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Journal articles on the topic 'Carnivora Carnivora Carnivora Carnivora'

Author: Grafiati
Published: 4 June 2021
Last updated: 5 February 2022

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1

Fox, Richard C., Craig S. Scott, and Brian D. Rankin. "New early carnivoran specimens from the Puercan (Earliest Paleocene) of Saskatchewan, Canada." Journal of Paleontology 84, no. 6 (2010): 1035–39. http://dx.doi.org/10.1666/09-165.1.

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New specimens of an as yet unidentified carnivoran from the earliest Paleocene of Saskatchewan are described. The new specimens augment the evidence on which the contentious earliest (middle Puercan) occurrence of Carnivora is based, provide novel information of the lower dentition of the earliest carnivorans, and provides evidence for the earliest taxonomic diversity in Carnivora.
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2

Asahara, Masakazu, Kazuyuki Saito, Takushi Kishida, Katsu Takahashi, and Kazuhisa Bessho. "Unique pattern of dietary adaptation in the dentition of Carnivora: its advantage and developmental origin." Proceedings of the Royal Society B: Biological Sciences 283, no. 1832 (2016): 20160375. http://dx.doi.org/10.1098/rspb.2016.0375.

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Carnivora is a successful taxon in terms of dietary diversity. We investigated the dietary adaptations of carnivoran dentition and the developmental background of their dental diversity, which may have contributed to the success of the lineage. A developmental model was tested and extended to explain the unique variability and exceptional phenotypes observed in carnivoran dentition. Carnivorous mammalian orders exhibited two distinct patterns of dietary adaptation in molars and only Carnivora evolved novel variability, exhibiting a high correlation between relative molar size and the shape of
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3

Ladyfandela, Nindy, Wilson Novarino, and Jabang Nurdin. "Jenis-Jenis Carnivora di Kawasan Suaka Alam Malampah, Sumatera Barat, Indonesia." JURNAL BIOLOGI UNAND 6, no. 2 (2018): 90. http://dx.doi.org/10.25077/jbioua.6.2.90-97.2018.

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An inventory of Carnivore species in Malampah Nature Reserve, West Sumatra had been conducted between Mei-August 2016. After a total of 303 trap nights, this study documented 19 species of mammals from 3 families of which 6 species from Carnivora. The documented carnivores were Catopuma temminckii (17 photos), Neofelis diardi (5 photos), Pardofelis marmorata (2 photos), Helarctos malayanus (3 photos), Paguma larvata (5 photos), and Prionodon linsang (1 photo). The finding on Carnivore was then discussed to highlight their implications for conservation.
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4

Koper, L., I. A. Koretsky, and S. J. Rahmat. "Can You Hear Me Now? A Comparative Survey of Pinniped Auditory Apparatus Morphology." Zoodiversity 55, no. 1 (2021): 63–86. http://dx.doi.org/10.15407/zoo2021.01.063.

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Over the past century research on the morphology of the auditory apparatuses of pinnipeds, which include Phocidae (true seals), Otariidae (sea lions and fur seals), and Odobenidae (walruses) is extremely limited, in comparison to other Carnivora. Although, the auditory region and surrounding basicrania are areas that are evolutionarily conservative, most literature is unclear due to mixed terminology, inaccurate information, and indistinct, outdated illustrations. Th e lack of adequate and current studies demonstrates the need for compiling morphological information of the auditory region of m
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5

PUSEY, A. E. "The Carnivora: Carnivore Behavior, Ecology, and Evolution." Science 245, no. 4925 (1989): 1515. http://dx.doi.org/10.1126/science.245.4925.1515.

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6

Werdelin, Lars. "Jaw geometry and molar morphology in marsupial carnivores: analysis of a constraint and its macroevolutionary consequences." Paleobiology 13, no. 3 (1987): 342–50. http://dx.doi.org/10.1017/s0094837300008915.

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In both jaw geometry and molar morphology, eutherian carnivores (order Carnivora) as a whole display greater diversity (plasticity in evolution from the primitive type) than marsupial carnivores (order Dasyurida). This is related to the difference in tooth replacement between the two taxa. In Carnivora, the permanent carnassial is preceded by a deciduous carnassial; the permanent tooth can erupt in its (geometrically) permanent position, and the post-carnassial molars are free to evolve for specialized functions or be reduced. In Dasyurida, there is relative molar progression, each erupting mo
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7

Flynn, John J. "Rates of evolution in the Carnivora (Mammalia): the importance of phylogeny and fossils." Paleontological Society Special Publications 6 (1992): 100. http://dx.doi.org/10.1017/s2475262200006602.

