I analyze if the evolutionary transformations are compatible with character states observed in the terminals. New cladistic analyses based on recoded molar characters indicate that, unlike results recently obtained, the unorthodox position of Sallamys, Protadelphomys, and Willidewu as basal ctenomyines is not recovered. The position of Caviocricetus, Acarechimys–Neophanomysas as Octodontinae is not maintained. These results indicate that reanalyses of conflictive dental characters, scrutinizing data matrices, are particularly necessary to evaluate the current controversy on the phylogeny of octodontoids. Lower molar character definition and character states delimitation in octodontoids, being relevant to phylogenetic reconstruction, should be founded on anatomical examination, following explicit criteria of homology. Alternative hypotheses of “primary homology” proposed for the same molar traits in octodontoids indicate that each main group of caviomorphs requires its own anatomical study.

Published

2016

7. Octodontomys gliroides (Rodentia: Octodontidae).

Author

PéREZ, M. JULIETA and MóNICA DíAZ, M.

Subjects

*BOTANICAL nomenclature, *OCTODONTIDAE, *BIODIVERSITY, *RODENTS, *MACROPUS eugenii

Abstract

The genus Octodontomys contains only a single species, Octodontomys gliroides (P. Gervais and d'Orbigny, 1844), the mountain degu, found in Andean and Sub-Andean regions of 3 countries, Argentina, Bolivia, and Chile, from elevations of about 1,200-4,400 m. This fossorial octodontid is typical of dry areas, inhabits rocky zones, and is active during the day and the first few hours of night. It is not of special conservation status, being common throughout its distribution, and is considered a species of "Least Concern." [ABSTRACT FROM AUTHOR]

Published

2018

8. Pudicinae (Nematoda: Heligmonellidae) Parasitic in Endemic Chilean Rodents (Caviomorpha: Octodontidae and Abrocomidae): Description of a New Species and Emended Description of Pudica degusi (Babero and Cattan) n. comb.

Author

Digiani, María Celina, Landaeta-Aqueveque, Carlos, Serrano, Paula Carolina, and Notarnicola, Juliana

Subjects

NEMATODES, OCTODONTIDAE, ABROCOMA bennettii, CHINCHILLA rats, PHYSALOPTERA

Abstract

We report the finding of 2 species of Pudica (Nematoda: Heligmonellidae: Pudicinae) in 2 rodents endemic to Chile, the common degu Octodon degus (Octodontidae) and the Bennett's chinchilla rat Abrocoma bennettii (Abrocomidae). Pudica degusi (Babero and Cattan, 1975) n. comb., originally described as a species of Longistriata (Heligmosomidae), was found in the common degu; through the study of its synlophe, the species is reassigned to the Heligmonellidae: Pudicinae and the genus Pudica, and it is revalidated through comparison with the remaining species of the genus. Pudica cattani n. sp. is described from both O. degus and A. bennettii. It is characterized by its large body size, bursal pattern of type 1-3-1 on right lobe, 1-3-1 tending to 1-4 on left lobe, synlophe with 11 ridges including a careen, dorsal ray of the bursa dividing proximally and bursal rays 9 and 10 relatively short. Pudica degusi n. comb. and Pudica cattani n. sp. were found in the same host species but not as coparasitic in the same individuals. The common degu is confirmed as the sole and primary host of Pudica degusi n. comb. It is unlikely that it is the primary host for Pudica cattani n. sp., whose host affinities are less clear mainly due to the scarcity of data. Pudica cattani n. sp. is the first helminth reported from the Bennett's chinchilla rat. Both findings enlarge the host range of the Pudicinae to the families Octodontidae and Abrocomidae, i.e., 9 out of the 11 extant families of caviomorphs, thereby establishing the presence of this nematode subfamily as typical parasites of the Neotropical Hystricognathi. [ABSTRACT FROM AUTHOR]

Published

2017

9. Evolutionary pattern of Metacaremys gen. nov. (Rodentia, Octodontidae) and its biochronological implications for the late Miocene and early Pliocene of southern South America

Author

Rodrigo Leandro Tomassini, Ariel Fernández Villoldo, Claudia I. Montalvo, Pedro Piñero, A. Itatí Olivares, and Diego H. Verzi

Subjects

Paleontology, Geography, biology, Biostratigraphy, Late Miocene, Octodontidae, biology.organism_classification, Anagenesis

Published

2021

10. Taxonomic revision of the populations assigned to Octodon degus (Hystricomorpha: Octodontidae): With the designation of a neotype for Sciurus degus G. I. Molina, 1782 and the description of a new subspecies

Author

Guillermo D’Elía and Richard Cadenillas

Subjects

0106 biological sciences, biology, Species distribution, 010607 zoology, Zoology, Subspecies, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Octodon degus, biology.domesticated_animal, Animal Science and Zoology, Hystricomorpha, Mammal, Octodontidae, Clade, Sciurus

Abstract

The caviomorph Octodon degus is likely the most studied Chilean mammal species. Several studies have centered in its natural history, ecology, behavior, and physiology; in addition, the species is used as model organism in biomedicine and neurobiology research. However, basic aspects such as its genetic and morphological variation throughout its distribution have not been adequately assessed. In fact, the last taxonomic study focused on populations of O. degus dates to the first half of the last century. Here we integrate morphologic (137 specimens from 23 localities) and genetic (cytochrome-b gene sequences of 47 individuals from 17 localities) evidence to assess the level and pattern of geographic variation along the whole species distribution. We found that specimens of O. degus present one of two morphotypes that are quali and quatitative differentiable. A gracile morphotype is found towards the north and a robust morphotype towards the south. Skull size variation correlates with precipitation, temperature and primary productivity. In addition, genealogical analysis uncovered two mains clades, one of them formed by haplotypes from specimens from the north and the other formed by haplotypes from specimens from the south of the distribution. We consider these differences warrant recognition at the subspecies level. As such, after assigning a neotype for Sciurus degus (= O. degus) that attaches this name to the southern morph, we described and named a new subspecies for the northern populations of O. degus.

Published

2021

11. Morphology of the limbs in the semi-fossorial desert rodent species of Tympanoctomys (Octodontidae, Rodentia).

Author

Pérez, M. Julieta, Barquez, Rubén M., and Díaz, M. Mónica

Subjects

*OCTODONTIDAE, *RODENTS, *BURROWING animals, *PHYLOGENY, *MORPHOMETRICS

Abstract

Here, a detailed description of the forelimbs and hindlimbs of all living species of the genus Tympanoctomys are presented. These rodents, highly adapted to desert environments, are semi-fossorial with capacity to move on the surface as well as to build burrows. The shape, structure, and size of the limbs are described. Contrary to what was expected for scratch digging semi-fossorial species, Tympanoctomys have slender humerus, radius and ulna; with narrow epicondyles of the humerus and short olecranon of the ulna with poorly developed processes. Following our descriptions, no intrageneric morphological variation regarding to the configuration of the limbs was detected, probably due to phylogenetic proximity, and not related to specific variations in response to different use of substrates or habits. The obtained results constitute a source of previously unpublished information as well as an important base for future analysis in different studies, such as morphometric, morpho-functional, or phylogenetic researches. [ABSTRACT FROM AUTHOR]

Published

2017

12. Evolution of the Largest Mammalian Genome.

Author

Evans, Ben J., Upham, Nathan S., Golding, Goeffrey B., Ojeda, Ricardo A., and Ojeda, Agustina A.

Subjects

*BIOLOGICAL evolution, *RODENT evolution, *OCTODONTIDAE, *CHROMOSOME duplication, *NUCLEOTIDE sequence

Abstract

The genome of the red vizcacha rat (Rodentia, Octodontidae, Tympanoctomys barrerae) is the largest of all mammals, and about double the size of their close relative, the mountain vizcacha rat Octomys mimax, even though the lineages that gave rise to these species diverged from each other only about 5Ma. The mechanism for this rapid genome expansion is controversial, and hypothesized to be a consequence of whole genome duplication or accumulation of repetitive elements. To test these alternative but nonexclusive hypotheses, we gathered and evaluated evidence from whole transcriptome and whole genome sequences of T. barrerae and O. mimax. We recovered support for genome expansion due to accumulation of a diverse assemblage of repetitive elements, which represent about one half and one fifth of the genomes of T. barrerae and O. mimax, respectively, but we found no strong signal of whole genome duplication. In both species, repetitive sequences were rare in transcribed regions as compared with the rest of the genome, and mostly had no close match to annotated repetitive sequences from other rodents. These findings raise new questions about the genomic dynamics of these repetitive elements, their connection to widespread chromosomal fissions that occurred in the T. barrerae ancestor, and their fitness effects--including during the evolution of hypersaline dietary tolerance in T. barrerae. [ABSTRACT FROM AUTHOR]

Published

2017

13. Systematics and evolutionary significance of the small Abrocomidae from the early Miocene of southern South America.

Author

Verzi, Diego H., Olivares, A. Itatí, and Morgan, Cecilia C.

