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1.
Adult Bengalese finches generate a variable song that obeys a distinct and individual syntax. The syntax is gradually lost
over a period of days after deafening and is recovered when hearing is restored. We present a spiking neuronal network model
of the song syntax generation and its loss, based on the assumption that the syntax is stored in reafferent connections from
the auditory to the motor control area. Propagating synfire activity in the HVC codes for individual syllables of the song
and priming signals from the auditory network reduce the competition between syllables to allow only those transitions that
are permitted by the syntax. Both imprinting of song syntax within HVC and the interaction of the reafferent signal with an
efference copy of the motor command are sufficient to explain the gradual loss of syntax in the absence of auditory feedback.
The model also reproduces for the first time experimental findings on the influence of altered auditory feedback on the song
syntax generation, and predicts song- and species-specific low frequency components in the LFP. This study illustrates how
sequential compositionality following a defined syntax can be realized in networks of spiking neurons. 相似文献
2.
The songs of Bengalese finches (Lonchura striata var. domestica) have complex syntax and provide an opportunity to investigate how complex sequential behaviour emerges via the evolutionary process. In this study, we suggest that a simple mechanism, i.e. many-to-one mapping from internal states onto syllables, may underlie the emergence of apparent complex syllable sequences that have higher order history dependencies. We analysed the songs of Bengalese finches and of their wild ancestor, the white-rumped munia (L. striata), whose songs are more stereotypical and simpler compared with those of Bengalese finches. The many-to-one mapping mechanism sufficiently accounted for the differences in the complexity of song syllable sequences of these two strains. 相似文献
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4.
Background
Singing in songbirds is a complex, learned behavior which shares many parallels with human speech. The avian vocal organ (syrinx) has two potential sound sources, and each sound generator is under unilateral, ipsilateral neural control. Different songbird species vary in their use of bilateral or unilateral phonation (lateralized sound production) and rapid switching between left and right sound generation (interhemispheric switching of motor control). Bengalese finches (Lonchura striata domestica) have received considerable attention, because they rapidly modify their song in response to manipulations of auditory feedback. However, how the left and right sides of the syrinx contribute to acoustic control of song has not been studied.Methodology
Three manipulations of lateralized syringeal control of sound production were conducted. First, unilateral syringeal muscular control was eliminated by resection of the left or right tracheosyringeal portion of the hypoglossal nerve, which provides neuromuscular innervation of the syrinx. Spectral and temporal features of song were compared before and after lateralized nerve injury. In a second experiment, either the left or right sound source was devoiced to confirm the role of each sound generator in the control of acoustic phonology. Third, air pressure was recorded before and after unilateral denervation to enable quantification of acoustic change within individual syllables following lateralized nerve resection.Significance
These experiments demonstrate that the left sound source produces louder, higher frequency, lower entropy sounds, and the right sound generator produces lower amplitude, lower frequency, higher entropy sounds. The bilateral division of labor is complex and the frequency specialization is the opposite pattern observed in most songbirds. Further, there is evidence for rapid interhemispheric switching during song production. Lateralized control of song production in Bengalese finches may enhance acoustic complexity of song and facilitate the rapid modification of sound production following manipulations of auditory feedback. 相似文献5.
6.
The effects of mate and nesting facilities on the occurrence of egg-laying were examined in the Bengalese finch.
Egg-laying is unusual in isolated females and those kept in large groups. It is more common in monosexual pairs, and its incidence in them is not markedly altered by whether males can be heard or not. Females in heterosexual pairs usually lay within three weeks of pairing. A similar lag was found in pairs separated by bars, pointing to copulation being unnecessary.
Carrying of nest material to the nest box is mainly done by males. It is unusual in isolated birds, but occurs in monosexual and heterosexual pairs, and in pairs separated by bars.
Egg-laying is delayed in the absence of hay for nest building. A delay was also found in pairs separated by bars, when only the male was given nest material: this indicates that personal experience by the female is important. Heterosexual pairs deprived of nest boxes, but given nest material, were not recorded as laying.
It is concluded that egg-laying is stimulated by mate and nest material in a complex fashion. The various stimuli these provide interact to a greater or lesser degree to give the physiological and behavioural changes observed. 相似文献
Egg-laying is unusual in isolated females and those kept in large groups. It is more common in monosexual pairs, and its incidence in them is not markedly altered by whether males can be heard or not. Females in heterosexual pairs usually lay within three weeks of pairing. A similar lag was found in pairs separated by bars, pointing to copulation being unnecessary.
Carrying of nest material to the nest box is mainly done by males. It is unusual in isolated birds, but occurs in monosexual and heterosexual pairs, and in pairs separated by bars.
Egg-laying is delayed in the absence of hay for nest building. A delay was also found in pairs separated by bars, when only the male was given nest material: this indicates that personal experience by the female is important. Heterosexual pairs deprived of nest boxes, but given nest material, were not recorded as laying.
It is concluded that egg-laying is stimulated by mate and nest material in a complex fashion. The various stimuli these provide interact to a greater or lesser degree to give the physiological and behavioural changes observed. 相似文献
7.
Sperm are limited in the Bengalese finch; three copulationsin 3 h result in a 95% reduction in sperm numbers transferred.Recovery from sperm depletion occurs within 24 h. Pairs in captivitycopulate about 15 times per clutch and about twice each dayin the 5 days before egg laying. Sixty-eight percent of behaviorallysuccessful copulations result in sperm transfer, with some malesperforming consistently better than others. Single ejaculatescontain 2.9 x 106 sperm, the testes (combined mass: 0.103 g)comprise 0.7% of male mass, and the seminal glomera hold sufficientsperm (7.7 x 106) for two or three inseminations. The intervalsbetween successive copulations were significantly more uniformthan expected by chance, indicating that males allocate theirejaculates prudently. Conflicts of interest between males andfemales within monogamous pairs exist over the timing and frequencyof copulation; the resolution of these conflicts is discussed.[Behav Ecol 1991;2:267–275] 相似文献
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9.
Bird song is a complex communication behavior that requires the coordination of several motor systems. Sound is produced in the syrinx and then modified by the upper vocal tract, but the specific nature and dynamics of this modification are not well understood. To determine the contribution of beak movements to sound modification, we studied the beak gape patterns in zebra finches (Taeniopygia guttata). Subsyringeal air sac pressure and song were recorded together with changes in beak gape, which were monitored with a magneto-sensitive transducer. Beak gape was positively correlated with fundamental frequency, peak frequency, and subsyringeal air sac pressure in all but one bird. For harmonic stacks, peak frequency increased with increasing beak gape, and the relationship between fundamental frequency and beak gape was no longer significant. Experimentally holding the beak open or closed had acoustic consequences consistent with the model in which beak movements change upper vocal tract length and, thus, the filter properties. Beak gape was positively correlated with sound amplitude in all but two birds. The relationship between beak aperture and amplitude may, however, be indirect because air sac pressure is correlated with amplitude and beak gape. The beak is opened quickly and to its widest aperture immediately prior to the onset of sound and at rapid transitions in sound, suggesting that beak movements may affect vibratory behavior of the labia. 相似文献
10.
Heather Williams Linda A. Crane Timothy K. Hale Matthew A. Esposito Fernando Nottebohm 《Developmental neurobiology》1992,23(8):1006-1020
Adult male zebra finches underwent unilateral denervation of the syrinx or unilateral lesion of the forebrain nucleus HVC known to be important for song control. Disruptive effects of song were greater after right-side than after left-side operations. After denervation of the right half of the syrinx, the fundamental frequencies of all syllables within a song converged on a value near 500 Hz, and nearly all syllables were altered in type. In contrast, the syllables produced after denervation of the left side of the syrinx largely maintained their preoperative frequencies, and fewer syllables changed in type. Unlike nerve sections, HVC lesions did not result in strikingly lateralized effects on syllable phonology; however, HVC lesions did affect the temporal patterning of a bird's song, whereas nerve sections did not, and changes in temporal patterning were more marked after right than after left HVC lesions. Right-side dominance for zebra finch song control is the reverse of that described in other songbird species with lateral asymmetry for vocal communication. We suggest that the need for a dominant side is more important than the side of dominance. © 1992 John Wiley & Sons, Inc. 相似文献
11.
Song has been proposed to function in mate choice, and such a role has been demonstrated experimentally in a number of species. We presented captive female house finches, Carpodacus mexicanus, with a choice of two songs, each of which was identical except for a single parameter that had been either accentuated or minimized. To ensure that our playback tapes offered choices within the normal range of variation in house finch song, we recorded wild male finches, then created playback tapes using values for the song parameters under consideration that were above or below the mean for the local population, but within the natural range of variation. We presented females that had not previously mated with choices between songs that (1) were long or short, (2) were given at fast or slow rates, and (3) included a large or small repertoire of unique song elements. Females showed significant preferences for long songs and for songs presented at a faster rate, but there was no significant preference for large or small repertoires of unique song elements. Song length and rate each seem likely to indicate a male's energy reserves, and thus could be important sources of information for females choosing mates. 相似文献
12.