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Calculations of “rates of evolution” have been applied to a variety of indicators of change within populations, species, or higher taxa. This has led to confusion about taxonomic and temporal scaling, particularly when rates are calculated for supposedly “equivalent” taxonomic ranks, or “higher-level” taxa that are not monophyletic groups. All calculations of rates of evolutionary change require accurate temporal calibration. Even in studies of molecular evolution that assume a “molecular clock”, the rate at which any clock ticks must be calibrated empirically by fossil data on the age of dive
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8

Wolf, Christopher, Matthew G. Betts, Taal Levi, Thomas M. Newsome, and William J. Ripple. "Large species within carnivora are large carnivores." Royal Society Open Science 5, no. 9 (2018): 181228. http://dx.doi.org/10.1098/rsos.181228.

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9

Goswami, Anjali, Nick Milne, and Stephen Wroe. "Biting through constraints: cranial morphology, disparity and convergence across living and fossil carnivorous mammals." Proceedings of the Royal Society B: Biological Sciences 278, no. 1713 (2010): 1831–39. http://dx.doi.org/10.1098/rspb.2010.2031.

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Carnivory has evolved independently several times in eutherian (including placental) and metatherian (including marsupial) mammals. We used geometric morphometrics to assess convergences associated with the evolution of carnivory across a broad suite of mammals, including the eutherian clades Carnivora and Creodonta and the metatherian clades Thylacoleonidae, Dasyuromorphia, Didelphidae and Borhyaenoidea. We further quantified cranial disparity across eutherians and metatherians to test the hypothesis that the marsupial mode of reproduction has constrained their morphological evolution. This s
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10

Lyras, George A., Aggeliki Giannakopoulou, Miranda Kouvari, and Georgios C. Papadopoulos. "Evolution of Gyrification in Carnivores." Brain, Behavior and Evolution 88, no. 3-4 (2016): 187–203. http://dx.doi.org/10.1159/000453104.

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The order Carnivora is a large and highly diverse mammalian group with a long and well-documented evolutionary history. Nevertheless, our knowledge on the degree of cortical folding (or degree of gyrification) is limited to just a few species. Here we investigate the degree of cortical folding in 64 contemporary and 37 fossil carnivore species. We do so by measuring the length of gyri impressions on endocranial casts. We use this approach because we have found that there is a very good correlation between the degree of cortical folding and the relative length of the gyri that are exposed on th
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11

Peigné, Stéphane. "Carnivora." Geodiversitas 38, no. 2 (2016): 197–224. http://dx.doi.org/10.5252/g2016n2a4.

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12

Koufos, George D. "Carnivora." Geobios 49, no. 1-2 (2016): 53–67. http://dx.doi.org/10.1016/j.geobios.2016.01.013.

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13

Sidorovich, A. A. "Road Mortality of Carnivores (Mammalia, Carnivora) in Belarus." Zoodiversity 54, no. 3 (2020): 211–20. http://dx.doi.org/10.15407/zoo2020.03.211.

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14

Petrucci, Mauro, Alessia Cipullo, Bienvenido Martínez-Navarro, Lorenzo Rook, and Raffaele Sardella. "The Late Villafranchian (Early Pleistocene) carnivores (Carnivora, Mammalia) from Pirro Nord (Italy)." Palaeontographica Abteilung A 298, no. 1-6 (2013): 113–45. http://dx.doi.org/10.1127/pala/298/2013/113.

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15

Iwaniuk, Andrew N., Sergio M. Pellis, and Ian Q. Whishaw. "Are long digits correlated with high forepaw dexterity? A comparative test in terrestrial carnivores (Carnivora)." Canadian Journal of Zoology 79, no. 5 (2001): 900–906. http://dx.doi.org/10.1139/z01-058.

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The relationship between manus proportions and forepaw dexterity in 33 species of carnivores (Carnivora) was examined. Both the analysis of "raw" data and independent contrasts revealed no significant correlation between the metacarpal–phalanx (MCP) ratio and forepaw dexterity. This result was corroborated by a common origins test, which indicated that changes in the MCP ratio were not coincident with changes in forepaw dexterity throughout carnivore evolution. Together, these results suggest that the morphological basis for variations in manipulative behaviour may be quite complex. Other morp
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16

Liow, Lee Hsiang, and John A. Finarelli. "A dynamic global equilibrium in carnivoran diversification over 20 million years." Proceedings of the Royal Society B: Biological Sciences 281, no. 1778 (2014): 20132312. http://dx.doi.org/10.1098/rspb.2013.2312.