Subjects

*OLIGOCENE Epoch, *PALEOGENE, *CHINCHILLA rats, *MIOCENE Epoch, *OCTODONTIDAE

Abstract

Octodontoidea is the most species-rich clade among hystricomorph rodents, and has a fossil record going back to at least the late Oligocene. Affinities of fossils previous to the late Miocene differentiation of the extant families Abrocomidae, Echimyidae and Octodontidae are controversial, essentially because these fossils may share few apomorphies with modern species. In fact, pre-late Miocene representatives of Abrocomidae had not been recognised until very recently. Here we revise the early Miocene genusAcarechimys, originally assigned to Echimyidae, and alternatively to stem Octodontoidea or to Octodontidae. A systematic and parsimony-based phylogenetic analysis of the species traditionally included inAcarechimysshowed that this genus is part of stem Abrocomidae. These results are primarily supported by morphology of the mandible and lower molars.Acarechimysis here restricted to three species,A. minutus,A. pulchellusandAcarechimys pascualisp. nov., while another species,A. constans, is here transferred to a new abrocomid genus. The remaining species were nested within Octodontidae. According to these results, Abrocomidae might have been as diverse as its sister clade Octodontidae-Echimyidae during the late Oligocene–early Miocene. Extinction of this diversity would have resulted in marked loss of evolutionary history, with extant abrocomids being currently restricted to late-diverged euhypsodont representatives. [ABSTRACT FROM PUBLISHER]

Published

2017

14. Record of an alleged extinct rodent: molecular analyses of the endemic Octodon pacificus from Chile.

Author

VIANNA, JULIANA A., NOLL, DALY, MORENO, LUCILA, SILVA, CAROLINA, MUÑOZ-LEAL, SEBASTIÁN, NAJLE, MARÍA, and GONZÁLEZ-ACUÑA, DANIEL

Subjects

*DEGUS, *EXTINCT animals, *MOLECULAR biology, *CYTOCHROME b, *MITOCHONDRIAL DNA analysis

Abstract

Octodon (Octodontidae) is an endemic genus of rodents that is typical of southwestern South America and represented by 4 species. Octodon pacificus, commonly referred to as the Mocha Island degu, was initially described from specimens collected in 1959 at Mocha Island, a small coastal island located along the central coast of Chile. Fifty-seven years after its original collection, we report the discovery of a female O. pacificus carcass, identified by its morphological characteristics and its specific locality. In addition, based on the cytochrome b (Cytb) gene of the mitochondrial DNA obtained from O. pacificus and other congeneric species, we assessed phylogenetic relationships within the Octodontidae. Bayesian phylogenetic reconstruction indicated that O. degus represented the basal Octodon sp., followed by O. lunatus; O. bridgesii and O. pacificus were identified as sister taxa. Remarkably, the genetic divergence between O. bridgesii and O. pacificus is low, which suggests that 1 of 2 scenarios may be at play: the occurrence of a recent peripatric speciation process in O. pacificus, or the presence of O. bridgesii on Mocha Island. Documented collections of archeozoological material obtained from Mocha Island only include specimens of O. pacificus, a finding that supports our 1st proposed scenario. While the core of Mocha Island is a national reserve, strong anthropogenic landscape modifications have affected the coastal plains-the only known habitat of O. pacificus. Rodent control using killing traps and poison is a common practice on the island; therefore, population surveys and conservation initiatives are needed to conserve this endangered species. [ABSTRACT FROM AUTHOR]

Published

2017

15. Filling phylogenetic gaps and the biogeographic relationships of the Octodontidae (Mammalia: Hystricognathi).

Author

Suárez-Villota, Elkin Y., González-Wevar, Claudio A., Gallardo, Milton H., Vásquez, Rodrigo A., and Poulin, Elie

Subjects

*OCTODONTIDAE, *MAMMALS, *BAYESIAN analysis, *GENETIC distance, *PHYLOGENY, *CHROMOSOME duplication

Abstract

Endemic to South America, octodontid rodents are remarkable by being the only mammal taxa where allotetraploidy has been documented. The taxon’s extensive morpho-physiological radiation associated to niche shifts has allowed testing phylogeographic hypotheses. Using maximum likelihood and Bayesian inference analyses, applied to all nominal species of octodontids, phylogenetic reconstructions based on sequences of 12S rRNA and growth hormone receptor gene are presented. Species boundaries were determined by coalescent analyses and divergence times among taxa were estimated based on mutation rates. Two main clades associated to the Andean orogenesis were recognized. The essentially western clade comprises genera Aconaemys , Octodon , Spalacopus, and Octodontomys whereas the eastern one included genera Octomys , Pipanacoctomys , Salinoctomys, and Tympanoctomys. Genetic relationships, coalescent analyses, and genetic distance supported the specific status given to Octodon pacificus and that given to Pipanacoctomys aureus as a species of Tympanoctomys . However , these analyses failed to recognize Salinoctomys loschalchalerosorum as a valid taxon considering its position within the diversity of Tympanoctomys barrerae . Although the origin of genome duplication remains contentious, the coincidence of the basal clade split with distinctive modes of karyotypic evolution across the Andes emphasizes the role of physiographic barriers and westerlies in shaping different edaphological conditions, selective grounds, and concomitantly distinct adaptations within the octodontids. [ABSTRACT FROM AUTHOR]

Published

2016

16. Postcranial skeleton of Spalacopus cyanus (Rodentia: Octodontidae): description and functional aspects

Author

M. Mónica Díaz and M. Julieta Pérez

Subjects

Axial skeleton, Postcrania, Context (language use), Ciencias Biológicas, purl.org/becyt/ford/1 [https], Cyanus, CHILE, FUNCTIONAL MORPHOLOGY, SOUTH AMERICA, medicine, purl.org/becyt/ford/1.6 [https], Octodontidae, CORURO, biology, FUCTIONAL MORPHOLOGY, SUBTERRANEAN, Zoología, Ornitología, Entomología, Etología, Anatomy, biology.organism_classification, Aconaemys, Skeleton (computer programming), Spalacopus, medicine.anatomical_structure, SUBTERRANEAN RODENT, Animal Science and Zoology, CIENCIAS NATURALES Y EXACTAS

Abstract

El género Spalacopus incluye una sola especie, S. cyanus, endémica de la región central del Chile, siendo una de las especies mejor adaptada a la vida subterránea de la familia Octodontidae. Miembro del linaje que consiste en Octodontomys como hermano de Octodon y el clado representado por Spalacopus y Aconaemys. Si bien la morfología externa y cráneo-dentarias en S. cyanus han sido bien estudiadas, su morfología postcraneal es pobremente conocida. Por las peculiaridades de su estilo de vida y locomoción entre los miembros de la familia, es interesante caracterizar detalles de la morfología del esqueleto postcraneal de esta especie e inferir sus aspectos funcionales de la morfología. Se revisaron 29 ejemplares con material de postcráneo disponibles en dos colecciones sistemáticas: Museo de La Plata (MLP), La Plata, Buenos Aires, Argentina y Colección de Mamíferos del Instituto de Ciencias Ambientales y Evolutivas (UACH), Universidad Austral de Chile, Valdivia, Chile. Para la descripción detallada de la morfología de los elementos óseos se dividió al esqueleto en las siguientes regiones: esqueleto axial, cintura escapular y miembros anteriores, y cintura pélvica y miembros posteriores. Las estructuras incluidas en el esqueleto axial fueron descriptas principalmente en sentido cráneo-caudal y en los miembros en sentido próximo-distal. La observación de las estructuras se realizó con las lupas estereoscópicas Leica Wild M3Z y Nikon SMZ 745T, incluyendo fotografías para ilustrar las descripciones. En la morfología postcraneal de S. cyanus se observan características que se consideran altamente conservadas entre los miembros de la familia Octodontidae, pero algunos caracteres son exclusivos de la especie. El esqueleto axial está compuesto por siete vértebras cervicales, 12 ó 13 torácicas, seis o siete lumbares, cuatro sacras, entre 16 y 18 caudales, 12 ó 13 pares de costillas y un esternón compuesto por cinco esternebras. Los elementos óseos de las cinturas pectoral y pélvica como de los miembros anterior y posterior se describen en detalle, excepto los carpos y tarsos debido al mal estado de preservación o ausencia de los mismos. El patrón morfológico que presenta el postcráneo de S. cyanus se ajusta a un plan anatómico típico de especies terrestres y en algunos elementos óseos (húmero y ulna principalmente) se observan características típicamente asociadas con la habilidad excavadora. Los datos generados permitirán a futuro una mejor interpretación de los atributos postcraneales funcionalmente relacionados con los diferentes estilos de vida, evaluar sus estrategias locomotoras, así como también comprender la evolución de estos rasgos en un contexto filogenético. The genus Spalacopus includes only one species, S. cyanus, endemic to central Chile and one of the species best adapted to a subterranean lifetyle in the family Octodontidae. It is a member of the lineage consisting in Octodontomys as a sister clade containing Octodon and of a clade represented by Spalacopus and Aconaemys. Although the external and cranio-dental morphology have been well studied, little is known of the postcranial morphology of S. cyanus. Because of the peculiarities of its lifestyle and locomotion among the members of the family, it is interesting to characterize details of the morphology of the postcranial skeleton of this species and to infer their functional aspects of the morphology. Twenty-nine specimens with postcranial material stored in two collections were studied: Museo de La Plata (MLP), La Plata, Buenos Aires, Argentina and Colección de Mamíferos del Instituto de Ciencias Ambientales y Evolutivas (UACH), Universidad Austral de Chile, Valdivia, Chile. To describe in detail the morphology of the bone elements, the skeleton was divided in the following regions: axial skeleton, scapular girdle and forelimb, and pelvis girdle and hindlimb. The structures included in the axial skeleton were mainly described in cranial-caudal orientation and the limbs in proximal-distal orientation. All structures were observed with stereoscopic microscopes Leica Wild M3Z and Nikon SMZ 745T including pictures to illustrate the descriptions. Highly conservative characteristics among members of the family Octodontidae were observed in the postcranial morphology of S. cyanus, although some characters are exclusive to this species. The axial skeleton has seven cervical vertebrae, 12 or 13 thoracic, six or seven lumbar, four sacral, 16 to 18 caudal vertebrae, 12 or 13 ribs and a sternum with five sternebrae. The elements of the scapular and pelvic girdles as well as forelimbs and hindlimbs are described in detail, except the carpus and tarsus due to their poor state of conservation, or because they not available. The morphological pattern observed in the postcranial skeleton of S. cyanus conforms to a typical anatomical plan for terrestrial species, and some bones (mainly humerus and ulna) present characteristics associated with digging. The information obtained provided will allow a better interpretation of the postcranial attributes, functionally related with different lifestyle, in a future, as well as the evolution of the traits in a phylogenetic context. Fil: Pérez, María Julieta. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Tucumán; Argentina. Universidad Nacional de Tucumán. Facultad de Ciencias Naturales e Instituto Miguel Lillo. Programa de Investigación de Biodiversidad Argentina; Argentina. Universidad Nacional de Tucumán. Facultad de Ciencias Naturales e Instituto Miguel Lillo. Programa de Conservación de los Murciélagos de Argentina; Argentina Fil: Díaz, María Mónica. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Tucumán; Argentina. Universidad Nacional de Tucumán. Facultad de Ciencias Naturales e Instituto Miguel Lillo. Programa de Investigación de Biodiversidad Argentina; Argentina. Universidad Nacional de Tucumán. Facultad de Ciencias Naturales e Instituto Miguel Lillo. Programa de Conservación de los Murciélagos de Argentina; Argentina. Fundación Miguel Lillo; Argentina

Published

2020

17. Influence of climate change on the predicted distributions of the genus Tympanoctomys (Rodentia, Hystricomorpha, Octodontidae), and their conservation implications

Author

Ricardo A. Ojeda, Andrea del Pilar Tarquino-Carbonell, and Agustina A. Ojeda

Subjects

0106 biological sciences, food.ingredient, 010504 meteorology & atmospheric sciences, Ecology, biology, Tympanoctomys, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Geography, food, Genus, Genetics, Animal Science and Zoology, Hystricomorpha, Octodontidae, Humanities, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Nature and Landscape Conservation

Abstract

Viscacha rats (genus Tympanoctomys Yepes, 1942) are ecologically, physiologically, and behaviorally unusual octodontid rodents endemic to the Monte and Patagonian desert biomes of Argentina. The geographic ranges of the different species of Tympanoctomys have been described in general terms but have not been associated with spatial and climate data. Within species, populations are patchily distributed and genetically distinct. We investigated the predicted distribution of Tympanoctomys and the influence of climate fluctuations on their geographic range in historical, current, and future, scenarios. Our objectives were to characterize the environmental niche of the genus, propose a paleoclimatic context for the oldest fossils, characterize the environmental niches for T. barrerae and T. kirchnerorum, and forecast potential future distributions for these taxa. Ecological niche models were constructed using occurrence records from 1941 to the present wherein we identified several precipitation and temperature variables as important predictors of the geographic distributions of the genus, and the species T. barrerae and T. kirchnerorum. Based on our models’ results, we hypothesize that the distribution of Tympanoctomys has contracted from historical to modern times. At the species level, T. kirchnerorum likely experienced the most dramatic change, suffering a large contraction of its historical distribution resulting in its limited present distribution. Given these findings, projected future climate fluctuations and global warming are expected to affect the distributions and persistence of these species.

