Comparative Nutritional Analysis of Domestic and Imported Commercial Canary Egg Food and Mixed Seeds Based Diets

In this study, the aim was to determine the nutritional content of specially formulated commercial soft/egg foods for canaries, preferred by professional breeders in Türkiye, and the nutritional and raw material content of seed mixtures, thereby providing insights into the general diet compositions and essential feeding regimens for canaries. The study examined 17 different seed types, eight mixed seed feeds, and 11 egg food formulations. Two main groups, "domestic" and "imported," were formed from these mixed seed feed and egg food products. The nutritional content ratios of each feed material were determined through chemical analyses, and the predicted metabolizable energy values were calculated and compared between group averages. According to the results, there were no significant differences (p>0.05) between the data of domestic and imported mixed seed feed groups in terms of parameters other than crude fiber (CF). However, the CF value was found to be statistically significantly lower in the imported group (p<0.05), and a decreasing trend in the crude ash (CA) value was also observed in the same group. It was determined that almost all parameters resulted in similar values between the domestic and imported egg food groups. However, when each feed product was evaluated separately, significant data differences and wide variation ranges were found within the groups, especially in terms of crude fat and starch parameters. As a result, it is understood that domestically produced commercial egg food formulations with basic nutritional content comparable to European imported products are available for use by canary breeders in Türkiye. However, it is apparent that imported products, particularly in mixed seed formulations, had raw materials with lower CF and CA contents.(AU)

Neural oscillations are locked to birdsong rhythms in canaries.

How vocal communication signals are represented in the cortex is a major challenge for behavioural neuroscience. Beyond a descriptive code, it is relevant to unveil the dynamical mechanism responsible for the neural representation of auditory stimuli. In this work, we report evidence of synchronous neural activity in nucleus HVC, a telencephalic area of canaries (Serinus canaria), in response to auditory playback of the bird's own song. The rhythmic features of canary song allowed us to show that this large-scale synchronization was locked to defined features of the behaviour. We recorded neural activity in a brain region where sensorimotor integration occurs, showing the presence of well-defined oscillations in the local field potentials, which are locked to song rhythm. We also show a correspondence between local field potentials, multiunit activity and single unit activity within the same brain region. Overall, our results show that the rhythmic features of the vocal behaviour are represented in a telencephalic region of canaries.

Temperature manipulation of neuronal dynamics in a forebrain motor control nucleus.

Different neuronal types within brain motor areas contribute to the generation of complex motor behaviors. A widely studied songbird forebrain nucleus (HVC) has been recognized as fundamental in shaping the precise timing characteristics of birdsong. This is based, among other evidence, on the stretching and the "breaking" of song structure when HVC is cooled. However, little is known about the temperature effects that take place in its neurons. To address this, we investigated the dynamics of HVC both experimentally and computationally. We developed a technique where simultaneous electrophysiological recordings were performed during temperature manipulation of HVC. We recorded spontaneous activity and found three effects: widening of the spike shape, decrease of the firing rate and change in the interspike interval distribution. All these effects could be explained with a detailed conductance based model of all the neurons present in HVC. Temperature dependence of the ionic channel time constants explained the first effect, while the second was based in the changes of the maximal conductance using single synaptic excitatory inputs. The last phenomenon, only emerged after introducing a more realistic synaptic input to the inhibitory interneurons. Two timescales were present in the interspike distributions. The behavior of one timescale was reproduced with different input balances received form the excitatory neurons, whereas the other, which disappears with cooling, could not be found assuming poissonian synaptic inputs. Furthermore, the computational model shows that the bursting of the excitatory neurons arises naturally at normal brain temperature and that they have an intrinsic delay at low temperatures. The same effect occurs at single synapses, which may explain song stretching. These findings shed light on the temperature dependence of neuronal dynamics and present a comprehensive framework to study neuronal connectivity. This study, which is based on intrinsic neuronal characteristics, may help to understand emergent behavioral changes.

Motor control of sound frequency in birdsong involves the interaction between air sac pressure and labial tension.

Frequency modulation is a salient acoustic feature of birdsong. Its control is usually attributed to the activity of syringeal muscles, which affect the tension of the labia responsible for sound production. We use experimental and theoretical tools to test the hypothesis that for birds producing tonal sounds such as domestic canaries (Serinus canaria), frequency modulation is determined by both the syringeal tension and the air sac pressure. For different models, we describe the structure of the isofrequency curves, which are sets of parameters leading to sounds presenting the same fundamental frequencies. We show how their shapes determine the relative roles of syringeal tension and air sac pressure in frequency modulation. Finally, we report experiments that allow us to unveil the features of the isofrequency curves.