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The ecological and evolutionary processes leading to present-day biological diversity can be inferred by reconstructing the phylogeny of living organisms, and then modelling potential processes that could have produced this genealogy. A more direct approach is to estimate past processes from the fossil record. The Carnivora (Mammalia) has both substantial extant species richness and a rich fossil record. We compiled species-level data for over 10 000 fossil occurrences of nearly 1400 carnivoran species. Using this compilation, we estimated extinction, speciation and net diversification for car
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17

Puig-Gironès, Roger, and Pere Pons. "Mice and Habitat Complexity Attract Carnivorans to Recently Burnt Forests." Forests 11, no. 8 (2020): 855. http://dx.doi.org/10.3390/f11080855.

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Faunal responses to wildfire depend on the fire effects on direct mortality, habitat structure, and resource availability for animals. Despite the importance of large predators in terrestrial trophic webs, little is still known about how fire affects carnivorans (the mammalian order Carnivora). To evaluate the responses of the carnivoran community to fire, we studied three recently burnt forest areas in the western Mediterranean basin. Line transects were used to quantify evidence of carnivorans (mainly feces) and to measure environmental variables and resources (small mammal abundance, fleshy
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18

Werdelin, L. "Comparison of Skull Shape in Marsupial and Placental Carnivores." Australian Journal of Zoology 34, no. 2 (1986): 109. http://dx.doi.org/10.1071/zo9860109.

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A set of 11 measurements on 40 species of placental (Order Carnivora) and marsupial (Order Dasyurida) carnivores is analysed by means of correspondence analysis. Dasyurida have long mandibles and tooth rows, large muscle attachment areas on the mandible, long moment arms of the temporalis and masseter, and a low occiput and short temporal fossa. Skull shape is uniform in Dasyurida, with about the same variability as in a family of Carnivora. The temporalis of Dasyurida is relatively small, but this may be compensated for by the more rounded shape and longer moment arm. The Tasmanian tiger, Thy
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19

Millán, Javier, and Daniel J. Becker. "Patterns of Exposure and Infection with Microparasites in Iberian Wild Carnivores: A Review and Meta-Analysis." Animals 11, no. 9 (2021): 2708. http://dx.doi.org/10.3390/ani11092708.

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We use a suite of meta-analytic and comparative methods to derive fundamental insights into how sampling effort, pathogen richness, infection prevalence, and seroprevalence vary across Carnivora taxa and Iberian geography. The red fox was the most studied species, the wolf and Iberian lynx were disproportionally studied, and the Arctoidea were understudied. Sampling effort was higher in Mediterranean areas, but central Spain showed the higher pathogen richness. Excluding studies analyzing fecal samples, 53 different pathogens have been detected in Iberian carnivores, including 16 viruses, 27 b
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20

RODRIGUES, SHIRLLEY, LEONARDO S. AVILLA, LEOPOLDO H. SOIBELZON, and CAMILA BERNARDES. "Late Pleistocene carnivores (Carnivora: Mammalia) from a cave sedimentary deposit in northern Brazil." Anais da Academia Brasileira de Ciências 86, no. 4 (2014): 1641–55. http://dx.doi.org/10.1590/0001-3765201420140314.

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The Brazilian Quaternary terrestrial Carnivora are represented by the following families: Canidae, Felidae, Ursidae, Procyonidae Mephitidae and Mustelidae. Their recent evolutionary history in South America is associated with the uplift of the Panamanian Isthmus, and which enabled the Great American Biotic Interchange (GABI). Here we present new fossil records of Carnivora found in a cave in Aurora do Tocantins, Tocantins, northern Brazil. A stratigraphical controlled collection in the sedimentary deposit of the studied cave revealed a fossiliferous level where the following Carnivora taxa wer
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21

Bryant, Harold N. "The Carnivora of the Lac Pelletier Lower Fauna (Eocene: Duchesnean), Cypress Hills Formation, Saskatchewan." Journal of Paleontology 66, no. 5 (1992): 847–55. http://dx.doi.org/10.1017/s0022336000020850.

