scholarly article | Q13442814 |
P50 | author | W. Tecumseh Fitch | Q2399713 |
Sonja Kotz | Q21264704 | ||
Constance Scharff | Q22036075 | ||
Bart de Boer | Q32470341 | ||
Andrea Ravignani | Q32470494 | ||
Angela S. Stoeger | Q32470665 | ||
P2093 | author name string | Frederike D Hanke | |
Tamara Heinrich | |||
Bettina Hurgitsch | |||
P2860 | cites work | What makes an Australian sea lion (Neophoca cinerea) male's bark threatening? | Q84568961 |
Rhesus monkeys (Macaca mulatta) detect rhythmic groups in music, but not the beat | Q21090830 | ||
Birds, primates, and spoken language origins: behavioral phenotypes and neurobiological substrates | Q21129419 | ||
The evolutionary biology of musical rhythm: was Darwin wrong? | Q21145709 | ||
The evolutionary neuroscience of musical beat perception: the Action Simulation for Auditory Prediction (ASAP) hypothesis | Q21558377 | ||
Evidence suggests vocal production learning in a cross-fostered Risso’s dolphin (Grampus griseus) | Q22813687 | ||
The motor theory of speech perception reviewed | Q24652414 | ||
Beat Keeping in a Sea Lion As Coupled Oscillation: Implications for Comparative Understanding of Human Rhythm | Q26249990 | ||
Finding the Beat: From Socially Coordinated Vocalizations in Songbirds to Rhythmic Entrainment in Humans | Q26745393 | ||
Can Birds Perceive Rhythmic Patterns? A Review and Experiments on a Songbird and a Parrot Species | Q27304674 | ||
An Asian elephant imitates human speech | Q27313497 | ||
Universal mechanisms of sound production and control in birds and mammals. | Q27316973 | ||
Phonological perception by birds: budgerigars can perceive lexical stress | Q27319160 | ||
Experience-dependent emergence of a grouping bias | Q27348052 | ||
The evolution of speech: a comparative review | Q28138687 | ||
The placental mammal ancestor and the post-K-Pg radiation of placentals | Q28285168 | ||
Experimental studies illuminate the cultural transmission of percussive technologies in Homo and Pan | Q28608631 | ||
Searching for the origins of musicality across species. | Q28650313 | ||
Four principles of bio-musicology | Q28650316 | ||
Chorusing, synchrony, and the evolutionary functions of rhythm | Q28654774 | ||
Are non-human primates capable of rhythmic entrainment? Evidence for the gradual audiomotor evolution hypothesis | Q28660557 | ||
Rhythm sensitivity in macaque monkeys. | Q28681189 | ||
Spontaneous synchronization of arm motion between Japanese macaques | Q28709423 | ||
Complex vocal imitation during ontogeny in a bat. | Q28752336 | ||
Killer whales are capable of vocal learning | Q28763101 | ||
Vocal learning by greater spear-nosed bats | Q28766110 | ||
A comparative study of the behavioral deficits following lesions of various parts of the zebra finch song system: implications for vocal learning | Q29547789 | ||
A molecular timescale for vertebrate evolution | Q29547791 | ||
Estimation of divergence times for major lineages of primate species | Q29618188 | ||
Experimental evidence for synchronization to a musical beat in a nonhuman animal | Q29618656 | ||
What bats have to say about speech and language | Q30010534 | ||
Vocal learning, prosody, and basal ganglia: don't underestimate their complexity | Q30010573 | ||
Vocal learning in seals, sea lions, and walruses | Q30010588 | ||
The evolution of vocal learning | Q30010590 | ||
Toward a computational framework for cognitive biology: unifying approaches from cognitive neuroscience and comparative cognition | Q30010593 | ||
Complex vibratory patterns in an elephant larynx | Q30010609 | ||
Primate drum kit: a system for studying acoustic pattern production by non-human primates using acceleration and strain sensors | Q30010615 | ||
A California sea lion (Zalophus californianus) can keep the beat: motor entrainment to rhythmic auditory stimuli in a non vocal mimic | Q30010624 | ||
Studying synchronization to a musical beat in nonhuman animals | Q30010968 | ||
Convergence of calls as animals form social bonds, active compensation for noisy communication channels, and the evolution of vocal learning in mammals | Q30010985 | ||
Animal behaviour: elephants are capable of vocal learning | Q30011046 | ||
The different roles of social learning in vocal communication | Q30011135 | ||
Spontaneous vocal mimicry and production by bottlenose dolphins (Tursiops truncatus): evidence for vocal learning | Q30011226 | ||
Selective vocal learning in a sparrow | Q30011362 | ||
Chronometry for the chorusing herd: Hamilton's legacy on context-dependent acoustic signalling--a comment on Herbers (2013). | Q30357942 | ||
Joint drumming: social context facilitates synchronization in preschool children. | Q30372049 | ||
The perception of regularity in an isochronous stimulus in zebra finches (Taeniopygia guttata) and humans. | Q30372190 | ||
Perception of rhythmic grouping depends on auditory experience. | Q30373767 | ||
Music and dance as a coalition signaling system. | Q30376889 | ||
Preliminary Experiments on Human Sensitivity to Rhythmic Structure in a Grammar with Recursive Self-Similarity. | Q30378496 | ||
The Indris Have Got Rhythm! Timing and Pitch Variation of a Primate Song Examined between Sexes and Age Classes | Q30379935 | ||
Subsecond timing in primates: comparison of interval production between human subjects and rhesus monkeys | Q30381464 | ||
