Prenatal Loud Music and Noise: Differential Impact on Physiological Arousal, Hippocampal Synaptogenesis and Spatial Behavior in One Day-Old Chicks

Sanyal, Tania; Kumar, Vivek; Nag, Tapas Chandra; Jain, Suman; Sreenivas, V.; Wadhwa, Shashi

doi:10.1371/journal.pone.0067347

Cited by 51 publications

(64 citation statements)

References 104 publications

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“…Conversely, embryos incubated with a 12L:12D light schedule had better retention of a passive avoidance and discrimination task after hatch compared to dark-incubated only chicks (Sui and Rose, 1997 ). Occasional exposure to sounds in the incubation environment (15 min/h from d 10 to hatching), using both natural, species-specific noises and artificial noises (sitar music) increased hippocampal function (Chaudhury et al., 2009 ), which may facilitate learning and memory, and influenced postnatal auditory preferences (Jain et al., 2004 ); however, only high-decibel music (110 dB) positively modulated spatial orientation, learning, and memory when compared with noise (non-patterned or rhythmic) of the same decibel levels (Sanyal et al., 2013 ). Maternal age also can influence offspring characteristics: Chicks from 37-week-old Japanese quail were less reactive when encountering a novel environment, but they were more stressed by social isolation than chicks from 11-week-old quail (Guibert et al., 2012 ).…”

Section: Resultsmentioning

confidence: 99%

Early experiences matter: a review of the effects of prenatal environment on offspring characteristics in poultry

2016

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Early life experiences can be important in determining offspring phenotypes and may influence interaction with the environment and hence health, welfare, and productivity. The prenatal environment of poultry can be divided into the pre-lay environment and the egg storage/incubation environment, both of which can affect offspring outcomes. The ability to separate maternal and egg/incubation effects makes birds well suited to this type of research. There are many factors, including feeding and nutrition, environmental conditions, husbandry practices, housing system, social environment, infectious environment, and maternal health status, that can influence both the health and performance and behavior and cognition of the offspring. There are some aspects of the environments that can be changed to produce beneficial effects in the offspring, like addition of certain additives to feed or short changes in incubation temperatures, while other aspects should be avoided to reduce negative effects, such as unpredictable feeding and lighting regimens. Measures of offspring characteristics may prove to be a useful method of assessing parent stock welfare if known stressors result in predictable offspring outcomes. This has the advantage of assessing the parent environment without interfering with the animals and possibly affecting their responses and could lead to improved welfare for the animals.

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Section: Resultsmentioning

confidence: 99%

Early experiences matter: a review of the effects of prenatal environment on offspring characteristics in poultry

2016

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“…Underlying those perceptual and behavioural effects, there is evidence that prenatal acoustic stimulation also alters neural development in the auditory system and associated brain regions, with broader consequences for cognition 17 , 18 . Specifically, pre- and perinatal exposure to species-specific sounds, music or noise has been shown in multiple species—including chickens, rats and humans—to modify neural connectivity and plasticity in several parts of the brain 15 , 18 , 19 , including the hippocampus, and to affect performance in cognitive tasks 17 , 20 . Importantly, the characteristics of the acoustic stimulus are crucial for predicting its effects, with rhythmic sounds, such as music, tending to improve cognitive performance, and arrhythmic sounds, such as noise, having the opposite effect (reviewed by Chaudhury 18 ).…”

Section: Introductionmentioning

confidence: 99%

Prenatal exposure to incubation calls affects song learning in the zebra finch

Katsis

Davies

Buchanan

et al. 2018

Sci Rep

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Songbirds are important models for understanding the mechanisms and fitness consequences of imitative vocal learning. Although the effects of early-life environmental and social conditions on song learning are well-established, the impact of early sound exposure has received surprisingly little attention. Yet recent evidence hints at auditory sensitivity in songbird embryos, including in the zebra finch (Taeniopygia guttata), a classic model species for song learning. Here, we tested whether prenatal exposure to incubation calls—highly rhythmic parental vocalisations produced on the nest—affected song learning in zebra finches. Embryos were exposed in the egg to either incubation (treatment) or contact (control) calls, and after hatching were reared in a large colony. The playback treatment did not affect song complexity nor the accuracy of song copying from the social father, but instead increased learning of non-paternal song syllables. This, in turn, improved males’ mounting success in mating trials. These effects may be attributable to changes in juvenile social behaviours, as playback also influenced male behaviour during mating trials. Our study provides the first experimental evidence that prenatal acoustic environment affects song learning and courtship behaviour in songbirds, thereby raising interesting questions on the role of innate versus acquired biases for vocal learning.

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“…Penelitian yang dilakukan oleh Rickard dkk (2005), Kauser dkk (2011), Sanyal (2013) menemukan bahwa pemberian stimulus prenatal dengan musik yang memiliki irama teratur dapat meningkatkan kemampuan spasial postnatal dan juga fungsi memori, namun pemberian musik dengan ritme kompleks dan suara bising yang bersifat aritmik memiliki efek sebaliknya.…”

Section: Upaya Peningkatanunclassified

PERBEDAAN PENGARUH PAPARAN MUSIK MOZART, BEETHOVEN, DAN CHOPIN SELAMA KEBUNTINGAN TERHADAP INDEKS APOPTOSIS SEL NEURON DI CEREBELLUM Rattus norvegicus BARU LAHIR

Fajrin

2019

JOB

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The efforts that can be done to improve brain cells in the prenatal period is the provision of nutrients and good stimulation. Exposure to classical music such as Mozart, Beethoven, and Chopin music can increase the wave of brain activity. During pregnancy, Mozart music is proven to decrease the apoptosis of neuronal. Analyzing the difference of apoptosis neuronal of cerebrum and cerebellum of newborn baby of Rattus norvegicus that are exposed to the Mozart, Beethoven, and Chopin music, and that is not exposed to music during pregnancy. Laboratory experimental research, posttestonly control group design. Subjects were female pregnant Rattus norvegicus, grouped into 4 random groups: 1 control group and 3 treatments groups; with 6 samples each. Subjects were super ovulated, and 65 dB intensity of music is played for an hour at 20.00-21.00 on the subjects on 10th day of pregnancy. On 20th day of pregnancy, the mothers was dissected using SC technique. 2 heaviest newborn babies of Rattus norvegicus were taken. Statistical test concluded there was significant differences of apoptosis neuronal of cerebellum of newborn babies of Rattus norvegicus among the exposure to Mozart, Beethoven, and Chopin music, and without the exposure to music with value of p=0,033 in cerebellum. In conclution, the exposure of Mozart’s music during pregnancy perform expression of BDNF cerebellum in the offspring-rat was higher than exposed Beethoven’s music, Chopin and not exposed to music.

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Prenatal Loud Music and Noise: Differential Impact on Physiological Arousal, Hippocampal Synaptogenesis and Spatial Behavior in One Day-Old Chicks

Cited by 51 publications

References 104 publications

Early experiences matter: a review of the effects of prenatal environment on offspring characteristics in poultry

Early experiences matter: a review of the effects of prenatal environment on offspring characteristics in poultry

Prenatal exposure to incubation calls affects song learning in the zebra finch

PERBEDAAN PENGARUH PAPARAN MUSIK MOZART, BEETHOVEN, DAN CHOPIN SELAMA KEBUNTINGAN TERHADAP INDEKS APOPTOSIS SEL NEURON DI CEREBELLUM Rattus norvegicus BARU LAHIR

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