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The Duchesnean Lac Pelletier Lower Fauna, Cypress Hills Formation, Saskatchewan, includes 15 isolated teeth that are referred to the Carnivora (Mammalia). The fauna includes Miocyon magnus n. sp., Daphoenus cf. D. demilo, Hesperocyon sp., and indeterminate taxa; no members of the Creodonta were identified. This is the latest record of Miocyon and the earliest record of Hesperocyon. The fauna is transitional between Uintan carnivoran faunas that were dominated by miacids and the establishment in the early Chadronian of the White River carnivoran chronofauna, and suggests that the transition, wh
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22

Gunnell, Gregg F., Philip D. Gingerich, Michele E. Morgan, and Mary Maas. "Comparative paleoecology of Paleogene and Neogene mammalian faunas: guild structure and diversity." Paleontological Society Special Publications 6 (1992): 115. http://dx.doi.org/10.1017/s2475262200006754.

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We examined guild structure and diversity in the mammalian biota of the Paleogene of Wyoming and Montana and the Neogene of Pakistan. Trophic structure was measured as frequency of generic diversity in each of the following trophic categories: insectivore, omnivore, frugivore, herbivore, and carnivore. Trophic categories were inferred from dental morphology.Results are summarized below (see graphs). In Wyoming/Montana, the Paleocene is dominated by herbivores (from the orders Condylarthra, Multituberculata, and Pantodonta) and insectivores (“Proteutheria” and Proprimates). In the early Eocene,
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23

Christiansen, Per, and Jan S. Adolfssen. "Bite forces, canine strength and skull allometry in carnivores (Mammalia, Carnivora)." Journal of Zoology 266, no. 2 (2005): 133–51. http://dx.doi.org/10.1017/s0952836905006643.

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24

Amr, Zuhair S., Guy Kalishaw, Mohamed Yosef, Bryan J. Chilcot, and Adnan Al-Budari. "Carnivores of Dana Nature Reserve (Carnivora: Canidae, Hyaenidae and Felidae), Jordan." Zoology in the Middle East 13, no. 1 (1996): 5–16. http://dx.doi.org/10.1080/09397140.1996.10637701.

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25

Medvedev, S. G., and I. V. Seryodkin. "Fleas (Siphonaptera) of Carnivores (Mammalia, Carnivora) of the Russian Far East." Entomological Review 99, no. 1 (2019): 70–77. http://dx.doi.org/10.1134/s001387381901010x.

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26

Hassanin, Alexandre, Géraldine Veron, Anne Ropiquet, et al. "Evolutionary history of Carnivora (Mammalia, Laurasiatheria) inferred from mitochondrial genomes." PLOS ONE 16, no. 2 (2021): e0240770. http://dx.doi.org/10.1371/journal.pone.0240770.

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The order Carnivora, which currently includes 296 species classified into 16 families, is distributed across all continents. The phylogeny and the timing of diversification of members of the order are still a matter of debate. Here, complete mitochondrial genomes were analysed to reconstruct the phylogenetic relationships and to estimate divergence times among species of Carnivora. We assembled 51 new mitogenomes from 13 families, and aligned them with available mitogenomes by selecting only those showing more than 1% of nucleotide divergence and excluding those suspected to be of low-quality
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27

Barcénas, Horacio V., Yamel Rubio–Rocha, Edith Nájera–Solís, Leonardo J. López Damían, and Rodrigo Medellín Legorreta. "Ampliación de la distribución de tres carnívoros en el noroeste de México." Revista Mexicana de Mastozoología (Nueva Epoca) 13, no. 1 (2009): 115. http://dx.doi.org/10.22201/ie.20074484e.2009.13.1.41.

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Abstract: We report new localities in 2006 and 2008 for three carnivore species from sarcocaule and microphythic desert scrub at the Sierra Seri, Sonora and from croplands Norwest Coastal Plains region, Sinaloa, extending their known distribution ranges. Species were identified through visual recognition of pictures. The presence of these species can be explained by two different mutually exclusive hypotheses: first, that the species has been historically present and were not recorded earlier; and second, that these species have just recently dispersed into the coastal zone. We strongly suppor
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Crooks, Kevin R., Christopher L. Burdett, David M. Theobald, Carlo Rondinini, and Luigi Boitani. "Global patterns of fragmentation and connectivity of mammalian carnivore habitat." Philosophical Transactions of the Royal Society B: Biological Sciences 366, no. 1578 (2011): 2642–51. http://dx.doi.org/10.1098/rstb.2011.0120.