Measuring Neural Entrainment to Beat and Meter in Infants: Effects of Music Background. | Q30382310 | ||
Look at the Beat, Feel the Meter: Top-Down Effects of Meter Induction on Auditory and Visual Modalities. | Q30386529 | ||
Testing meter, rhythm, and tempo discriminations in pigeons | Q30391081 | ||
Do humans and nonhuman animals share the grouping principles of the iambic-trochaic law? | Q30426818 | ||
Sensorimotor synchronization: a review of recent research (2006-2012). | Q30427017 | ||
Monkeys have a limited form of short-term memory in audition | Q30458924 | ||
In search of an auditory engram | Q30475996 | ||
The "ticktock" of our internal clock: direct brain evidence of subjective accents in isochronous sequences | Q30540396 | ||
On the role and origin of isochrony in human rhythmic entrainment. | Q30544236 | ||
Interacting cortical and basal ganglia networks underlying finding and tapping to the musical beat | Q30558336 | ||
Synchrony and motor mimicking in chimpanzee observational learning | Q30844237 | ||
The Evolution of Language | Q33268692 | ||
Pinniped phylogeny and a new hypothesis for their origin and dispersal | Q33997312 | ||
Novel sound production through contingency learning in the Pacific walrus (Odobenus rosmarus divergens). | Q34718161 | ||
Temporal and spatial categorization in human and non-human primates. | Q35201647 | ||
Timing and time perception: a review of recent behavioral and neuroscience findings and theoretical directions | Q37720348 | ||
Event-related potential responses to metric violations: rules versus meaning | Q38374000 | ||
Social, contextual, and individual factors affecting the occurrence and acoustic structure of drumming bouts in wild chimpanzees (Pan troglodytes). | Q38861077 | ||
Temporal regularity effects on pre-attentive and attentive processing of deviance | Q39774571 | ||
Cortical speech processing unplugged: a timely subcortico-cortical framework | Q39854077 | ||
Can a gray seal (Halichoerus grypus) generalize call classes? | Q40438762 | ||
Did you get the beat? Late proficient French-German learners extract strong-weak patterns in tonal but not in linguistic sequences | Q45049682 | ||
Rhythmic entrainment: Why humans want to, fireflies can't help it, pet birds try, and sea lions have to be bribed | Q46385084 | ||
Neuroanatomy and volumes of brain structures of a live California sea lion (Zalophus californianus) from magnetic resonance images | Q46729146 | ||
Patterns in the vocalizations of male harbor seals | Q46763534 | ||
Comparative assessment of amphibious hearing in pinnipeds | Q46804298 | ||
Interception of real and apparent motion targets: psychophysics in humans and monkeys | Q48246338 | ||
The effects of deep-reaching lesions in the cortical face area on phonation. A combined case report and experimental monkey study. | Q48957023 | ||
Some projections from the peri-central cortex to the pons and lower brain stem in monkey and chimpanzee. | Q51318917 | ||
On aims and methods of Ethology | Q54300336 | ||
A comparative approach to vocal learning: Song development in white-crowned sparrows | Q55952730 | ||
Musical Rhythm, Linguistic Rhythm, and Human Evolution | Q56060670 | ||
Evaluating the function of the male harbour seal, Phoca vitulina , roar through playback experiments | Q56483641 | ||
Vocalizations and vocal mimicry in captive harbor seals, Phoca vitulina | Q56561562 | ||
Synchronization and temporal processing | Q57723249 | ||
The Cerebellum Generates Motor-to-Auditory Predictions: ERP Lesion Evidence | Q58055980 | ||
Context-Related Variation in the Vocal Growling Behaviour of the Domestic Dog (Canis familiaris) | Q59292638 | ||
Geographical variation in temporal and spatial vocalization patterns of male harbour seals in the mating season | Q73277389 | ||
P407 | language of work or name | English | Q1860 |
P921 | main subject | Pinnipedia | Q30263 |
vocal learning | Q1514944 | ||
zoomusicology | Q2755197 | ||
origin of speech | Q7102483 | ||
P304 | page(s) | 274 | |
P577 | publication date | 2016-06-20 | |
P1433 | published in | Frontiers in Neuroscience | Q2177807 |
P1476 | title | What Pinnipeds Have to Say about Human Speech, Music, and the Evolution of Rhythm | |
P478 | volume | 10 |
Q55279839 | A cerebellar substrate for cognition evolved multiple times independently in mammals. |
Q42369826 | Evolutionary Musicology Meets Embodied Cognition: Biocultural Coevolution and the Enactive Origins of Human Musicality. |
Q50326670 | How small could a pup sound? The physical bases of signaling body size in harbor seals. |
Q62491280 | Ontogeny of vocal rhythms in harbor seal pups: an exploratory study |
Q53820160 | Poor neuro-motor tuning of the human larynx: a comparison of sung and whistled pitch imitation. |
Q41075868 | Preface to the Special Issue on Animal Music Perception. |
Q93010348 | Rhythm in speech and animal vocalizations: a cross-species perspective |
Q47133163 | Spontaneous rhythms in a harbor seal pup calls |
Q33268995 | Talking Heads |
Q50282344 | The Evolution of Musicality: What Can Be Learned from Language Evolution Research? |
Q45616137 | The Paradox of Isochrony in the Evolution of Human Rhythm |
Q58643720 | Vocal Interactivity in-and-between Humans, Animals, and Robots |
Q90743057 | Vocal learning: Beyond the continuum |
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