Your search keyword '"Dent, Micheal L."' showing total 11 results

1. Principles of Auditory Object Formation by Nonhuman Animals

Author

Dent, Micheal L., Bee, Mark A., Fay, Richard R., Series Editor, Popper, Arthur N., Series Editor, Slabbekoorn, Hans, editor, and Dooling, Robert J., editor

Published

2018

2. Best sensitivity of temporal modulation transfer functions in laboratory mice matches the amplitude modulation embedded in vocalizations.

Author

Cai, Huaizhen and Dent, Micheal L.

Subjects

*AMPLITUDE modulation, *TRANSFER functions, *LABORATORY mice, *AUDITORY perception, *OPERANT conditioning, *WHITE noise, *ACOUSTIC stimulation

Abstract

The perception of spectrotemporal changes is crucial for distinguishing between acoustic signals, including vocalizations. Temporal modulation transfer functions (TMTFs) have been measured in many species and reveal that the discrimination of amplitude modulation suffers at rapid modulation frequencies. TMTFs were measured in six CBA/CaJ mice in an operant conditioning procedure, where mice were trained to discriminate an 800 ms amplitude modulated white noise target from a continuous noise background. TMTFs of mice show a bandpass characteristic, with an upper limit cutoff frequency of around 567 Hz. Within the measured modulation frequencies ranging from 5 Hz to 1280 Hz, the mice show a best sensitivity for amplitude modulation at around 160 Hz. To look for a possible parallel evolution between sound perception and production in living organisms, we also analyzed the components of amplitude modulations embedded in natural ultrasonic vocalizations (USVs) emitted by this strain. We found that the cutoff frequency of amplitude modulation in most of the individual USVs is around their most sensitive range obtained from the psychoacoustic experiments. Further analyses of the duration and modulation frequency ranges of USVs indicated that the broader the frequency ranges of amplitude modulation in natural USVs, the shorter the durations of the USVs. [ABSTRACT FROM AUTHOR]

Published

2020

3. Experience with speech sounds is not necessary for cue trading by budgerigars (Melopsittacus undulatus).

Author

Flaherty, Mary, Dent, Micheal L., and Sawusch, James R.

Subjects

*BUDGERIGAR, *SPEECH synthesis, *PHONOLOGY, *OPERANT conditioning, *LINGUISTICS

Abstract

The influence of experience with human speech sounds on speech perception in budgerigars, vocal mimics whose speech exposure can be tightly controlled in a laboratory setting, was measured. Budgerigars were divided into groups that differed in auditory exposure and then tested on a cue-trading identification paradigm with synthetic speech. Phonetic cue trading is a perceptual phenomenon observed when changes on one cue dimension are offset by changes in another cue dimension while still maintaining the same phonetic percept. The current study examined whether budgerigars would trade the cues of voice onset time (VOT) and the first formant onset frequency when identifying syllable initial stop consonants and if this would be influenced by exposure to speech sounds. There were a total of four different exposure groups: No speech exposure (completely isolated), Passive speech exposure (regular exposure to human speech), and two Speech-trained groups. After the exposure period, all budgerigars were tested for phonetic cue trading using operant conditioning procedures. Birds were trained to peck keys in response to different synthetic speech sounds that began with “d” or “t” and varied in VOT and frequency of the first formant at voicing onset. Once training performance criteria were met, budgerigars were presented with the entire intermediate series, including ambiguous sounds. Responses on these trials were used to determine which speech cues were used, if a trading relation between VOT and the onset frequency of the first formant was present, and whether speech exposure had an influence on perception. Cue trading was found in all birds and these results were largely similar to those of a group of humans. Results indicated that prior speech experience was not a requirement for cue trading by budgerigars. The results are consistent with theories that explain phonetic cue trading in terms of a rich auditory encoding of the speech signal. [ABSTRACT FROM AUTHOR]

Published

2017

4. The effects of aging and sex on detection of ultrasonic vocalizations by adult CBA/CaJ mice (Mus musculus).

Author

Kobrina, Anastasiya and Dent, Micheal L.