Temperature induced syllable breaking unveils nonlinearly interacting timescales in birdsong motor pathway.

The nature of telencephalic control over premotor and motor circuits is debated. Hypotheses range from complete usurping of downstream circuitry to highly interactive mechanisms of control. We show theoretically and experimentally, that telencephalic song motor control in canaries is consistent with a highly interactive strategy. As predicted from a theoretical model of respiratory control, mild cooling of a forebrain nucleus (HVC) led to song stretching, but further cooling caused progressive restructuring of song, consistent with the hypothesis that respiratory gestures are subharmonic responses to a timescale present in the output of HVC. This interaction between a life-sustaining motor function (respiration) and telencephalic song motor control suggests a more general mechanism of how nonlinear integration of evolutionarily new brain structures into existing circuitry gives rise to diverse, new behavior.

Análise da condição corpórea, biometria externa e das vísceras do trato gastrointestinal de canários-da-terra, Sicalis flaveola braziliensis / Analysis of body condition and external and gastrointestinal biometry of saffron finch, Sicalis flaveola braziliensis

Analisaram-se em canários-da-terra, Sicalis flaveola brasiliensis, apreendidos pelo Cetas-IBAMA/PB e que morreram logo após sua chegada, as medidas biométricas externas, condições corpóreas e de plumagem, medidas biométricas das vísceras do trato gastrointestinal (TGI), assim como a topografia visceral, a fim de fornecer dados morfológicos e caracterizar as condições em esses pássaros chegaram a esse centro de triagem. A topografia visceral estava em consonância com a de periquitos e avestruz, a exceção que essa última espécie apresenta um ceco. Verificou-se que há relação entre as condições corpóreas desfavoráveis e a perda de plumagem. Conclui-se, que S. flaveola braziliensis possui medidas biométricas em consonância á de outros Passeriformes, contudo possui divergências para aves do mesmo gênero e poucas diferenças biométricas entre machos e fêmeas. Através do estudo, verifica-se que as condições corpóreas de animais traficados devem ser consideradas nos centros de triagem, a fim de se fazer um melhor manejo nutricional e/ou clínico, diminuindo a mortalidade.

Forty-one saffron finch, Sicalis flaveola brasiliensis, were studied regarding the external biometry, corporeal and plumage conditions, gastrointestinal tract (GIT) biometry, and the visceral topography, in order to provide morphological data and to characterize the condition in which these birds came to the wild animal screening Center. The visceral topography was similar to the found in parakeets and ostriches; however the last have a cecum. There was also relationship between the unfavorable body conditions and the loss of feathers. It was concluded that S. flaveola braziliensis has biometric measurements similar to other Passeriformes, however with differences to birds of the same gender, and few biometric differences among males and females. The results demonstrate that the corporal conditions of trafficked animals should be considered in wild animal screening in order to perform a better nutritional and clinical management, and to lower mortality.

Análise da condição corpórea, biometria externa e das vísceras do trato gastrointestinal de canários-da-terra, Sicalis flaveola braziliensis / Analysis of body condition and external and gastrointestinal biometry of saffron finch, Sicalis flaveola braziliensis

Analisaram-se em canários-da-terra, Sicalis flaveola brasiliensis, apreendidos pelo Cetas-IBAMA/PB e que morreram logo após sua chegada, as medidas biométricas externas, condições corpóreas e de plumagem, medidas biométricas das vísceras do trato gastrointestinal (TGI), assim como a topografia visceral, a fim de fornecer dados morfológicos e caracterizar as condições em esses pássaros chegaram a esse centro de triagem. A topografia visceral estava em consonância com a de periquitos e avestruz, a exceção que essa última espécie apresenta um ceco. Verificou-se que há relação entre as condições corpóreas desfavoráveis e a perda de plumagem. Conclui-se, que S. flaveola braziliensis possui medidas biométricas em consonância á de outros Passeriformes, contudo possui divergências para aves do mesmo gênero e poucas diferenças biométricas entre machos e fêmeas. Através do estudo, verifica-se que as condições corpóreas de animais traficados devem ser consideradas nos centros de triagem, a fim de se fazer um melhor manejo nutricional e/ou clínico, diminuindo a mortalidade.(AU)

Forty-one saffron finch, Sicalis flaveola brasiliensis, were studied regarding the external biometry, corporeal and plumage conditions, gastrointestinal tract (GIT) biometry, and the visceral topography, in order to provide morphological data and to characterize the condition in which these birds came to the wild animal screening Center. The visceral topography was similar to the found in parakeets and ostriches; however the last have a cecum. There was also relationship between the unfavorable body conditions and the loss of feathers. It was concluded that S. flaveola braziliensis has biometric measurements similar to other Passeriformes, however with differences to birds of the same gender, and few biometric differences among males and females. The results demonstrate that the corporal conditions of trafficked animals should be considered in wild animal screening in order to perform a better nutritional and clinical management, and to lower mortality.(AU)

Hormonal acceleration of song development illuminates motor control mechanism in canaries.