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Although mammalian carnivores are vulnerable to habitat fragmentation and require landscape connectivity, their global patterns of fragmentation and connectivity have not been examined. We use recently developed high-resolution habitat suitability models to conduct comparative analyses and to identify global hotspots of fragmentation and connectivity for the world's terrestrial carnivores. Species with less fragmentation (i.e. more interior high-quality habitat) had larger geographical ranges, a greater proportion of habitat within their range, greater habitat connectivity and a lower risk of
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29

Bonis, Louis de. "New genus of amphicyonid carnivoran (Mammalia, Carnivora, Amphicyonidae) from the phosphorites of Quercy (France)." Fossil Imprint 76, no. 1 (2020): 201–8. http://dx.doi.org/10.37520/fi.2020.013.

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An isolated mandible of Carnivora (Mammalia) from the phosphorites of Quercy (France) is described as a new genus. It is compared with the amphicyonid genus Cynodictis, some primitive North American amphicyonids, and with European and North American Eocene carnivoraforms. I conclude that it is a primitive amphicyonid which may be dated to the middle or late Eocene.
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Rocha-Mendes, Fabiana, Sandra Bos Mikich, Juliana Quadros, and Wagner André Pedro. "Feeding ecology of carnivores (Mammalia, Carnivora) in Atlantic Forest remnants, Southern Brazil." Biota Neotropica 10, no. 4 (2010): 21–30. http://dx.doi.org/10.1590/s1676-06032010000400001.

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The diet of some sympatric carnivore species in three Atlantic Forest remnants of Southern Brazil was studied in order to assess their food niche. We conducted monthly field trips between February 2003 and January 2004 to collect fecal samples that were subsequently examined together with others collected sporadically between November 1994 and January 2003. Of the 416 samples analysed, 198 had the "author" species identified through microscopic analysis guard hairs, which revealed the presence of 10 carnivores and some information about their diet. Puma yagouaroundi had the largest dietary nic
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Aloufi, Abdulhadi A., and Zuhair S. Amr. "Carnivores of the Tabuk Province, Saudi Arabia (Carnivora: Canidae, Felidae, Hyaenidae, Mustelidae)." Lynx new series 49, no. 1 (2018): 77–90. http://dx.doi.org/10.2478/lynx-2018-0010.

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Between 2010 and 2017, records of carnivores in the Tabuk Province were gathered using camera traps, live traps and direct observations. Altogether seven species of carnivores representing four families were recorded: two felines, Felis margarita and Panthera pardus nimr, a hyaenid, Hyaena hyaena, a mustelid, Mellivora capensis and three canids, Canis lupus, Vulpes cana and Vulpes vulpes. For each species, a list of localities is given and its current distribution is described. Unfortunately, many of the reported specimens were killed by hunters or local people. Major threats to carnivores in
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Kosintsev, P. A., V. V. Gasilin, D. O. Gimranov, and O. P. Bachura. "Carnivores (Mammalia, Carnivora) of the Urals in the Late Pleistocene and Holocene." Quaternary International 420 (October 2016): 145–55. http://dx.doi.org/10.1016/j.quaint.2015.10.089.

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Iwaniuk, Andrew N., Sergio M. Pellis, and Ian Q. Whishaw. "The relationship between forelimb morphology and behaviour in North American carnivores (Carnivora)." Canadian Journal of Zoology 77, no. 7 (1999): 1064–74. http://dx.doi.org/10.1139/z99-082.

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We tested the validity of previously described relationships between forelimb structure and behaviour in mammals by measuring the forelimbs of 22 species of North American carnivores. Nine ratios were calculated from these measurements and made independent of the effects of allometry and phylogeny through the use of log-transformed regressions and independent contrasts analysis. The ratios were then directly compared with two behavioural traits: arboreal locomotion and vertebrate predation. Only five of the nine ratios exhibited a significant relationship with arboreal locomotion and three wit
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Lucherini, Mauro, and Estela M. Luengos Vidal. "Lycalopex Gymnocercus (Carnivora: Canidae)." Mammalian Species 820, no. 1 (2008): 1. http://dx.doi.org/10.1644/820.1.