Subjects

*ANIMAL sound production, *ULTRASONICS, *AGING, *AUDITORY pathways, *LABORATORY mice

Abstract

Mice are frequently used as animal models for human hearing research, yet their auditory capabilities have not been fully explored. Previous studies have established auditory threshold sensitivities for pure tone stimuli in CBA/CaJ mice using ABR and behavioral methodologies. Little is known about how they perceive their own ultrasonic vocalizations (USVs), and nothing is known about how aging influences this perception. The aim of the present study was to establish auditory threshold sensitivity for several USV types, as well as to track these thresholds across the mouse's lifespan. In order to determine how well mice detect these complex communication stimuli, several CBA/CaJ mice were trained and tested at various ages on a detection task using operant conditioning procedures. Results showed that mice were able to detect USVs into old age. Not surprisingly, thresholds differed for the different USV types. Male mice suffered greater hearing loss than females for all calls but not for 42 kHz tones. In conclusion, the results highlight the importance of studying complex signals across the lifespan. [ABSTRACT FROM AUTHOR]

Published

2016

5. Discrimination of frequency modulated sweeps by mice.

Author

Screven, Laurel A. and Dent, Micheal L.

Subjects

*MICE behavior, *SOUND production by mammals, *ULTRASONICS, *OPERANT conditioning, *REINFORCEMENT (Psychology), *BANDWIDTHS

Abstract

Mice often produce ultrasonic vocalizations (USVs) that sweep upwards in frequency from around 60 to around 80 kHz and downwards in frequency from 80 to 60 kHz. Whether or not these USVs are used for communication purposes is still unknown. Here, mice were trained and tested using operant conditioning procedures and positive reinforcement to discriminate between synthetic upsweeps and downsweeps. The stimuli varied in bandwidth, duration, and direction of sweep. The mice performed significantly worse when discriminating between background and test stimuli when the stimuli all occupied the same bandwidths. Further, the mice’s discrimination performance became much worse for stimuli that had durations similar to those natural vocalizations of the mice. Sweeps composed of different frequency ranges and longer durations had improved discrimination. These results collected using artificial stimuli created to mimic natural USVs indicate that the bandwidth of the vocalizations may be much more important for communication than the frequency contours of the vocalizations. [ABSTRACT FROM AUTHOR]

Published

2016

6. Cues for auditory stream segregation of birdsong in budgerigars and zebra finches: Effects of location, timing, amplitude, and frequency.

Author

Dent, Micheal L., Martin, Amanda K., Flaherty, Mary M., and Neilans, Erikson G.

Subjects

*BIRDSONGS, *BUDGERIGAR, *ZEBRA finch, *ACOUSTIC localization, *OPERANT conditioning, *AUDITORY scene analysis

Abstract

Deciphering the auditory scene is a problem faced by many organisms. However, when faced with numerous overlapping sounds from multiple locations, listeners are still able to attribute the individual sound objects to their individual sound-producing sources. Here, the characteristics of sounds important for integrating versus segregating in birds were determined. Budgerigars and zebra finches were trained using operant conditioning procedures on an identification task to peck one key when they heard a whole zebra finch song and to peck another when they heard a zebra finch song missing a middle syllable. Once the birds were trained to a criterion performance level on those stimuli, probe trials were introduced on a small proportion of trials. The probe songs contained modifications of the incomplete training song's missing syllable. When the bird responded as if the probe was a whole song, it suggests they streamed together the altered syllable and the rest of the song. When the bird responded as if the probe was a non-whole song, it suggests they segregated the altered probe from the rest of the song. Results show that some features, such as location and intensity, are more important for segregating than other features, such as timing and frequency. [ABSTRACT FROM AUTHOR]

Published

2016

7. Spatial Unmasking of Birdsong in Zebra Finches (Taeniopygia guttata) and Budgerigars (Melopsittacus undulatus).

Author

Dent, Micheal L., McClaine, Elizabeth M., Best, Virginia, Ozmeral, Erol, Narayan, Rajiv, Gallun, Frederick J., Sen, Kamal, and Shinn-Cunningham, Barbara G.