In songbirds, the ontogeny of singing behavior shows strong parallels with human speech learning. As in humans, development of learned vocal behavior requires exposure to an acoustic model of species-typical vocalizations, and, subsequently, a sensorimotor practice period after which the vocalization is produced in a stereotyped manner. This requires mastering motor instructions driving the vocal organ and the respiratory system. Recently, it was shown that, in the case of canaries (Serinus canaria), the diverse syllables, constituting the song, are generated with air sac pressure patterns with characteristic shapes, remarkably, those belonging to a very specific mathematical family. Here, we treated juvenile canaries with testosterone at the onset of the sensorimotor practice period. This hormone exposure accelerated the development of song into stereotyped adultlike song. After 20 days of testosterone treatment, subsyringeal air sac pressure patterns of song resembled those produced by adults, while those of untreated control birds of the same age did not. Detailed temporal structure and modulation patterns emerged rapidly with testosterone treatment, and all previously identified categories of adult song were observed. This research shows that the known effect of testosterone on the neural circuits gives rise to the stereotyped categories of respiratory motor gestures. Extensive practice of these motor patterns during the sensorimotor phase is not required for their expression.

Low-dimensional dynamical model for the diversity of pressure patterns used in canary song.

During song production, oscine birds produce large air sac pressure pulses. During those pulses, energy is transferred to labia located at the juncture between the bronchii and the trachea, inducing the high frequency labial oscillations which are responsible for airflow modulations, i.e., the uttered sound. In order to generate diverse syllables, canaries (Serinus canaria) use a set of air sac pressure patterns with characteristic shapes. In this work we show that these different shapes can be approximated by the subharmonic solutions of a forced normal form. This simple model is built from identifying dynamical elements which allow to reproduce the shape of the pressure pattern corresponding to one syllable type. Remarkably, integrating that simple model for other parameters allows to recover the other pressure patterns used during song. Interpreting the diversity of these physiological gestures as subharmonic solutions of a simple nonlinear system allows us to account simultaneously for their morphological features as well as for the syllabic timing and suggests a strategy for the generation of complex motor patterns.

Dynamical systems techniques reveal the sexual dimorphic nature of motor patterns in birdsong.

In this work we analyze the pressure motor patterns used by canaries (Serinus canaria) during song, both in the cases of males and testosterone treated females. We found a qualitative difference between them which was not obvious from the acoustical features of the uttered songs. We also show the diversity of patterns, both for males and females, to be consistent with a recently proposed model for the dynamics of the oscine respiratory system. The model not only allows us to reproduce qualitative features of the different pressure patterns, but also to account for all the diversity of pressure patterns found in females.

Nonlinear model predicts diverse respiratory patterns of birdsong.

A central aspect of the motor control of birdsong production is the capacity to generate diverse respiratory rhythms, which determine the coarse temporal pattern of song. The neural mechanisms that underlie this diversity of respiratory gestures and the resulting acoustic syllables are largely unknown. We show that the respiratory patterns of the highly complex and variable temporal organization of song in the canary (Serinus canaria) can be generated as solutions of a simple model describing the integration between song control and respiratory centers. This example suggests that subharmonic behavior can play an important role in providing a complex variety of responses with minimal neural substrate.

Modulation by steroid hormones of a "sexy" acoustic signal in an Oscine species, the Common Canary Serinus canaria.

The respective influence of testosterone and estradiol on the structure of the Common Canary Serinus canaria song was studied by experimentally controlling blood levels of steroid hormones in males and analyzing the consequent effects on acoustic parameters. A detailed acoustic analysis of the songs produced before and after hormonal manipulation revealed that testosterone and estradiol seem to control distinct song parameters independently. The presence of receptors for testosterone and estradiol in the brain neural pathway controlling song production strongly suggests that the observed effects are mediated by a steroid action at the neuronal level.