Published

2020

18. RECOGNITION OF FOSSIL NEBKHA DEPOSITS: CLUES FROM NEOICHNOLOGY AND SEDIMENTOLOGY

Author

Ricardo Nestor Melchor and M. Cristina Cardonatto

Subjects

0106 biological sciences, 0303 health sciences, food.ingredient, biology, Fossorial, Paleontology, Tympanoctomys, biology.organism_classification, Burrow, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Digging, food, Arthropod, Sedimentology, Octodontidae, Cenozoic, Ecology, Evolution, Behavior and Systematics, Geology, 030304 developmental biology

Abstract

This study includes the first neoichnologic characterization of the burrow systems of Tympanoctomys barrerae (Rodentia: Octodontidae) and also considers sedimentologic features of the modern nebkhas where they occur. Tympanoctomys is a South American solitary and fossorial rodent that has ecomorphofunctional adaptations for living in saline environments and constructs its burrow in nebkhas with halophyte shrubs. The purpose of this work is to identify the ichnologic signatures of T. barrerae burrow systems and to provide combined ichnologic-sedimentologic criteria for identification of Cenozoic nebkha deposits. Tympanoctomys barrerae burrow systems are subhorizontal, typically with ten or more entrances, two or three levels, closed circuits, average complexity of 48, average tortuosity of 3.25, and an average ratio of total chamber volume to total tunnel volume of 0.04. The size of the tunnels averages 85 mm in horizontal diameter and 64 mm in vertical diameter, and cross-section shape ranges from elliptical flattened to plano-convex with incipient bilobed floor. Surface ornamentation is typified by a coexistence of primary (sets of four claw traces forming an arcuate pattern produced during digging) and secondary (numerous arthropod burrows excavated from the burrow lumen) surface ornamentation. Nebkha deposits in upper Cenozoic sequences can be recognized by the combination of ichnologic and sedimentologic features: fossil burrows having the ichnologic features characteristic of T. barrerae burrow systems and presence of rhizoliths of shrubby plants occurring in well-sorted sandy deposits with low-angle crossbedding. These criteria can be potentially applied to fossil sequences dating back to the early Oligocene.

Published

2020

19. Evoked auditory potentials from African mole-rats and coruros reveal disparity in subterranean rodent hearing

Author

Lea Mellinghaus, Alexandra Heinrich, Sabine Begall, Patricia Gerhardt, and Kai R. Caspar

Subjects

medicine.medical_specialty, Rodent, Physiology, Fukomys darlingi, Range (biology), Aquatic Science, Biology, Audiology, Hearing, biology.animal, otorhinolaryngologic diseases, medicine, Evoked Potentials, Auditory, Brain Stem, Animals, Octodontidae, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Naked mole-rat, Hearing Tests, Mole Rats, biology.organism_classification, Spalacopus, Auditory brainstem response, Insect Science, Hearing range, Animal Science and Zoology, Biologie

Abstract

Hearing in subterranean rodents exhibits numerous peculiarities, including low sensitivity and restriction to a narrow range of comparatively low frequencies. Past studies provided two conflicting hypotheses explaining how these derived traits evolved: structural degeneration and adaptive specialization. To further elucidate this issue, we recorded auditory brainstem responses from three species of social subterranean rodents that differ in the degree of specialization to the underground habitat: the naked mole-rat (Heterocephalus glaber) and the Mashona mole-rat (Fukomys darlingi), which represent the ancient lineage of African mole-rats (Bathyergidae), and the coruro (Spalacopus cyanus), a South American rodent (Octodontidae) that adopted a subterranean lifestyle in more recent geological time. Additionally, we measured call amplitudes of social vocalizations to study auditory vocal coupling. We found elevated auditory thresholds and severe hearing range restrictions in the African mole-rats, with hearing in naked mole-rats tending to be more sensitive than in Mashona mole-rats, in which hearing notably deteriorated with increasing age. In contrast, hearing in coruros was similar to that of epigeic rodents, with its range extending into ultrasonic frequencies. However, as in the mole-rats, the coruros’ region of best hearing was located at low frequencies close to 1 kHz. We argue that the auditory sensitivity of African mole-rats, although remarkably poor, has been underestimated by recent studies, whereas data on coruros conform to previous results. Considering the available evidence, we propose to be open to both degenerative and adaptive interpretations of hearing physiology in subterranean mammals, as each may provide convincing explanations for specific auditory traits observed.

Published

2021

20. Andryoides gen. n. and morphological key features in cestodes of the family Anoplocephalidae sensu stricto (Cyclophyllidea) in mammals.

Author

Haukisalmi V

Subjects

Animals, Female, Phylogeny, Mammals, Rodentia, Arvicolinae, Sigmodontinae, Cestoda, Cestode Infections epidemiology, Cestode Infections veterinary

Abstract

As presently defined, the tapeworm genus Andrya Railliet, 1895 (Cyclophyllidea: Anoplocephalidae sensu stricto) includes the type species A. rhopalocephala (Riehm, 1881) in hares of the genus Lepus Linnaeus (Leporidae) in western Eurasia and four species in cricetid (Neotominae, Sigmodontinae) and octodontid rodents in North and South America. The host range of Andrya is puzzling, because it is the only genus of anoplocephalid (s. s.) cestodes parasitising both rodents and lagomorphs. The present morphological analysis shows that the American species of Andrya share multiple consistent features, in which they differ from those of A. rhopalocephala and the morphologically related Neandrya cuniculi (Blanchard, 1891). The main differences concern the position of the uterus with respect to the longitudinal osmoregulatory canals and testes. Consequently, a new genus Andryoides gen. n. is proposed for the American species, resulting in the following combinations: Andryoides neotomae (Voge, 1946) comb. n. (type species), Andryoides octodonensis (Babero et Cattan, 1975) comb. n., Andryoides vesicula (Haverkost et Gardner, 2010) comb. n. and Andryoides boliviensis (Haverkost et Gardner, 2010) comb. n. However, A. boliviensis is regarded here as a junior synonym of A. vesicula (new synonymy). The present study also defines the morphological key features for all the valid genera of cestodes of the family Anoplocephalidae (s. s.), and discusses the phylogenetic affinities and historical biogeography of Andryoides and other endemic American anoplocephalid cestodes.

Published

2023

21. Helminth and protozoan parasites of subterranean rodents (Chordata, Mammalia, Rodentia) of the world.

Author

Dursahinhan AT, Kenkel DA, and Gardner SL

Abstract

Published studies and ten new unpublished records included herein reveal that approximately 174 species of endoparasites (helminths and protozoans) are known from 65 of 163 species of rodents that occupy the subterranean ecotope globally. Of those, 94 endoparasite species were originally described from these rodents. A total of 282 host-parasite associations are summarized from four major zoogeographic regions including Ethiopian, Palearctic/Oriental, Nearctic, and Neotropical. Thirty-four parasite records from the literature have been identified to only the level of the genus. In this summary, ten new records have been added, and the most current taxonomic status of each parasite species is noted. Interestingly, there are no data on endoparasites from more than 68% of described subterranean rodents, which indicates that discovery and documentation are at an early stage and must continue., (Altangerel T. Dursahinhan, Daniel A. Kenkel, Scott L. Gardner.)

Published

2023

22. Analyzing the impact of conflictive dental characters on the phylogeny of octodontoid rodents.

Author

CANDELA, ADRIANA M.

Subjects

*RODENT evolution, *HOMOLOGY (Biology), *PHYLOGENY, *CAVIOMORPHA, *DENTISTRY, *ECHIMYIDAE

Abstract

Systematics of fossil octodontoids (Rodentia, Caviomorpha) is in great part based on insights into the knowledge of teeth, making the step of dental characterization certainly relevant for the evolutionary reconstruction of these rodents. Different homology hypotheses were proposed for the same tooth structures, a fact that indicates the importance of knowing on which criteria the dental characters supporting the classifications were based. In this line, I evaluate the step of characterization of certain conflictive molar characters previously used, and their impact on phylogeny of octodontoids. I explore which the criteria followed to propose the hypotheses of correspondences for these characters are in light of the anatomical evidence. Based on the outcome of phylogenetic trees obtained previously, I analyze if the evolutionary transformations are compatible with character states observed in the terminals. New cladistic analyses based on recoded molar characters indicate that, unlike results recently obtained, the unorthodox position of Sallamys, Protadelphomys, and Willidewu as basal ctenomyines is not recovered. The position of Caviocricetus, Acarechimys-Neophanomysas as Octodontinae is not maintained. These results indicate that reanalyses of conflictive dental characters, scrutinizing data matrices, are particularly necessary to evaluate the current controversy on the phylogeny of octodontoids. Lower molar character definition and character states delimitation in octodontoids, being relevant to phylogenetic reconstruction, should be founded on anatomical examination, following explicit criteria of homology. Alternative hypotheses of "primary homology" proposed for the same molar traits in octodontoids indicate that each main group of caviomorphs requires its own anatomical study. [ABSTRACT FROM AUTHOR]

Published

2016

23. Effects of Habitat and Social Complexity on Brain Size, Brain Asymmetry and Dentate Gyrus Morphology in Two Octodontid Rodents.

Author

Sobrero, Raúl, Fernández-aburto, Pedro, Ly-Prieto, Álvaro, Delgado, Scarlett E., Mpodozis, Jorge, and Ebensperger, Luis a.

Subjects

*OCTODONTIDAE, *BRAIN physiology, *DENTATE gyrus, *BRAIN anatomy, *HABITATS

Abstract

Navigational and social challenges due to habitat conditions and sociality are known to influence dentate gyrus (DG) morphology, yet the relative importance of these factors remains unclear. Thus, we studied three natural populations of O. lunatus (Los Molles) and Octodon degus (El Salitre and Rinconada), two caviomorph species that differ in the extent of sociality and with contrasting vegetation cover of habitat used. The brains and DG of male and female breeding degus with simultaneous information on their physical and social environments were examined. The extent of sociality was quantified from total group size and range area overlap. O. degus at El Salitre was more social than at Rinconada and than O. lunatus from Los Molles. The use of transects to quantify cover of vegetation (and other physical objects in the habitat) and measures of the spatial behavior of animals indicated animal navigation based on unique cues or global landmarks is more cognitively challenging to O. lunatus . Dur-ing lactation, female O. lunatus had larger brains than males. Relative DG volume was similar across sexes and populations. The right hemisphere of male and female O. lunatus had more cells than the left hemisphere, with DG directional asymmetry not found in O. degus . Degu population differences in brain size and DG cell number seemed more responsive to differences in habitat than to differences in sociality. Yet, large-sized O. degus (but not O. lunatus) that ranged over larger areas and were members of larger social groups had more DG cells per hemisphere. Thus, within-population variation in DG cell number by hemisphere was consistent with a joint influence of habitat and sociality in O. degus at El Salitre. [ABSTRACT FROM AUTHOR]

Published

2016

24. Posiciones tróficas de pequeños mamíferos en Chile: una revisión Trophic position of small mammals in Chile: a review

Author

SERGIO I. SILVA

Subjects

micromamíferos, posición trófica, dieta, Muridae, Octodontidae, Caviidae, Chinchillidae, Abrocomidae, Marsupialia, Chile, small mammals, trophic position, diet, marsupials, Zoology, QL1-991, Botany, QK1-989

Abstract

Revisé la información sobre la dieta de 25 especies de micromamíferos que habitan en Chile, y que ha sido publicada en once artículos científicos. Dividí el aporte de cada ítem alimentario en cinco categorías: hongos, tejido vegetal, semillas, frutos e insectos. Esto me permitió representar la información documentada en la forma de diagramas De Finetti en el cual la posición trófica de una especie se representa por un punto en un triángulo equilátero. Para determinar con un criterio estadístico las líneas de corte dentro del diagrama De Fenetti realicé análisis de correspondencia. Este análisis permitió agrupar las especies en seis grupos de categorías tróficas: herbívoro, insectívoro, omnívoro, seminívoro-frugívoro, herbívoro/seminívoro-frugívoro, herbívoro/insectívoro. Los hábitos alimentarios de las especies pertenecientes a la familia Muridae incorporan dietas mixtas con una fluctuación porcentual de cada ítem, cambiando sus hábitos alimentarios significativamente entre localidades. Las especies A. bennetti, A. cinerea, A. andinus, C. lanigera, L. viscacia, M. niata, O. bridgesi y Thylamys elegans incorporan dietas constituidas solo por un ítem, cuya representatividad fue mayor al 90 %.I reviewed dietary information of 25 species of small mammals inhabiting Chile and published in 11 scientific articles. I divided the contribution of each food item in five categories: fungi, vegetation, seeds, fruits and insects. This approach allowed me to represent the information documented in the form of De Finetti diagrams, in which the trophic position of a species is represented by a point in an equilateral triangle. Through correspondence analysis, I determined statistically the groups inside the diagram De Fenetti. This analysis allowed me to group the species in seven trophic categories: herbivorous, insectivorous, omnivorous, granivorous-frugivorous, herbivorous/granivorous-frugivorous, herbivorous/insectivorous. Food habits of species in Muridae family incorporate mixed diets with a percentage fluctuation of each item, changing its food habits significantly among localities. The species A. bennetti, A. cinerea, A. andinus, C. lanigera, L. viscacia, M. niata, O. bridgesi and Thylamys elegans incorporate monospecific diets with representativeness of 90 % of consumed item

Published

2005

25. Gametogenesis and nucleotypic effects in the tetraploid red vizcacha rat, Tympanoctomys barrerae (Rodentia, Octodontidae)

Author

MILTON H GALLARDO, ORLANDO GARRIDO, RAÚL BAHAMONDE, and MARCELO GONZÁLEZ

Subjects

nucleotypic effects, oogenesis, spermatogenesis, Octodontidae, Tympanoctomys barrerae, tetraploidy, Biology (General), QH301-705.5

Abstract

Nucleotypic effects link DNA content with nuclear size and cell dimensions of reproductive cells in polyploid organisms. We studied the gametogenesis of the allotetraploid rodent Tympanoctomys barrerae, aiming to determine these effects in reproductive cells. The species' cofamily members, Octodon degus and Spalacopus cyanus were used as control. Spermatogenesis and oogenesis in T. barrerae follows the pattern of differentiation and sequence of events of the control species, but varied nucleotypic effects were observed. Exceedingly large, spatulated spermatozoa with a submedially attached flagellum are characteristic of male T. barrerae. The diameter of the nuclei of primordial and growing follicles as well as those of the Graaff follicles, of the granulose, and of luteal cells are significantly larger and heavily heterochromatic. Moreover, the width of the pellucid zone is 108% thicker in T. barrerae than in S. cyanus. Binucleation was recorded in 26% of luteal bodies examined whereas no binucleated cells are detected in the diploid control. Likewise, large heterochromatic nucleoli were observed in the follicle cells but not in S. cyanus. This finding and the high heterochromatin content of reproductive cells in the red vizcacha rat is probably associated with its genome complexity so that redundant genetic information is silenced through heterochromatinization

Published

2004

26. Holocene distribution of Octodontid rodents in central Chile Distribución holocénica de roedores octodóntidos en Chile central

Author

BÁRBARA SAAVEDRA and JAVIER A SIMONETTI

Subjects

Octodontidae, Holoceno, Chile central, zooarqueología, Holocene, central Chile, zooarchaeology, Zoology, QL1-991, Botany, QK1-989

Abstract

We describe the Holocene distribution of the Octodontids Aconaemys fuscus, Octodon bridgesi, O. degus, O. lunatus, O. pacificus and Spalacopus cyanus from Central Chile. We compared ancient and present day ranges. The Holocene pattern was inferred from zooarchaeological records. Octodon degus, O. lunatus, O. bridgesi, and Aconaemys fuscus showed a reduction in their geographic range. Although specific mechanisms remain to be tested, human disturbance seems to be the distal factor that explains the reduction of ranges for some taxa.Describimos la distribución holocénica de los roedores octodóntidos Aconaemys fuscus, Octodon bridgesi, O. degus, O. lunatus, O. pacificus y Spalacopus cyanus en Chile central, y la comparamos con su distribución actual. El patrón de distribución holocénico se infirió de registros zooarqueológicos. Octodon degus, O. lunatus, O. bridgesi y Aconaemys fuscus muestran una reducción en su rango geográfico. A pesar de que los mecanismos específicos que explican este patrón permanecen sin ser resueltos, la perturbación humana parece ser el factor distal que explicaría la reducción en el rango de distribución para algunas de estas especies.

Published

2003

27. Las especies del género Gyropus Nitzsch, 1818 (Phthiraptera: Gyropidae) parásitas de Octodontidae (Mammalia: Rodentia) The species of the genus Gyropus Nitzch, 1818 (Phthiraptera: Gyropidae) parasitic on the Octodontidae (Mammalia: Rodentia)

Author

DOLORES DEL CARMEN CASTRO and ARMANDO CICCHINO

Subjects

Phthiraptera, Gyropus, Octodontidae, Zoology, QL1-991, Botany, QK1-989

Abstract

Este trabajo tiene por finalidad otorgar status específico pleno a la subespecie Gyropus parvus elongatus Castro, Cicchino & Torres-Mura, 1987, describir la nueva especie Gyropus distinctus a partir de materiales recolectados sobre Octodon degus (Molina, 1782) y Octodon lunatus Osgood, 1943 procedentes del centro de Chile y, finalmente, ofrecer un análisis de las posibles razones de la distribución geográfica y del rango de hospedadores conocidos para estas tres especiesThe purpose of this paper is to give full specific status to the subspecies Gyropus parvus elongatus Castro, Cicchino & Torres-Mura, 1987, to describe the new species Gyropus distinctus collected in Octodon degus and O. lunatus from central Chile, along with an analysis of the possible causes than could explain their geographic and host range distributions known to date for these three species

Published

2002

28. Revision of the fossil rodent Acaremys Ameghino, 1887 (Hystricognathi, Octodontoidea, Acaremyidae) from the Miocene of Patagonia (Argentina) and the description of a new acaremyid.

Author

Arnal, M. and Vucetich, M.G.

Subjects

*FOSSIL rodents, *MIOCENE Epoch, *OLIGOCENE Epoch, *RODENT phylogeny, *OCTODONTIDAE

Abstract

Within South American rodents, the Acaremyidae is an independent fossil lineage of octodontoids represented in the late Oligocene–middle Miocene of Patagonia.Acaremysis represented by six species recorded in the early Miocene, which have not been re-studied since their original description. Morphological and phylogenetic analyses suggest thatAcaremysis paraphyletic. Three species are valid,Acaremysmurinus,Acaremysmajor, andAcaremysmessor.Acaremyskaraikensisis a junior synonym ofAcaremysmurinus. ‘Acaremys’tricarinatusis excluded from the genus being closely related toSciamys. The new species,Pseudoacaremys kramarzi, is closely related to ‘Acaremys’tricarinatusandSciamys. ‘Acaremys’preminutusis excluded from the family being closely related to the early MioceneProtacaremys prior, or living octodontoids. The phylogenetic analysis demonstrated that Acaremyidae includesPlatypittamys,Galileomys,Acaremys,PseudoacaremysandSciamys. The new acaremyid increases the diversity of extinct octodontoids and added a new evolutionary lineage within Acaremyidae. The evolutionary history of the superfamily suggests that the hypsodonty and the consequently occlusal simplification evolved twice within Octodontoidea: in Acaremyidae and in Octodontidae. In addition, the cladistic analysis confirmed that most character ambiguities are due to missing data, and hence, it is essential to find better remains to elucidate the relationships among acaremyids. [ABSTRACT FROM AUTHOR]

Published

2015

29. Sociality of Octodontomys gliroides and other octodontid rodents reflects the influence of phylogeny.

Author

Rivera, Daniela S., Abades, Sebastian, Alfaro, Fernando D., and Ebensperger, Luis A.

Subjects

*OCTODONTIDAE, *ANIMAL social behavior, *PHYLOGENY, *DEGUS, *RODENTS, *RADIO telemetry

Abstract

Multiple ecological factors are known to drive variation in social behavior. However, group-living in some species appears to be highly conserved, suggesting a phylogenetic influence. In this study, we evaluated both scenarios using intraspecific and interspecific comparisons across octodontid rodents. We first examined 2 different populations of Andean degu ( Octodontomys gliroides), representing 2 extremes of a climate vegetation gradient across the Andes range. We evaluated how ecological variation in terms of abundance and distribution of food resources, predation risk, and burrowing costs predicted interpopulation variation in group size and range-area overlap (2 proxies of sociality). We estimated these measures of sociality from livetrapping and radiotelemetry. We then used phylogenetic methods to determine whether sociality exhibits a phylogenetic signal and reconstructed the ancestral state of sociality across the family Octodontidae. Overall activity of females and males of O. gliroides was greater during nighttime than daytime. Across populations we found significant differences in ecology, including abundance and distribution of food, predation risk, and burrowing costs. However, populations were similar in terms of group size and range-area overlap. The phylogenetic approach revealed a strong and significant phylogenetic signal associated with sociality, where this behavior was present early during the evolution of octodontid rodents. Together, these findings imply that sociality of O. gliroides is not linked to current population differences in ecology. La variación en la conducta social ha sido atribuida a múltiples factores ecológicos. Sin embargo, la vida en grupo en algunas especies es un rasgo altamente conservado, sugiriendo una influencia filogenética. En este estudio, se evaluó ambos escenarios usando comparaciones intraespecíficas e interespecíficas a través de roedores octodóntidos. En primer lugar se evaluaron 2 poblaciones de degu Andino ( Octodontomys gliroides) que representan 2 extremos de un gradiente climático y de vegetación a través de la Cordillera de los Andes. Se evaluó como la variación en términos de abundancia y distribución de recursos alimenticios, riesgo de depredación, y costos asociados a cavar madrigueras podrían predecir la variación interpoblacional en tamaño de grupo y solapamiento del ámbito de hogar (2 medidas de sociabilidad). Estas medidas fueron estimadas con datos de trampeo y radiotelemetría. Además, se utilizaron métodos filogenéticos para determinar si el rasgo social presenta señal filogenética, y de esta manera reconstruir el estado ancestral de la sociabilidad a través de la familia Octodontidae. Se encontraron diferencias estadísticamente significativas entre las poblaciones en términos de ecología, incluyendo abundancia y distribución de recursos alimenticios, riesgo de depredación, costos asociados a cavar madrigueras. Sin embargo, el tamaño de grupo y solapamiento del ámbito de hogar fueron similares entre ambas poblaciones. El análisis filogenético reveló una fuerte y significativa señal filogenética asociada a la sociabilidad, y que esta conducta estuvo presente temprano en la evolución de los roedores octodóntidos. En conjunto, estos resultados implican que la vida en grupo en O. gliroides no está relacionada a las diferencias en ecología en las poblaciones actuales. [ABSTRACT FROM AUTHOR]

Published

2014

30. Activity, overlap of range areas, and sharing of resting locations in the moon-toothed degu, Octodon lunatus.

Author

SOBRERO, RAÚL, LY PRIETO, ÁLVARO, and EBENSPERGER, LUIS A.

Subjects

*ANIMAL social behavior, *DEGUS, *OCTODONTIDAE, *NEST building, *RADIO telemetry

Abstract

The evolution of sociality across octodontid rodents remains puzzling. Although basal species are solitary living, the most derived octodontids studied so far are social, implying that sociality evolved recently from solitary- living ancestors. However, the social behavior of some octodontids remains anecdotal. We aimed to provide the 1st systematic data on activity, space use, and social behavior of the moon-toothed degu (Octodon lunatus), a derived octodontid rodent. We used livetrapping and radiotelemetry to monitor patterns of aboveground activity, aboveground range areas and overlap, and use of resting locations in a coastal population in north-central Chile. Activity of O. lunatus was statistically similar during nighttime and daytime, implying no clear diurnal or nocturnal activity. During daytime the animals used resting locations that were associated with high shrub cover and Pouteria splendens. Radiocollared males and females shared resting locations on multiple occasions. There was a nonsignificant trend in degus that used same resting locations to exhibit greater range overlap than degus using different resting locations. Associations based on resting locations revealed a total of 5 social groups. Taken together, these results indicate that adult O. lunatus exhibit some sociality, a finding consistent with a trend in which group living is more frequent in the most derived compared with basal octodontids. [ABSTRACT FROM AUTHOR]

Published

2014

31. A new species of the tetraploid vizcacha rat Tympanoctomys (Caviomorpha, Octodontidae) from central Patagonia, Argentina.

Author

TETA, PABLO, PARDIÑAS, ULYSES F. J., UDRIZAR SAUTHIER, DANIEL E., and GALLARDO, MILTON H.

Subjects

*RODENTS, *CAVIOMORPHA, *OCTODONTIDAE, *SPECIES, *BIOLOGICAL extinction

Abstract

A new living species of the desert-adapted tetraploid rodent Tympanoctomys (Caviomorpha, Octodontidae) is described. The new form is restricted to the type locality in Chubut Province, central Patagonia, Argentina, although is known from at least 4 additional Holocene-aged localities along the middle and lower valley of the Chubut River. Tympanoctomys sp. nov. is smaller than the living T. barrerae, its general coloration is yellowish (reddish in T. barrerae) and its tail is equal to ~43-50% of head and body length (,~049-53% in T. barrerae). Its skull and dentition are characterized by a unique combination of morphological traits, including narrow and posteriorly acuminate nasals (broad and barrel-shaped in T. barrerae), supraoccipital not laterally expanded (expanded in T. barrerae), and 8-shaped lower 3rd molar (comma-shaped in T. barrerae and †T. cordubensis). Morphometric and genetic evidence supports the specific distinction of this Patagonian endemic Tympanoctomys, also characterized by smaller sperm than T. barrerae. The reduced range of the new species, coupled with its recent extinction from the Chubut River valley and the potential impact of large uranium mining projects in central Patagonia, suggest that this species faces a severe extinction risk in the short term. [ABSTRACT FROM AUTHOR]

Published

2014

32. Spatial and temporal taphonomic study of bone accumulations of the burrowing owl (Athene cunicularia) in central Argentina

Author

Julián Mignino, Rodrigo Leandro Tomassini, Miguel Ángel Santillán, Claudia I. Montalvo, Marta S. Kin, and Fernando J. Fernández

Subjects

MODERN ANALOGOUS, 010506 paleontology, Archeology, Taphonomy, MICROMAMMAL FOSSIL ASSEMBLAGES, Zoology, Nocturnal, 01 natural sciences, Predation, Ciencias Biológicas, STRIGIFORM, CENTRAL ARGENTINA, medicine, 0601 history and archaeology, Octodontidae, Relative species abundance, 0105 earth and related environmental sciences, Athene, 060102 archaeology, biology, 06 humanities and the arts, Zoología, Ornitología, Entomología, Etología, biology.organism_classification, BODY MASS PREY, TAPHONOMY, Skull, medicine.anatomical_structure, Mammal, CIENCIAS NATURALES Y EXACTAS

Abstract

Athene cunicularia is a very common opportunistic raptor inhabiting diverse environments of South America. It has variable hunting behavior and diet habits, feeding mostly on arthropods and nocturnal and diurnal micromammals. We evaluated taphonomically mammal bones accumulated in pellet samples produced by this raptor recovered from different areas of Central Argentina. The sum of the observed taphonomic attributes on consumed skeletal elements (digestion, relative abundance, indexes, and breakage) allow assigning this species to the category of moderate modification, but with several attributes located in a different category with respect to previous classification. This difference may be linked with the representation and body mass of prey; when the sample has larger prey (e.g. caviomorph rodents), there is a higher degree of modification in bones. Results of this evaluation were used for comparison with paleontological and archaeological sites in Argentina, where this owl was indicated as one of the possible accumulator agents. We propose that only large fossil samples allow a good evaluation of taxonomic diversity and therefore of the prey body mass representation. Here, we applied a new categorization of rodent skull breakage. Finally, this evaluation of modern samples leads to the incorporation of molariforms of Octodontidae (Rodentia) and teeth of Chiroptera in the categories of modifications by digestion. Fil: Montalvo, Claudia I.. Universidad Nacional de La Pampa; Argentina Fil: Fernández, Fernando Julián. Universidad de Buenos Aires. Facultad de Ingeniería; Argentina. Universidad Nacional de La Plata. Facultad de Ciencias Naturales y Museo; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Tomassini, Rodrigo Leandro. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Bahía Blanca. Instituto Geológico del Sur. Universidad Nacional del Sur. Departamento de Geología. Instituto Geológico del Sur; Argentina Fil: Mignino, Julian. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Córdoba. Instituto de Antropología de Córdoba. Universidad Nacional de Córdoba. Facultad de Filosofía y Humanidades. Instituto de Antropología de Córdoba; Argentina Fil: Kin, Marta Susana. Universidad Nacional de Córdoba; Argentina Fil: Santillán, Miguel Ángel. Universidad Nacional de La Pampa; Argentina

Published

2020

33. Pudicinae (Nematoda: Heligmonellidae) Parasitic in Endemic Chilean Rodents (Caviomorpha: Octodontidae and Abrocomidae): Description of a New Species and Emended Description ofPudica degusi(Babero and Cattan) n. comb

Author

María Celina Digiani, Paula Carolina Serrano, Carlos Landaeta-Aqueveque, and Juliana Notarnicola

Subjects

Male, 0301 basic medicine, Pudica cattani n. sp, Otras Ciencias Biológicas, Zoology, Rodentia, Biology, Trichostrongyloidiasis, Rodent Diseases, Ciencias Biológicas, 03 medical and health sciences, Intestine, Small, Pudica degusi n. comb, Prevalence, biology.domesticated_animal, Animals, host specificity, Helminths, Chinchilla rat, Heligmonellidae, Chile, Intestinal Diseases, Parasitic, Octodontidae, Ecology, Evolution, Behavior and Systematics, Caviomorpha, Trichostrongyloidea, Abrocoma bennettii, Anatomy, 030108 mycology & parasitology, biology.organism_classification, Octodon degus, Female, Parasitology, Taxonomy (biology), CIENCIAS NATURALES Y EXACTAS