Subjects

*ZEBRA finch, *BUDGERIGAR, *BIRDSONGS, *OPERANT conditioning, *MASKING (Psychology), *BIRD psychology

Abstract

Budgerigars and zebra finches were tested, using operant conditioning techniques, on their ability to identify a zebra finch song in the presence of a background masker emitted from either the same or a different location as the signal. Identification thresholds were obtained for three masker types differing in their spectrotemporal characteristics (noise, modulated noise, and a song chorus). Both bird species exhibited similar amounts of spatial unmasking across the three masker types. The amount of unmasking was greater when the masker was played continuously compared to when the target and masker were presented simultaneously. These results suggest that spatial factors are important for birds in the identification of natural signals in noisy environments. [ABSTRACT FROM AUTHOR]

Published

2009

8. Frequency difference limens and auditory cue trading in CBA/CaJ mice (Mus musculus).

Author

Radziwon, Kelly E. and Dent, Micheal L.

Subjects

*LABORATORY mice, *ANIMAL behavior, *AUDITORY perception, *ULTRASONIC waves, *AVERSIVE stimuli

Abstract

Mice are emerging as an important behavioral model for studies of auditory perception and acoustic communication. These mammals frequently produce ultrasonic vocalizations, although the details of how these vocalizations are used for communication are not entirely understood. An important step in determining how they might be differentiating their calls is to measure discrimination and identification of the dimensions of various acoustic stimuli. Here, behavioral operant conditioning methods were employed to assess frequency difference limens for pure tones. We found that their thresholds were similar to those in other rodents but higher than in humans. We also asked mice, in an identification paradigm, whether they would use frequency or duration differences to classify stimuli varying on those two dimensions. We found that the mice classified the stimuli based on frequency rather than duration. [ABSTRACT FROM AUTHOR]

Published

2014

9. Intensity difference limens in adult CBA/CaJ mice (Mus musculus).

Author

Kobrina, Anastasiya, Toal, Katrina L., and Dent, Micheal L.

Subjects

*AUDITORY perception, *LABORATORY mice, *AUDIO frequency, *MAMMALS, *SENSES

Abstract

Mice have emerged as important models of auditory perception and acoustic communication. To study and model complex sound perception and communication, basic hearing abilities have to be established, yet intensity difference limens have not been measured in CBA/CaJ mice. Nine mice were trained using operant conditioning procedures with positive reinforcement to discriminate sound intensity across frequencies. Intensity difference limens were measured for 12, 16, 24, and 42 kHz tones at 10 and 30 dB sensation levels. Mice are capable of discriminating intensities across frequencies and sensation levels, but have higher intensity difference limens (IDLs) thresholds than other mammals. [ABSTRACT FROM AUTHOR]

Published

2018

10. Rodent Sound Localization and Spatial Hearing

Author

Lauer, Amanda M., Engel, James H., Schrode, Katrina, Fay, Richard R., Series Editor, Popper, Arthur N., Series Editor, and Dent, Micheal L., editor

Published

2018

11. Long term changes to auditory sensitivity following blast trauma in mice.

Author

Burke, Kali, Manohar, Senthilvelan, and Dent, Micheal L.

Subjects

*OTOACOUSTIC emissions, *MICE, *OPERANT conditioning

Abstract

• Auditory sensitivity was measured before/after blasts in CBA/CaJ mice. • Sensitivity measured by behavioral and physiological tests decreased. • Thresholds, but not threshold shifts, were different across methods. • Longitudinal changes to hearing after a blast reflect damage to auditory periphery. Blast trauma is a common acoustic/physical insult occurring in modern warfare. Twenty percent of active duty military come into close proximity to explosions and experience mild to severe sensory deficits. The prevalence of such injuries is high but correlating auditory sensitivity changes with the initial insult is difficult because injury and evaluations are often separated by long time periods. Here, auditory sensitivity was measured before and after a traumatic blast in adult CBA/CaJ mice using auditory brainstem responses, distortion production otoacoustic emissions, and behavioral detection of pure tones. These measurements included baseline auditory sensitivity prior to injury in all mice, and again at 3, 30, and 90 days after the blast in the two physiological groups, and daily for up to 90 days in the behavioral group. Mice in all groups experienced an initial deterioration in auditory sensitivity, though physiological measurements showed evidence of recovery that behavioral measurements did not. Amplitudes and latencies of ABR waves may reflect additional changes beyond the peripheral damage shown by the threshold changes and should be explored further. The present work addresses a major gap in the current acoustic trauma literature both in terms of comparing physiological and behavioral methods, as well as measuring the time course of recovery. [ABSTRACT FROM AUTHOR]

Published

2021