Birdsong may be perceived and processed differently by males and females because the production and function of this behaviour are often sexually dimorphic. However, examination of this hypothesis has been difficult, since different behavioural measures have been used to describe the perceptual process for each sex. We analysed changes in heart rate as an index of song perception in Bengalese finches, Lonchura striata var. domestica. In this species, only males sing, and song is used exclusively for mate attraction. This species is not territorial and songs are never used in aggressive contexts. In both sexes, repeated presentation of a song resulted in a waning of the heart rate response. Presentation of heterospecific songs did not increase the heart rate. When a novel conspecific song was presented, the heart rate increased only in females with each presentation of the stimulus, not in males. These results correspond to the sex differences in song usage in this species. Copyright 2003 The Association for the Study of Animal Behaviour. Published by Elsevier Science Ltd. All rights reserved. 相似文献
13.
Right-side dominance for song control in the zebra finch. 总被引:7,自引:0,他引:7
H Williams L A Crane T K Hale M A Esposito F Nottebohm 《Journal of neurobiology》1992,23(8):1006-1020
Adult male zebra finches underwent unilateral denervation of the syrinx or unilateral lesion of the forebrain nucleus HVC known to be important for song control. Disruptive effects on song were greater after right-side than after left-side operations. After denervation of the right half of the syrinx, the fundamental frequencies of all syllables within a song converged on a value near 500 Hz, and nearly all syllables were altered in type. In contrast, the syllables produced after denervation of the left side of the syrinx largely maintained their preoperative frequencies, and fewer syllables changed in type. Unlike nerve sections, HVC lesions did not result in strikingly lateralized effects on syllable phonology; however, HVC lesions did affect the temporal patterning of a bird's song, whereas nerve sections did not, and changes in temporal patterning were more marked after right than after left HVC lesions. Right-side dominance for zebra finch song control is the reverse of that described in other songbird species with lateral asymmetry for vocal communication. We suggest that the need for a dominant side is more important than the side of dominance. 相似文献
14.
Vitamin A, an essential nutrient, is required in its acidic form (retinoic acid) for normal embryogenesis and neuronal development, typically within well-defined concentration ranges. In zebra finches, a songbird species, localized retinoic acid synthesis in the brain is important for the development of song, a learned behavior sharing significant commonalities with speech acquisition in humans. We tested how dietary retinoic acid affects the development of song behavior and the brain's system for song control. Supplemental doses of retinoic acid given to juveniles during the critical period for song learning resulted in more variable or plastic-like songs when the birds reached adulthood, compared to the normal songs of vehicle-fed controls. We also observed that several genes (brinp1, nrgn, rxr-alpha, and sdr2/scdr9) had altered levels of expression in specific nuclei of the song system when comparing the experimental and control diet groups. Interestingly, we found significant correlations between gene expression levels in nuclei of the anterior forebrain pathway (lMAN and area X) and the degree of variability in the recorded songs. We observed, however, no major morphological effects such as changes in the volumes of song nuclei. Overall, our results lend further support to a fundamental role of retinoic acid in song maturation and point to possible molecular pathways associated with this action. The data also demonstrate that dietary content of Vitamin A can affect the maturation of a naturally learned complex behavior. 相似文献
15.
Juvenile male zebra finches (Taeniopygia guttata) learn a stereotyped song by imitating sounds from adult male tutors. Their song is composed of a series of syllables, which are separated by silent periods. How acoustic units of song are translated into respiratory and syringeal motor gestures during the song learning process is not well understood. To learn about the respiratory contribution to the imitation process, we recorded air sac pressure in 38 male zebra finches and compared the acoustic structures and air sac pressure patterns of similar syllables qualitatively and quantitatively. Acoustic syllables correspond to expiratory pressure pulses and most often (74%) entire syllables are copied using similar air sac pressure patterns. Even notes placed within different syllables are generated with similar air sac pressure patterns when only segments of syllables are copied (9%). A few of the similar syllables (17%) are generated with a modified pressure pattern, typically involving addition or deletion of an inspiration. The high similarity of pressure patterns for like syllables indicates that generation of particular sounds is constrained to a narrow range of air sac pressure conditions. Following presentation of stroboscope flashes, song was typically interrupted at the end of an expiratory pressure pulse, confirming that expirations and, therefore, syllables are the smallest unit of motor production of song. Silent periods, which separate syllables acoustically, are generated by switching from expiration to inspiration. Switching between respiratory phases, therefore, appears to play a dominant role in organizing the stereotyped motor program for song production. 相似文献
16.