Abstract

We report the finding of 2 species of Pudica (Nematoda: Heligmonellidae: Pudicinae) in 2 rodents endemic to Chile, the common degu Octodon degus (Octodontidae) and the Bennett's chinchilla rat Abrocoma bennettii (Abrocomidae). Pudica degusi (Babero and Cattan, 1975) n. comb., originally described as a species of Longistriata (Heligmosomidae), was found in the common degu; through the study of its synlophe, the species is reassigned to the Heligmonellidae: Pudicinae and the genus Pudica, and it is revalidated through comparison with the remaining species of the genus. Pudica cattani n. sp. is described from both O. degus and A. bennettii. It is characterized by its large body size, bursal pattern of type 1-3-1 on right lobe, 1-3-1 tending to 1-4 on left lobe, synlophe with 11 ridges including a careen, dorsal ray of the bursa dividing proximally and bursal rays 9 and 10 relatively short. Pudica degusi n. comb. and Pudica cattani n. sp. were found in the same host species but not as coparasitic in the same individuals. The common degu is confirmed as the sole and primary host of Pudica degusi n. comb. It is unlikely that it is the primary host for Pudica cattani n. sp., whose host affinities are less clear mainly due to the scarcity of data. Pudica cattani n. sp. is the first helminth reported from the Bennett's chinchilla rat. Both findings enlarge the host range of the Pudicinae to the families Octodontidae and Abrocomidae, i.e., 9 out of the 11 extant families of caviomorphs, thereby establishing the presence of this nematode subfamily as typical parasites of the Neotropical Hystricognathi. Fil: Digiani, Maria Celina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Landaeta Aqueveque, Carlos. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Serrano, Paula Carolina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Notarnicola, Juliana. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina

Published

2017

34. Ganglionar nervous cells and telocytes in the pancreas of Octodon degus: Extra and intrapancreatic ganglionar cells and telocytes in the degus.

Author

Bosco, Cleofina, Díaz, Eugenia, Gutiérrez, Rodrigo, González, Jaime, and Pérez, Johanna

Subjects

*STROMAL cells, *ENOLASE, *DEGUS, *SOMATOSTATIN, *ISLANDS of Langerhans, *ELECTRON microscopy, *OCTODONTIDAE

Abstract

Abstract: This study shows for the first time the presence of intra and extrapancreatic ganglionar neurons and telocytes in Octodon degus such as those described in human and guinea pig pancreas. Pancreatic ganglionar neurons were identified by their histological characteristics as well as their positive immunostaining with mouse anti-human neuron specific enolase (NSE) antibody. Somatostatin secreting delta cells (D cells) in the islets of Langerhans were identified by positive immunostaining with rabbit antihuman polyclonal somatostatin antibody. Electron microscopy evidenced the presence of some unmyelinated axons in the interlobular spaces or septa, usually located adjacent to blood vessels and the exocrine epithelial ducts. The presence of telocytes with at least 2 telopodes was observed in the interlobular space, frequently in close spatial relationship with blood vessels and nerve endings. Telocytes were often observed in the vicinity or even in close proximity with both secretory acini and exocrine epithelial ducts and regulatory nerves and blood vessel apparatuses. A possible framework has been put forward within which such structures might contribute to elicit physiological responses in the pancreas. Further studies of synaptic interactions within and between pancreatic neuron cells are needed to help clarify the morphological results reported here. A broad overview of the field of neurogastroenterology with focus on the pancreas of O. degus related to the enteric nervous system (ENS) is provided in order to help design future studies on the connections of specific neurons forming pancreatic pathways, their neurotransmission processes and how disruption of these pathways may contribute to pancreatic disease. [Copyright &y& Elsevier]

Published

2013

35. Geographical distribution and ecological diversification of South American octodontid rodents.

Author

Ojeda, A. A., Novillo, A., Ojeda, R. A., and Roig‐Juñent, S.

Subjects

*OCTODONTIDAE, *ZOOGEOGRAPHY, *ECOLOGICAL regions, *ARID regions

Abstract

Caviomorph rodents represent one of the most distinctive groups of mammals in southern South America drylands; they colonized South America from Africa via trans-oceanic dispersions in the Eocene (40-50 Ma) and underwent an extraordinary ecological radiation after their arrival, thus making this group of great interest for biogeographic and evolutionary studies. The aim of this article was to provide a working hypothesis regarding the biogeographical history and ecological diversification of one of its conspicuous families, the Octodontidae. We reconstruct the evolutionary theater where their ecological diversification took place, and potential events of dispersal, vicariance and extinctions. We analyzed the historical biogeography of the Octodontidae across the eight ecoregions where they occur, based on species phylogeny and divergence times. Four approaches were used to reconstruct ancestral area: (1) Statistical Dispersal- Vicariance Snalysis ( S- DIVA); (2) Bayesian binary Markov chain Monte Carlo (MCMC) analysis implemented in Reconstruct Ancestral State in Phylogenies ( RASP); (3) Fitch optimization method; and (d) weighted ancestral area analysis ( WAAA). Parsimony ancestral state reconstructions were implemented in order to explore the evolutionary history of an ecological character, mode of life. We propose the northern portion of the Monte desert ecoregion as the ancestral area in the evolution of the Octodontidae, with subsequent dispersal and enlargement of the family geographic range. The evolution of their ecological specialization (i.e. modes of life) suggests an ambiguous ancestral condition (saxicolous, generalist terrestrial, semifossorial) linked to species adaptation to arid environments, with fossoriality appearing later in octodontid evolution. The evolution of the Octodontidae is associated with contrasting environmental conditions (i.e. climate and vegetation) produced by the Andean Uplift between eastern and western sides. [ABSTRACT FROM AUTHOR]

Published

2013

36. Phylogenetic analysis and phylogeography of the tetraploid rodent Tympanoctomys barrerae ( Octodontidae): insights on its origin and the impact of Quaternary climate changes on population dynamics.

Author

Gallardo, Milton H., Suárez-Villota, Elkin Y., Nuñez, José J., Vargas, Rodrigo A., Haro, Ronie, and Köhler, Nélida

Subjects

*PHYLOGENY, *PHYLOGEOGRAPHY, *TETRAPLOIDY, *OCTODONTIDAE, *CLIMATE change, *POPULATION dynamics, *SPECIES

Abstract

The allotetraploid Tympanoctomys barrerae has a broad, patchy distribution around salt flats in western Argentina. To gain insights into its phylogenetic relationships, phylogeographical patterns, and origin, seven populations of T. barrerae and its allied taxa were studied through a 1075-bp fragment of cytochrome b and cytochrome oxidase I. Matrilineal phylogenetic relationships were explored with maximum likelihood and Bayesian approaches. The intraspecific genealogy was inferred by median-joining networks. The populational structure was assessed by molecular variance, and the demographic history through coalescence. The tree topology depicted sister-group relationship between Octomys mimax to the pair T. barrerae-Pipanacoctomys aureus, suggesting P. aureus belongs to the maternal lineage that gave rise to T. barrerae. High degrees of intrapopulational variation and the several instances of interpopulational polyphyly suggest range shifts and secondary contact. Consistent with the phylogenetic results, the network analysis revealed two haplotypic lineages depicting genetic admixtures unrelated to the current geographical distribution, and a deep split with the southernmost lineage of Chubut. The origin of T barrerae was estimated at approximately 2.52 Mya, whereas the divergence estimate for Chubut coincides with the end of largest Patagonian glaciation, at 1.47 Mya. Apparently, this population remained isolated during a northward Pleistocenic range shift. The historical demographic patterns of the lineages of T. barrerae fit with a contraction-expansion model coincident with Quaternary cycling events. © 2012 The Linnean Society of London, Biological Journal of the Linnean Society, 2012, 108, 453-469. [ABSTRACT FROM AUTHOR]

Published

2013

37. Biostratigraphy and correlation of the Monte Hermoso Formation (early Pliocene, Argentina): The evidence from caviomorph rodents

Author

Deschamps, Cecilia M., Vucetich, María Guiomar, Verzi, Diego H., and Olivares, A. Itatí

Subjects

*BIOSTRATIGRAPHY, *GEOLOGICAL formations, *BIOLOGICAL classification, *CAVIOMORPHA, *ECHIMYIDAE, *CTENOMYIDAE, *OCTODONTIDAE, *HYDROCHAERIDAE

Abstract

Abstract: The Monte Hermoso Formation (Farola Monte Hermoso, Buenos Aires Province, early Pliocene) is very important because it is the type locality of biostratigraphic units of the South American mammal bearing Pliocene. These deposits were the base for the recognition of the Montehermosan and Lower Chapadmalalan stages/ages. The correlation of this unit, especially with the Chapadmalal Formation has been debated. Over the last twenty years, major improvements have been made in the knowledge of caviomorph rodents collected in the Monte Hermoso Formation. The results include information about systematics and morphological change within lineages of the families Echimyidae (incl. Myocastoridae), Ctenomyidae, Octodontidae, and Hydrochoeridae. This information allows refinement of biostratigraphic correlation with other localities of south-eastern Buenos Aires Province. First and last records, as well as evolutionary patterns of some lineages, suggest an important change between the faunas from the Monte Hermoso Formation (including Lithostratigraphic Units I and II) and the Chapadmalal Formation, rejecting the previously suggested similarity of the upper levels of the Monte Hermoso Formation (Unit II, Lower Chapadmalalan) with those of the Chapadmalal Formation (Upper Chapadmalalan). Studies of more lineages including new revisions are necessary to test this proposal. [Copyright &y& Elsevier]

Published

2012

38. Dental evolution in Neophanomys (Rodentia, Octodontidae) from the late Miocene of central Argentina

Author

Verzi, Diego H., Vieytes, Emma C., and Montalvo, Claudia I.

