Linking the genomic signatures of human beat synchronization and learned song in birds.

The development of rhythmicity is foundational to communicative and social behaviours in humans and many other species, and mechanisms of synchrony could be conserved across species. The goal of the current paper is to explore evolutionary hypotheses linking vocal learning and beat synchronization through genomic approaches, testing the prediction that genetic underpinnings of birdsong also contribute to the aetiology of human interactions with musical beat structure. We combined state-of-the-art-genomic datasets that account for underlying polygenicity of these traits: birdsong genome-wide transcriptomics linked to singing in zebra finches, and a human genome-wide association study of beat synchronization.

Rhythm in dyadic interactions.

This review paper discusses interactions and distinguishes them from interactions. We report on communicative behaviours in social and sexual contexts, as found in dyads of humans, non-human primates, non-primate mammals, birds, anurans and insects. We discuss observed instances of rhythm in dyadic interactions, identify knowledge gaps and propose suggestions for future research.

Regularities in zebra finch song beyond the repeated motif.

The proliferation of birdsong research into the neural mechanisms of vocal learning is indebted to the remarkable stereotypy of the zebra finch's song motif. Motifs are composed of several syllables, which birds learn to produce in a fixed order. But at a higher level of organization-the bout-zebra finch song is no longer stereotyped.

Sexual dimorphism in striatal dopaminergic responses promotes monogamy in social songbirds.

In many songbird species, males sing to attract females and repel rivals. How can gregarious, non-territorial songbirds such as zebra finches, where females have access to numerous males, sustain monogamy? We found that the dopaminergic reward circuitry of zebra finches can simultaneously promote social cohesion and breeding boundaries. Surprisingly, in unmated males but not in females, striatal dopamine neurotransmission was elevated after hearing songs.

Acoustic sequences in non-human animals: a tutorial review and prospectus.

Animal acoustic communication often takes the form of complex sequences, made up of multiple distinct acoustic units. Apart from the well-known example of birdsong, other animals such as insects, amphibians, and mammals (including bats, rodents, primates, and cetaceans) also generate complex acoustic sequences. Occasionally, such as with birdsong, the adaptive role of these sequences seems clear (e.

New measures to establish the evidence base for medical education: identifying educationally sensitive patient outcomes.

Researchers lack the rich evidence base and benchmark patient outcomes needed to evaluate the effectiveness of medical education practice and guide policy. The authors offer a framework for medical education research that focuses on physician-influenced patient outcomes that are potentially sensitive to medical education. Adapting the concept of ambulatory care sensitive conditions, which provided traction to health services research by defining benchmark patient outcomes to measure health system performance, the authors introduce the concept and propose the adoption of educationally sensitive patient outcomes and suggest two measures: patient activation and clinical microsystem activation.