2002
DOI: 10.1007/s00359-002-0358-y
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A framework for integrating the songbird brain

Abstract: Biological systems by default involve complex components with complex relationships. To decipher how biological systems work, we assume that one needs to integrate information over multiple levels of complexity. The songbird vocal communication system is ideal for such integration due to many years of ethological investigation and a discreet dedicated brain network. Here we announce the beginnings of a songbird brain integrative project that involves high-throughput, molecular, anatomical, electrophysiological… Show more

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Cited by 29 publications
(1 citation statement)
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“…S5, C and D, and table S3H). Both findings are consistent with the cortex hypothesis of homologies (41, 66, 67). However, LMAN, also part of the nidopallium, had the best match to layer 4 of the PoG and other cortical regions, contradicting previous hypotheses (41, 67) (Table 1, fig.…”
Section: Songbird Ra Shows Greater Similarity To Human Lmc Than To Nosupporting
confidence: 91%
“…S5, C and D, and table S3H). Both findings are consistent with the cortex hypothesis of homologies (41, 66, 67). However, LMAN, also part of the nidopallium, had the best match to layer 4 of the PoG and other cortical regions, contradicting previous hypotheses (41, 67) (Table 1, fig.…”
Section: Songbird Ra Shows Greater Similarity To Human Lmc Than To Nosupporting
confidence: 91%