An investigation of syrinx morphometry and sound frequency correlation during the chirping period in lovebirds ( Agapornis fischeri)
Cytra Meyliana Surya Dewi, Yeni Dhamayanti, Faisal Fikri, Agus Purnomo, Shafia Khairani, Shekhar Chhetri, Muhammad Thohawi Elziyad Purnama, Abdulmojeed Yakubu, Muhammad Thohawi Elziyad Purnama

TL;DR
This study explores how the syrinx structure in lovebirds relates to the frequency of their chirping sounds, finding differences between males and females.
Contribution
The study identifies specific syrinx structures responsible for sound frequency modulation in lovebirds, highlighting gender-based differences.
Findings
Tympaniform membranes lateral significantly modulate sound frequency in male lovebirds.
Female lovebirds have wider tympaniform membranes lateral compared to males.
Sound frequency negatively correlates with the area of tympaniform membranes lateral in both genders.
Abstract
Background: In the issue of biodiversity, the domestication of birds as pets and trade animals requires special attention as a conservation effort. Lovebirds ( Agapornis fischeri) are popular birds worldwide, due to their varied ornamentation and melodic chirping sound. Syrinx structure is suspected to be the main source of sound production during the chirping period. This study aimed to investigate syrinx morphometry and its correlation with sound frequency produced in lovebirds. Methods: A total of 24 lovebirds of different ages and gender were investigated. Polymerase chain reaction method was performed to determine lovebird gender, meanwhile bird age was identified based on post-hatch recordings at the breeding farm. Thus, we enrolled male (n=12) and female (n=12) lovebirds aged 2 (n=4), 3 (n=4), and 4 (n=4) months in the investigation group, respectively. Fast Fourier Transform…
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Taxonomy
TopicsAnimal Vocal Communication and Behavior · Marine animal studies overview · Avian ecology and behavior