Subjects

*DENTAL anthropology, *OCTODONTIDAE, *MIOCENE paleoecology, *MOLARS, *ANIMAL morphology, *HYPOTHESIS, *OUTCROPS (Geology)

Abstract

Abstract: The evolutionary pattern of the molar morphology of the small caviomorph (Octodontidae) Neophanomys from the late Miocene Cerro Azul Formation of central Argentina is analyzed. Two new species (chronomorphs) are recognized, which constitute an anagenetically evolving lineage with a gradual and directional pattern of increasing molar hypsodonty. Dental changes related to increasing hypsodonty are comparable to those of the octodontid lineage Chasichimys also recovered from the Cerro Azul Formation. However, Neophanomys shows comparatively less variation in gross morphology and there are no evidences that this lineage achieved euhypsodonty. In contrast, important changes in enamel microstructure (schmelzmuster) are observed among different populations of Neophanomys, supporting the hypothesis that these changes can occur at least partially independently from modifications in dental gross morphology. The patterns of dental evolution detected in the Neophanomys and Chasichimys-Xenodontomys lineages and the unequivocal polarity of the changes involved, related to increasing hypsodonty, reinforce the hypothesis that chronological differences exist among late Miocene outcroppings of Cerro Azul Formation in central Argentina. [Copyright &y& Elsevier]

Published

2011

39. First complete skull of an octodontoid (Rodentia, Caviomorpha) from the Early Miocene of South America and its bearing in the early evolution of Octodontoidea

Author

Arnal, Michelle and Kramarz, Alejandro G.

Subjects

*CAVIOMORPHA, *OCTODONTIDAE, *ECHIMYIDAE, *DENTAL anthropology, *SKULL, *BIOLOGICAL evolution, *MIOCENE stratigraphic geology

Abstract

Abstract: Octodontoidea is the most diverse group of caviomorph rodents. The systematics of most of the fossil representatives has been essentially based upon dental characters. Described here is an almost complete skull with dentition assigned to Prospaniomys Ameghino based upon its dental morphology. The specimen comes from the Sarmiento Formation at Pampa de Gan Gan (central Patagonia, Argentina), assigned to the Colhuehuapian SALMA (early Miocene). The most remarkable features are in the posterior portion of the skull, some of them shared with the modern octodontids and interpreted as specialized by previous authors, which contrast with the generalized dental morphology. These combined features were not previously known in other octodontoids. The comparisons with other fossil and extant members of the superfamily suggest that the characters traditionally used to associate Prospaniomys with the echimyids are very probably plesiomorphies. Prospaniomys would represent an early diverging lineage more closely related to modern octodontids than to echimyids, in which cranial structures evolved more rapidly than dental and mandibular ones. [Copyright &y& Elsevier]

Published

2011

40. Carpal-metacarpal specializations for burrowing in South American octodontoid rodents.

Author

Morgan, Cecilia C. and Verzi, Diego H.

Subjects

*ANIMAL burrowing, *CTENOMYIDAE, *OCTODONTIDAE, *ECHIMYIDAE, *ANIMAL morphology

Abstract

Among the ecomorphologically diverse Octodontoidea rodents, fossorial habits are prevalent in Ctenomyidae and Octodontidae and occur in some members of Echimyidae. To detect traits linked to scratch-digging, we analyzed morpho-structural variation in the carpus and metacarpus of 27 species of extinct and living octodontoids with epigean, fossorial and subterranean habits. Within a context of relative morphological uniformity, we detected the following specialized traits in the burrowing Clyomys (Echimyidae), Spalacopus (Octodontidae), Ctenomys and Eucelophorus (Ctenomyidae): broad shortened carpus, robust metacarpals, markedly broad and short metacarpal V, and predominance of ray III (mesaxony, incipient in Spalacopus). In addition, the specialized subterranean Ctenomys presented an enlarged scapholunar in extensive contact with the unciform, and with a complex-shaped proximal articular surface. These features are interpreted as responses to mechanical requirements of scratch-digging, providing greater carpal rigidity and resistance to direct forces exerted during the digging stroke. In Ctenomys, the radius-scapholunar joint restricts movement at wrist level. The phylogenetic distribution of traits shows that the most derived carpal and metacarpal morphologies occur among subterranean octodontoids, also possessing important craniodental adaptations, and supports the hypothesis that the acquisition of digging specializations would have been linked to increasing burrowing frequency in some lineages. Nevertheless, octodontoids with less morphological specializations have metacarpal modifications advantageous for digging, suggesting that scratch-digging specialization preceded the acquisition of tooth-digging traits, in agreement with the general claim that scratch-digging is the primary diggingstrategy in burrowing mammals. [ABSTRACT FROM AUTHOR]

Published

2011

41. Pup Growth Rates and Breeding Female Weight Changes in Two Populations of Captive Bred Degus ( Octodon degus), a Precocial Caviomorph Rodent.

Author

Long, CV and Ebensperger, LA

Subjects

*PREGNANCY in animals, *OCTODONTIDAE, *ANIMAL breeding, *INFANT weaning, *CAVIOMORPHA, *SEXUAL dimorphism in animals, *GROWTH

Abstract

Caviomorph rodents are renowned for comparatively long gestations and producing relatively precocious offspring. The degu ( Octodon degus) is one such caviomorph, originating in central Chile and providing communal pup care within wild groups. Reported are pup growth data for two populations of captive bred degus in Britain and Chile (representing wild populations), for the first time analysing pup development over the postpartum and weaning period in detail. Pups in both colonies were found to be similarly precocial at birth as assessed by open eyes and presence of full body hair. Degu pups in the British colonies put on weight at a rate of 2-3 g/day, while pups in the Chilean colonies put on weight at a rate of 1-2 g/day over the first 14 days. At birth, individual neonates weighed 5 ± 1% of maternal mass for the British sample and 6 ± 0.5% for the Chilean sample. Sexual dimorphism occurred in the weight and growth rates of pups in both samples, despite the lack of sexual dimorphism in adults of the species. Data for breeding female weight changes were also analysed, providing the first reported observations for this crucial period. Pregnant female weight gain was found to vary over the course of gestation, and post partum weight changes varied significantly between breeding females in accordance with litter size. [ABSTRACT FROM AUTHOR]

Published

2010

42. DISSOCIATION OF THE CIRCADIAN SYSTEM OF OCTODON DEGUS BY T28 AND T21 LIGHT-DARK CYCLES.

Author

Vivanco, Pablo, Otalora, Beatriz Baño, Rol, Maria Ángeles, and Madrid, Juan Antonio

Subjects

*OCTODONTIDAE, *CIRCADIAN rhythms, *BODY temperature, *NOCTURNAL animals, *TIME measurements, *DISSOCIATION (Psychology)

Abstract

Octodon degus is a primarily diurnal rodent that presents great variation in its circadian chronotypes due to the interaction between two phase angles of entrainment, diurnal and nocturnal, and the graded masking effects of environmental light and temperature. The aim of this study was to test whether the circadian system of this diurnal rodent can be internally dissociated by imposing cycles shorter and longer than 24 h, and to determine the influence of degus chronotypes and wheel-running availability on such dissociation. To this end, wheel-running activity and body temperature rhythms were studied in degus subjected to symmetrical light-dark (LD) cycles of T28h and T21h. The results show that both T-cycles dissociate the degus circadian system in two different components: one light-dependent component (LDC) that is influenced by the presence of light, and a second non–light-dependent component (NLDC) that free-runs with a period different from the external lighting cycle. The LDC was more evident in the nocturnal than diurnal chronotype, and also when wheel running was available. Our results show that, in addition to rats and mice, degus must be added to the list of species that show an internal dissociation in their circadian rhythms when exposed to forced desynchronization protocols. The existence of a multioscillatory circadian system having two groups of oscillators with low coupling strength may explain the flexibility of degus chronotypes. (Author correspondence: ) [ABSTRACT FROM AUTHOR]

Published

2010

43. INTERNAL TEMPORAL ORDER IN THE CIRCADIAN SYSTEM OF A DUAL-PHASING RODENT, THE OCTODON DEGUS.

Author

Otalora, Beatriz Baño, Vivanco, Pablo, Madariaga, Ana Maria, Madrid, Juan Antonio, and Rol, Maria Ángeles

Subjects

*OCTODONTIDAE, *HEMATOLOGICAL oncology, *BODY temperature, *CIRCADIAN rhythms, *MELATONIN, *LYMPHOCYTES

Abstract

Daily rhythms in different biochemical and hematological variables have been widely described in either diurnal or nocturnal species, but so far no studies in the rhythms of these variables have been conducted in a dual-phasing species such as the degus. The Octodon degus is a rodent that has the ability to switch from diurnal to nocturnal activity under laboratory conditions in response to wheel-running availability. This species may help us discover whether a complete temporal order inversion occurs parallel to the inversion that has been observed in this rodent's activity pattern. The aim of the present study is to determine the phase relationships among 26 variables, including behavioral, physiological, biochemical, and hematological variables, during the day and at night, in diurnal and nocturnal degus chronotypes induced under controlled laboratory conditions through the availability of wheel running. A total of 39 male degus were individually housed under a 12:12 light-dark (LD) cycle, with free wheel-running access. Wheel-running activity (WRA) and body temperature (Tb) rhythms were recorded throughout the experiment. Melatonin, hematological, and biochemical variables were determined by means of blood samples obtained every 6 h (ZT1, ZT7, ZT13, and ZT19). In spite of great differences in WRA and Tb rhythms between nocturnal and diurnal degus, no such differences were observed in the temporal patterns of most of the biological variables analyzed for the two chronotypes. Variation was only found in plasma urea level and lymphocyte number. A slight delay in the phase of the melatonin rhythm was also observed. This study shows the internal temporal order of a dual-phasing mammal does not show a complete inversion in accordance with its activity and body temperature pattern; it would appear that the switching mechanism involved in the degu's nocturnalism is located downstream from the pacemaker. (Author correspondence: ). [ABSTRACT FROM AUTHOR]

Published

2010

44. Comparative respiratory strategies of subterranean and fossorial octodontid rodents to cope with hypoxic and hypercapnic atmospheres.

Author

Tomasco, I. H., Del Río, R., Iturriaga, R., and Bozinovic, F.

Subjects

*RODENTS, *OCTODONTIDAE, *HYPOXEMIA, *ECOLOGICAL niche, *DEGUS

Abstract

Subterranean rodents construct large and complex burrows and spend most of their lives underground, while fossorial species construct simpler burrows and are more active above ground. An important constraint faced by subterranean mammals is the chronic hypoxia and hypercapnia of the burrow atmosphere. The traits, regarded as “adaptations of rodents to hypoxia and hypercapnia”, have been evaluated in only a few subterranean species. In addition, well-studied subterranean taxa are very divergent to their sister groups, making it difficult to assess the adaptive path leading to subterranean life. The closely related sister genera Octodon and Spalacopus of Neotropical rodents offer a unique opportunity to trace the evolution of physiological mechanisms. We studied the ventilatory responses of selected octodontid rodents to selective pressures imposed by the subterranean niche under the working hypothesis that life underground, in hypoxic and hypercapnic conditions, promotes convergent physiological changes. To perform this study we used the following species: Spalacopus cyanus (the subterranean coruros) and Octodon degus (the fossorial degus) from central Chile. Ventilatory tidal volume and respiratory frequency were measured in non-anaesthetized spontaneously breathing animals. Acute hypoxic challenges (O2 1–15%) and hypercapnia (CO2 10%) were induced to study respiratory strategies using non-invasive whole body pletismography techniques. Our results show that coruros have a larger ventilatory response to acute hypoxia as than degus. On the other hand, hypercapnic respiratory responses in coruros seem to be attenuated when compared to those in degus. Our results suggest that coruros and degus have different respiratory strategies to survive in the hypoxic and hypercapnic atmospheres present in their burrows. [ABSTRACT FROM AUTHOR]

Published

2010

45. Octomys mimax (Rodentia: Octodontidae).

Author

Sobrero, Raúl, Campos, Valeria E., Giannoni, Stella M., and Ebensperger, Luis A.

Subjects

*ENDEMIC animals, *RODENTS, *OCTODONTIDAE, *VEGETATION management, *WATER conservation, *ANIMAL species

Abstract

Octomys mimax O. Thomas, 1920, the viscacha rat, is a surface-dwelling rodent, endemic to the Monte biome of western Argentina. The genus Octomys is monotypic and represents a basal clade within the family Octodontidae. O. mimax is strictly herbivorous and is found in low-elevation arid environments characterized by galleries or rock formations. In these environments, O. mimax nests within rock crevices located inside ravines with relatively low vegetation cover. O. mimax is solitary and mostly nocturnal. Nocturnal activity coupled with a basal metabolic rate and thermal conductance lower than expected for body mass of O. mimax probably represent strategies for water conservation in this species. [ABSTRACT FROM AUTHOR]

Published

2010

46. Phylogeography and genetic variation in the South American rodent Tympanoctomys barrerae (Rodentia: Octodontidae).

Author

OJEDA, AGUSTINA A.

Subjects

*OCTODONTIDAE, *RODENTS, *PHYLOGEOGRAPHY, *BIOGEOGRAPHY, *ANIMAL population genetics, *MITOCHONDRIAL DNA, *RODENT population genetics

Abstract

The red viscacha rat, Tympanoctomys barrerae, is an octodontid rodent endemic to the arid west-central and southern regions of Argentina. It is solitary, lives in complex burrows built in soft soil, and occurs at low population densities in patches associated with salt basins and sand dunes in lowland habitats of the Monte and Patagonia deserts. The purpose of this study was to investigate the genetic structure and biogeography of this desert specialist. To assess genetic variation an 800-base pair fragment of the mitochondrial control region was sequenced for 60 individuals from 8 localities across the species' range. Relationships among haplotypes were inferred from phylogenetic analyses (maximum parsimony, Bayesian, and networks). Genetic structure and demographic history were analyzed with descriptive statistics, mismatch distributions, neutrality tests (Tajima's and Fu's), and analyses of molecular variance (AMOVAs). In total, 26 haplotypes were found, most restricted to single populations. The presence of unshared haplotypes was consistent with low migration rates. Within the distribution (between 29°S and 39°S) southern and northern populations showed higher genetic diversity values than central populations. Populations of T. barrerae showed moderate to high genetic differentiation on the basis of haplotypes of central populations. AMOVA analyses indicated a moderate level of geographic structure for all populations. Low haplotype and nucleotide diversities in central populations suggest a possible bottleneck associated with Pleistocene glaciations or volcanic activity in this part of the range of the viscacha rat. Phylogeographic structure was moderate, and the analyses recovered 2 principal clades: A (with central and a part of the southern distribution) and B (with northern and another part of the southern distribution). Most populations were polyphyletic, indicating that they have not been isolated long enough to reach reciprocal monophyly. Demographic analyses conducted for clades A and B suggest a recent history of population expansion. [ABSTRACT FROM AUTHOR]

Published

2010

47. NOCTURNALISM INDUCED BY SCHEDULED FEEDING IN DIURNAL OCTODON DEGUS.

Author

Vivanco, Pablo, López-Espinoza, Antonio, Madariaga, Ana Maria, Rol, Maria Ángeles, and Madrid, Juan Antonio

Subjects

*DEGUS, *RODENTS, *NOCTURNAL animals, *BODY temperature, *OCTODONTIDAE

Abstract

Octodon degus, a mainly diurnal rodent, characterized by its ability to shift to a nocturnal locomotor pattern under laboratory conditions, was studied to determine whether restricted food access during the scotophase could induce nocturnalism. To address this question, wheel running activity, feeding, and body temperature rhythms were analyzed for diurnal degus housed with a wheel and subjected to either long (12 h) or short (2 h) food availability periods, in the latter case with random or scheduled food access times. The results show that allowing nocturnal feeding for 2 h, but not 12 h, can shift a previous diurnal phase preference for wheel running activity and body temperature to the scotophase, with random feeding being more effective than scheduled food availability. However, this behavioral inversion proved to be unstable, as the degus returned to the diurnal phase within only a few days after the restricted feeding was discontinued. In addition, the negative masking effect induced by light, which is characteristic of the degus' nocturnal chronotype, was not observed when the animals were forced to feed at night. Thus, neither long, short, random, nor scheduled food-availability during the scotophase was able to induce all the characteristics of the nocturnal chronotype in Octodon degus. (Author correspondence: ) [ABSTRACT FROM AUTHOR]

Published

2010

48. Habitat selection by two sympatric rodent species in the Monte desert, Argentina. First data for Eligmodontia moreni and Octomys mimax

Author

Traba, J., Acebes, P., Campos, V.E., and Giannoni, S.M.

Subjects

*HABITATS, *HABITAT selection, *ARID regions, *ECOLOGICAL niche, *MURIDAE, *OCTODONTIDAE, *HYPOTHESIS, *CHEMICAL composition of plants

Abstract

Abstract: Habitat selection in deserts is mainly modulated by the availability of resources. The basic hypotheses regarding coexistence of species in arid environments offer two possibilities: 1) coexisting species partition available resources (each species acting as a specialist) and 2) generalists coexist with specialists because the former use habitats which are underused or not selected by the latter. This study presents the first data on macro- and microhabitat selection by Eligmodontia moreni (Cricetidae) and Octomys mimax (Octodontidae), two rodent species which coexist in the most arid part of the Monte desert of Argentina. In order to evaluate both hypotheses, animals were trapped during two seasons (humid and dry) in six macrohabitats of the arid Monte (creosote bush scrub, mesquite woodlands, columnar cactus slopes, barrens, chical and saltbush). A multivariate analysis of variance was used to evaluate differences in PCA components of microhabitat (floristic composition and vegetation structure) among capture and control points. The resulting models suggest E. moreni to be described as a fine-grained generalist species, which would be segregated from the specialist O. mimax in shared macrohabitats by resource partitioning, basically related to substrate type and vegetation cover. Our findings accord with theories of community assembly involving generalist and specialist species. [Copyright &y& Elsevier]

Published

2010

49. Effect of diet quality and soil hardness on metabolic rate in the subterranean rodent Ctenomys talarum

Author

Perissinotti, Paula P., Antenucci, C. Daniel, Zenuto, Roxana, and Luna, Facundo

Subjects

*ANIMAL feeding, *FECES, *CTENOMYS, *METABOLISM, *FOOD quality, *BODY temperature, *ANIMAL heat, *RODENT behavior, *PHYSIOLOGICAL effects of temperature

Abstract

Abstract: The present work is aimed to establish, in Ctenomys talarum, the physiological and behavioral adjustments undergone by individuals when they are allowed to dig burrows in soils with different hardness and fed with diets of different quality. For each soil–diet combination, we estimated: resting metabolic rate (RMR), body temperature (T b), body mass, digestibility, food consumption rate, transit time, reingestion rate, feces production and time devoted to feeding, resting, locomotor activity and coprophagy. Soil type and diet quality affected RMR, but response to soil hardness was verified later. Animals fed with high quality (HQ) diet showed similar body temperature irrespective of soil condition, while animals fed with low quality (LQ) diet showed lower T b under soft soil (SS). Individuals fed with LQ diet showed lower RMR and both, lower digestibility and high transit time of food than those fed with HQ diet. Moreover, increments in feeding and defecation rates were observed in the former group. Number of reingested feces did not differ between animals fed with diets of different quality. However, when incidence of reingestion was considered, animals fed with HQ diet showed higher values of feces ingestion. Either feeding, resting and activity patterns were arrhythmic. However, for animals fed with LQ diet a tendency to rhythmic coprophagy was observed and it could be considered as a way to optimize feeding. This study shows that RMR is limited by digestive efficiency which is influenced by diet quality, but also thermal stress may limit the conversion of assimilated energy into work and heat. [Copyright &y& Elsevier]

Published

2009

50. Flight initiation distance is differentially sensitive to the costs of staying and leaving food patches in a small-mammal prey.

Author

Lagos, Patricio A., Meier, Andrea, Tolhuysen, Liliana Ortiz, Castro, Rodrigo A., Bozinovic, Francisco, and Ebensperger, Luis A.

Subjects

*PREY availability, *PREDATORY animals, *DEGUS, *ANIMAL feeding behavior, *RODENTS, *ECOLOGY of predatory animals, *MAMMALS, *OCTODONTIDAE, *ANIMAL behavior

Abstract

Escape theory predicts that a prey should flee from an approaching predator at a point in which the cost of staying equals the cost of escape. We manipulated the cost of fleeing upon approaching human predators by providing the small mammal Octodon degus (Molina, 1782) with varying amounts of supplementary food likely to disappear while the animals are not in the food patch (e.g., hidden in their burrows). Simultaneously, we manipulated the risk of remaining in the patch by providing supplementary food at varying distances from the nearest burrow. Degus fled at a shorter distance to approaching predators when foraging in patches closer to the nearest burrow and supplied with relatively high abundance of food, but only when these rodents were foraging socially. Also, degus fled at a greater distance to approaching predators when foraging in patches far from the nearest burrow. Thus, functions linked to the loss of feeding opportunities and the risk of predation interact to influence flight initiation distance after a simulated attack. This study represented one of the few demonstrations of an interactive effect between cost and risks on antipredator behavior in a small, social prey mammal. [ABSTRACT FROM AUTHOR]

Published

2009