Publication Type: | Journal Article |
Year of Publication: | 2019 |
作者: | Dowdy, Conner |
Journal: | Frontiers in Zoology |
Volume: | 16 |
Issue: | 1 |
Date Published: | Jan-12-2019 |
關鍵字: | Anti-predator defense, bioacoustics, Collections-based research, Lepidoptera, Predictive modeling |
摘要: | Background: Acoustic signals are used by many animals to transmit information. Variation in the acoustic characteristics of these signals often covaries with morphology and can relay information about an individual’s fitness, sex, species, and/or other characteristics important for both mating and defense. Tiger moths (Lepidoptera: Erebidae: Arctiinae) use modified cuticular plates called “tymbal organs” to produce ultrasonic clicks which can aposematically signal their toxicity, mimic the signals of other species, or, in some cases, disrupt bat echolocation. The morphology of the tymbal organs and the sounds they produce vary greatly between species, but it is unclear how the variation in morphology gives rise to the variation in acoustic characteristics. This is the first study to determine how the morphological features of tymbals can predict the acoustic characteristics of the signals they produce. Results: We show that the number of striations on the tymbal surface (historically known as “microtymbals”) and, to a lesser extent, the ratio of the projected surface area of the tymbal to that of the thorax have a strong, positive correlation with the number of clicks a moth produces per unit time. We also found that some clades have significantly different regression coefficients, and thus the relationship between microtymbals and click rate is also dependent on the shared ancestry of different species. Conclusions: Our predictive model allows the click rates of moths to be estimated using preserved material (e.g., from museums) in cases where live specimens are unavailable. This has the potential to greatly accelerate our understanding of the distribution of sound production and acoustic anti-bat strategies employed by tiger moths. Such knowledge will generate new insights into the evolutionary history of tiger moth anti-predator defenses on a global scale. |
URL: | https://frontiersinzoology.biomedcentral.com/articles/10.1186/s12983-019-0345-6 |
DOI: | 10.1186/s12983-019-0345-6 |
Short Title: | Front Zool |
Characteristics of tiger moth (Erebidae: Arctiinae) anti-bat sounds can be predicted from tymbal morphology
BioAcoustica ID:
57968
Taxonomic name: