Locomotion and postures of the Vietnamese pygmy dormouse Typhlomys chapensis (Platacanthomyidae, Rodentia): climbing and leaping in the blind

[1]  S. Gursky Echolocation in a Nocturnal Primate? , 2019, Folia Primatologica.

[2]  V. Grinkov,et al.  Character displacement within the breeding area questions reinforcement in Ficedula flycatchers , 2019, bioRxiv.

[3]  I. Volodin,et al.  Ultrasonic bouts of a blind climbing rodent (Typhlomys chapensis): acoustic analysis , 2018, Bioacoustics.

[4]  Guidelines for the treatment of animals in behavioural research and teaching , 2018, Animal Behaviour.

[5]  Lasse Jakobsen,et al.  Auditory opportunity and visual constraint enabled the evolution of echolocation in bats , 2018, Nature Communications.

[6]  R. Adams,et al.  Megachiropteran bats profoundly unique from microchiropterans in climbing and walking locomotion: Evolutionary implications , 2017, PloS one.

[7]  Xuelong Jiang,et al.  Phylogeny and systematic revision of the genus Typhlomys (Rodentia, Platacanthomyidae), with description of a new species , 2017, Journal of Mammalogy.

[8]  H. Witte,et al.  Kinematic response in limb and body posture to sensory feedback from carpal sinus hairs in the rat (Rattus norvegicus). , 2017, Zoology.

[9]  I. Volodin,et al.  A blind climber: The first evidence of ultrasonic echolocation in arboreal mammals. , 2017, Integrative zoology.

[10]  T. Prescott,et al.  Whisker touch guides canopy exploration in a nocturnal, arboreal rodent, the Hazel dormouse (Muscardinus avellanarius) , 2017, Journal of Comparative Physiology A.

[11]  M. Julião,et al.  Climbing , 2016, Palliative and Supportive Care.

[12]  R. Adams,et al.  Integrating Ontogeny of Echolocation and Locomotion Gives Unique Insights into the Origin of Bats , 2016, Journal of Mammalian Evolution.

[13]  M. Harada,et al.  The nearly complete mitochondrial genome of Chinese pygmy dormouse Typhlomys cinereus (Rodentia: Platacanthomyidae) , 2016, Mitochondrial DNA. Part B, Resources.

[14]  C. Byron,et al.  Pedal grasping in an arboreal rodent relates to above-branch behavior on slender substrates , 2015 .

[15]  R. Adams,et al.  Postnatal ontogeny of the cochlea and flight ability in Jamaican fruit bats (Phyllostomidae) with implications for the evolution of echolocation , 2015, Journal of anatomy.

[16]  A. Kuznetsov,et al.  Flight of Mammals: From Terrestrial Limbs to Wings , 2015, Springer International Publishing.

[17]  Hartmut Witte,et al.  The role of vibrissal sensing in forelimb position control during travelling locomotion in the rat (Rattus norvegicus, Rodentia). , 2015, Zoology.

[18]  M. Springer,et al.  Eyes underground: regression of visual protein networks in subterranean mammals. , 2014, Molecular phylogenetics and evolution.

[19]  V. Rozhnov,et al.  An enigmatic pygmy dormouse: molecular and morphological evidence for the species taxonomic status of Typhlomys chapensis (Rodentia: Platacanthomyidae) , 2014, Zoological Studies.

[20]  D. Youlatos,et al.  Habitual Bark Gleaning by Cambodian Striped Squirrels Tamiops rodolphii (Rodentia: Sciuridae) in Cat Tien National Park, South Vietnam , 2014 .

[21]  E. Stupka,et al.  Phylogenomic Analyses Elucidate the Evolutionary Relationships of Bats , 2013, Current Biology.

[22]  Gareth Jones,et al.  From the ultrasonic to the infrared: molecular evolution and the sensory biology of bats , 2013, Front. Physiol..

[23]  Andrea L. Cirranello,et al.  The Placental Mammal Ancestor and the Post–K-Pg Radiation of Placentals , 2013, Science.

[24]  Kenneth C Catania,et al.  Stereo and serial sniffing guide navigation to an odour source in a mammal , 2013, Nature Communications.

