Artículos de revistas
The vocal tract in loud twang-like singing while producing high and low pitches
Fecha
2021Registro en:
Journal of Voice Volume 35 Issue 5 Sep 2021
10.1016/j.jvoice.2020.02.005
Autor
Saldías O'hrens, Marcelo
Laukkanen, Anne Maria
Guzmán, Marco
Miranda González, Gonzalo
Stoney, Justin
Alku, Paavo
Sundberg, Johan
Institución
Resumen
Twang-like vocal qualities have been related to a megaphone-like shape of the vocal tract (epilar-yngeal tube and pharyngeal narrowing, and a wider mouth opening), low-frequency spectral changes, and tighter and/or increased vocal fold adduction. Previous studies have focused mainly on loud and high-pitched singing, comfortable low-pitched spoken vowels, or are based on modeling and simulation. There is no data available related to twang-like voices in loud, low-pitched singing.
Purpose. This study investigates the possible contribution of the lower and upper vocal tract configurations during loud twang-like singing on high and low pitches in a real subject.
Methods. One male contemporary commercial music singer produced a sustained vowel [a:] in his habitual speaking pitch (B-2) and loudness. The same vowel was also produced in a loud twang-like singing voice on high (G(4)) and low pitches (B-2). Computerized tomography, acoustic analysis, inverse filtering, and audio-perceptual assessments were performed.
Results. Both loud twang-like voices showed a megaphone-like shape of the vocal tract, being more notable on the low pitch. Also, low-frequency spectral changes, a peak of sound energy around 3 kHz and increased vocal fold adduction were found. Results agreed with audio-perceptual evaluation.
Conclusions. Loud twang-like phonation seems to be mainly related to low-frequency spectral changes (under 2 kHz) and a more compact formant structure. Twang-like qualities seem to require different degrees of twang-related vocal tract adjustments while phonating in different pitches. A wider mouth opening, pharyngeal constriction, and epilaryngeal tube narrowing may be helpful strategies for maximum power transfer and improved vocal economy in loud contemporary commercial music singing and potentially in loud speech. Further studies should focus on vocal efficiency and vocal economy measurements using modeling and simulation, based on real-singers' data.