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Clark, Howard O., Darren P. Newman, James D. Murdoch, Jack Tseng, Zhenghuan H. Wang, and Richard B. Harris. "Vulpes Ferrilata (Carnivora: Canidae)." Mammalian Species 821 (October 9, 2008): 1–6. http://dx.doi.org/10.1644/821.1.

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Prange, Suzanne, and Timothy J. Prange. "Bassaricyon gabbii (Carnivora: Procyonidae)." Mammalian Species 826 (February 26, 2009): 1–7. http://dx.doi.org/10.1644/826.1.

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Dragoo, Jerry W., and Steven R. Sheffield. "Conepatus leuconotus (Carnivora: Mephitidae)." Mammalian Species 827 (February 26, 2009): 1–8. http://dx.doi.org/10.1644/827.1.

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Clark, Howard O., James D. Murdoch, Darren P. Newman, and Claudio Sillero-Zubiri. "Vulpes corsac (Carnivora: Canidae)." Mammalian Species 832 (May 27, 2009): 1–8. http://dx.doi.org/10.1644/832.1.

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Dalponte, Julio C. "Lycalopex vetulus (Carnivora: Canidae)." Mammalian Species 847 (November 25, 2009): 1–7. http://dx.doi.org/10.1644/847.1.

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Cossíos, E. Daniel. "Lycalopex sechurae (Carnivora: Canidae)." Mammalian Species 42 (January 25, 2010): 1–6. http://dx.doi.org/10.1644/848.1.

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Monakhov, Vladimir G. "Martes zibellina (Carnivora: Mustelidae)." Mammalian Species 43 (January 21, 2011): 75–86. http://dx.doi.org/10.1644/876.1.

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de Villa-Meza, Alejandra, Rafael Avila-Flores, Alfredo D. Cuarón, and David Valenzuela-Galván. "Procyon pygmaeus (Carnivora: Procyonidae)." Mammalian Species 43 (January 21, 2011): 87–93. http://dx.doi.org/10.1644/877.1.

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Barstow, Anita L., and David M. Leslie. "Leopardus braccatus (Carnivora: Felidae)." Mammalian Species 44 (January 25, 2012): 16–25. http://dx.doi.org/10.1644/891.1.

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Stein, Andrew B., and Virginia Hayssen. "Panthera pardus(Carnivora: Felidae)." Mammalian Species 900 (June 12, 2013): 30–48. http://dx.doi.org/10.1644/900.1.

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Chaves, Héctor E. Ramírez, and Bruce D. Patterson. "Mustela felipei(Carnivora: Mustelidae)." Mammalian Species 906 (August 8, 2014): 11–15. http://dx.doi.org/10.1644/906.

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Ramírez-Chaves, Héctor E., Heidi Liliana Arango-Guerra, and Bruce D. Patterson. "Mustela africana(Carnivora: Mustelidae)." Mammalian Species 917 (December 18, 2014): 110–15. http://dx.doi.org/10.1644/917.1.

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Veals, Amanda M., Alexandra D. Burnett, Marina Morandini, Marine Drouilly, and John L. Koprowski. "Caracal caracal (Carnivora: Felidae)." Mammalian Species 52, no. 993 (2020): 71–85. http://dx.doi.org/10.1093/mspecies/seaa006.

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Abstract Caracal caracal (Schreber, 1776) is a felid commonly called the caracal. It is a slender, medium-sized cat (5.8–22 kg) characterized by a short tail and long ear tufts. C. caracal has a wide distribution and is found throughout Africa, north to the Arabian Peninsula, the Middle East, central and southwest Asia into India; its habitat includes arid woodlands, savanna, scrublands, hilly steppes, and arid mountainous regions. It is globally listed by the International Union for Conservation of Nature and Natural Resources as “Least Concern” despite population trends unknown across most o
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48

Cole, F. Russell, and Don E. Wilson. "Felis margarita(Carnivora: Felidae)." Mammalian Species 47, no. 924 (2015): 63–77. http://dx.doi.org/10.1093/mspecies/sev007.

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49

Renard, Aurélie, Maxime Lavoie, Justin A. Pitt, and Serge Larivière. "Felis nigripes(Carnivora: Felidae)." Mammalian Species 47, no. 925 (2015): 78–83. http://dx.doi.org/10.1093/mspecies/sev008.

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50

Hung, Nancy, and Chris J. Law. "Lutra lutra(Carnivora: Mustelidae)." Mammalian Species 48, no. 940 (2016): 109–22. http://dx.doi.org/10.1093/mspecies/sew011.

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