[25]  D. Youlatos,et al.  Positional behavior and substrate use of Micromys minutus (Rodentia: Muridae): insights for understanding primate origins. , 2013, Journal of human evolution.

[26]  M. Harada,et al.  First record of Typhlomys cinereus in Guangdong Province , 2013 .

[27]  David Kleinfeld,et al.  Sniffing and whisking in rodents , 2012, Current Opinion in Neurobiology.

[28]  E. Teeling,et al.  Evolutionary History of Bats: Phylogenies, fossils and functional genes: the evolution of echolocation in bats , 2012 .

[29]  Gregg F. Gunnell,et al.  Evolutionary History of Bats: Fossils, Molecules and Morphology , 2012 .

[30]  D. Youlatos Substrate Use and Locomotor Modes of the Neotropical Pygmy Squirrel Sciurillus pusillus ( E . Geoffroy , 1803 ) in French Guyana , 2011 .

[31]  S. Jansa,et al.  The Phylogenetic Position of the Rodent Genus Typhlomys and the Geographic Origin of Muroidea , 2009 .

[32]  P. Narins,et al.  Seismic sensitivity and communication in subterranean mammals , 2009 .

[33]  Daniel Schmitt,et al.  The Energetic Cost of Climbing in Primates , 2008, Science.

[34]  R. Baker,et al.  Squirrels: the animal answer guide , 2007 .

[35]  William I. Sellers,et al.  A Consideration of Leaping Locomotion as a Means of Predator Avoidance in Prosimian Primates , 2007 .

[36]  Gareth Jones,et al.  The evolution of echolocation in bats. , 2006, Trends in ecology & evolution.

[37]  Moshe Reshef,et al.  Evidence for the use of reflected self-generated seismic waves for spatial orientation in a blind subterranean mammal , 2005, Journal of Experimental Biology.

[38]  Howard C Howland,et al.  The allometry and scaling of the size of vertebrate eyes , 2004, Vision Research.

[39]  J. Jacobs,et al.  Quantitative measurement of food selection , 1974, Oecologia.

[40]  M. Fischer,et al.  Basic limb kinematics of small therian mammals. , 2002, The Journal of experimental biology.

[41]  J. Fleagle,et al.  Takeoff and landing forces of leaping strepsirhine primates. , 1999, Journal of human evolution.

[42]  D. Youlatos,et al.  Locomotor and postural behavior of Sciurus igniventris and Microsciurus flaviventer (Rodentia, Sciuridae) in eastern Ecuador , 1999 .

[43]  H. Preuschoft,et al.  Size Dependence in Prosimian Locomotion and Its Implications for the Distribution of Body Mass , 1998, Folia Primatologica.

[44]  J. Fleagle,et al.  Myological correlates of prosimian leaping. , 1998, Journal of human evolution.

[45]  Edwin R. Lewis,et al.  The Use of Seismic Signals by Fossorial Southern African Mammals: A Neuroethological Gold Mine , 1997, Brain Research Bulletin.

[46]  Wano Yingxian TAXONOMY, DISTRIBUTION AND DIFFERENTIATION ON TYPHLOMYS CINEREUS(PLATACANTHOMYIDAE,MAMMALIA) , 1996 .

[47]  Nitin R. Patel,et al.  Exact logistic regression: theory and examples. , 1995, Statistics in medicine.

[48]  M. K. Obrist,et al.  Signal strength, timing, and self-deafening: the evolution of echolocation in bats , 1995, Paleobiology.

[49]  A. Stalheim‐Smith Comparison of the muscle mechanics of the forelimb of three climbers , 1989, Journal of morphology.

[50]  R. Thorington,et al.  Postcranial proportions of Microsciurus and Sciurillus, the American pygmy tree squirrels , 1989 .

[51]  Paul S. Martin,et al.  Measuring Behaviour: An Introductory Guide , 1986 .

[52]  F. Jenkins,et al.  Mechanisms of hind foot reversal in climbing mammals , 1984, Journal of morphology.

[53]  Wang Guanghuan A NEW SUBSPECIES OF TYPHLOMYS CINEREUS MILNE-EDWARDS FROM YUNNAN,CHINA , 1984 .

[54]  J. Honacki,et al.  Mammal species of the world : a taxonomic and geographic reference , 1982 .