We report here that a germline-restricted chromosome (GRC) is regularly present in males and females of the Bengalese finch (Lonchura domestica). While the GRC is euchromatic in oocytes, in spermatocytes this chromosome is cytologically seen as entirely heterochromatic and presumably inactive. The GRC is observed in the cytoplasm of secondary spermatocytes, indicating that its elimination from the nucleus occurs during the first meiotic division. By immunofluorescence on microspreads, we investigated the presence of histone H3 modifications throughout male meiosis, as well as in postmeiotic stages. We found that the GRC is highly enriched in di- and trimethylated histone H3 at lysine 9 during prophase I, in agreement with the presumed inactive state of this chromosome. At metaphase I, dimethylated histone H3 is no longer detectable on the GRC and its chromatin is more faintly stained with DAPI. The condensed GRC is underphosphorylated at serine 10 compared to the regular chromosomes during metaphase I, being phosphorylated later at this site after the first meiotic division. From these results, we proposed that trimethylation of histone H3 at lysine 9 on the GRC chromatin increases during metaphase I. This hypermethylated state at lysine 9 may preclude the phosphorylation of the adjacent serine 10 residue, providing an example of cross-talk of histone H3 modifications as described in experimental systems. The differential underphosphorylation of the GRC chromatin before elimination is interpreted as a cytologically detectable byproduct of deficient activity of Aurora B kinase, which is responsible for the phosphorylation of H3 at serine 10 during mitosis and meiosis. 相似文献
17.
Exogenous estrogens, when administered to hatchling female zebra finches, masculinize the morphology and function of their neural vocal control system. The first of two experiments evaluated whether tamoxifen citrate is an antiestrogen in zebra finches, and the second determined whether it would block the masculinization hypothesized to be caused in hatchling males by the males' endogenous estradiol. In the first experiment adult female zebra finches were ovariectomized and injected for 10 days with estradiol benzoate (EB), tamoxifen, EB and tamoxifen combined, or vehicle (control). The dependent variable was oviduct weight. The EB-stimulated growth of the oviduct was blocked by tamoxifen, which had no effects when administered alone. Thus, tamoxifen acts as an antiestrogen in the zebra finch oviduct. In Experiment 2, male and female zebra finches were treated with tamoxifen or vehicle for the first 20 days after hatching. The males were castrated at 20 days. At 60 days we compared the song control regions of experimental and control males and females. In both sexes tamoxifen increased the somatic areas of neurons in RA (robust nucleus of the archistriatum), HVc (caudal nucleus of the ventral hyperstriatum), and MAN (magnocellular nucleus of the anterior neostriatum). Tamoxifen also increased the volumes of HVc, RA, MAN, and Area X in males. Thus, tamoxifen failed to block masculinization of males, but masculinized females and hypermasculinized males. Tamoxifen's hypermasculinization of the male and masculinization of the female song system is paradoxical given that (1) estradiol does not have similar effects on the male song system, and (2) tamoxifen antagonizes the effects of EB in the oviduct. 相似文献
18.
The cholinergic basis of auditory "gating" in the sensorimotor nucleus HVc and its efferent target robustus archistriatalis (RA) was investigated in anesthetized zebra finches. Injections of cholinergic agonists carbachol or muscarine into HVc strongly affected discharge rates and diminished auditory responsiveness in both HVc and its target RA, changes toward an awake-like condition. HVc nicotine injections produced similar strong effects in HVc, but weaker and inconsistent effects in RA. Stimulation of basal forebrain (BF) produced an initial transient network shutdown followed by diminished auditory responsiveness in HVc and RA. All stimulation effects were blocked when preceded by HVc injections of nicotinic or muscarinic antagonists. Thus, BF cholinergic modulation of song system auditory activity acting via functionally distinct HVc circuits can contribute to auditory gating. We hypothesize that wakeful BF activity levels block sensory input to motor systems and adaptively change during behavior to allow sensorimotor feedback such as auditory feedback during singing. 相似文献
19.
Developmental stress selectively affects the song control nucleus HVC in the zebra finch 总被引:5,自引:0,他引:5
Buchanan KL Leitner S Spencer KA Goldsmith AR Catchpole CK 《Proceedings. Biological sciences / The Royal Society》2004,271(1555):2381-2386
Songbirds sing complex songs as a result of evolution through sexual selection. The evolution of such sexually selected traits requires genetic control, as well as selection on their expression. Song is controlled by a discrete neural pathway in the brain, and song complexity has been shown to correlate with the volume of specific song control nuclei. As such, the development of these nuclei, in particular the high vocal centre (HVC), is thought to be the mechanism controlling signal expression indicating male quality. We tested the hypothesis that early developmental stress selectively affects adult HVC size, compared with other brain nuclei. We did this by raising cross-fostered zebra finches (Taeniopygia guttata) under stressed and controlled conditions and determining the effect on adult HVC size. Our results confirm the strong influence of environmental conditions, particularly on HVC development, and therefore on the expression of complex songs. The results also show that both environmental and genetic factors affect the development of several brain nuclei, highlighting the developmental plasticity of the songbird brain. In all, these results explain how the complex song repertoires of songbirds can evolve as honest indicators of male quality. 相似文献
20.