Bogong Moths Are Well Camouflaged by Effectively Decolourized Wing Scales
(2020) In Frontiers in Physiology 11.- Abstract
- Moth wings are densely covered by wing scales that are assumed to specifically function to camouflage nocturnally active species during day time. Generally, moth wing scales are built according to the basic lepidopteran Bauplan, where the upper lamina consists of an array of parallel ridges and the lower lamina is a thin plane. The lower lamina hence acts as a thin film reflector having distinct reflectance spectra that can make the owner colorful and thus conspicuous for predators. Most moth species therefore load the scales’ upper lamina with variable amounts of melanin so that dull, brownish color patterns result. We investigated whether scale pigmentation in this manner indeed provides moths with camouflage by comparing the reflectance... (More)
- Moth wings are densely covered by wing scales that are assumed to specifically function to camouflage nocturnally active species during day time. Generally, moth wing scales are built according to the basic lepidopteran Bauplan, where the upper lamina consists of an array of parallel ridges and the lower lamina is a thin plane. The lower lamina hence acts as a thin film reflector having distinct reflectance spectra that can make the owner colorful and thus conspicuous for predators. Most moth species therefore load the scales’ upper lamina with variable amounts of melanin so that dull, brownish color patterns result. We investigated whether scale pigmentation in this manner indeed provides moths with camouflage by comparing the reflectance spectra of the wings and scales of the Australian Bogong moth (Agrotis infusa) with those of objects in their natural environment. The similarity of the spectra underscores the effective camouflaging strategies of this moth species. (Less)
- Abstract (Swedish)
- Moth wings are densely covered by wing scales that are assumed to specifically function to camouflage nocturnally active species during day time. Generally, moth wing scales are built according to the basic lepidopteran Bauplan, where the upper lamina consists of an array of parallel ridges and the lower lamina is a thin plane. The lower lamina hence acts as a thin film reflector having distinct reflectance spectra that can make the owner colorful and thus conspicuous for predators. Most moth species therefore load the scales’ upper lamina with variable amounts of melanin so that dull, brownish color patterns result. We investigated whether scale pigmentation in this manner indeed provides moths with camouflage by comparing the reflectance... (More)
- Moth wings are densely covered by wing scales that are assumed to specifically function to camouflage nocturnally active species during day time. Generally, moth wing scales are built according to the basic lepidopteran Bauplan, where the upper lamina consists of an array of parallel ridges and the lower lamina is a thin plane. The lower lamina hence acts as a thin film reflector having distinct reflectance spectra that can make the owner colorful and thus conspicuous for predators. Most moth species therefore load the scales’ upper lamina with variable amounts of melanin so that dull, brownish color patterns result. We investigated whether scale pigmentation in this manner indeed provides moths with camouflage by comparing the reflectance spectra of the wings and scales of the Australian Bogong moth (Agrotis infusa) with those of objects in their natural environment. The similarity of the spectra underscores the effective camouflaging strategies of this moth species. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/e51a4042-a4bf-4725-b7d7-c92f68c597c7
- author
- Stavenga, Doekele ; Wallace, Jesse and Warrant, Eric LU
- organization
- publishing date
- 2020-02-11
- type
- Contribution to journal
- publication status
- published
- subject
- in
- Frontiers in Physiology
- volume
- 11
- article number
- 95
- pages
- 9 pages
- publisher
- Frontiers Media S. A.
- external identifiers
-
- pmid:32116798
- scopus:85081103241
- ISSN
- 1664-042X
- DOI
- 10.3389/fphys.2020.00095
- project
- Hunting for the elusive "sixth" sense: navigation and magnetic sensation in a nocturnal migratory moth (MagneticMoth)
- language
- English
- LU publication?
- yes
- additional info
- This work was funded by the European Union (EU) and the Horizon 2020 program: European Research Council (ERC) Advanced Grant MagneticMoth (grant no. 741298)
- id
- e51a4042-a4bf-4725-b7d7-c92f68c597c7
- date added to LUP
- 2020-06-26 07:27:11
- date last changed
- 2024-04-03 09:17:38
@article{e51a4042-a4bf-4725-b7d7-c92f68c597c7, abstract = {{Moth wings are densely covered by wing scales that are assumed to specifically function to camouflage nocturnally active species during day time. Generally, moth wing scales are built according to the basic lepidopteran Bauplan, where the upper lamina consists of an array of parallel ridges and the lower lamina is a thin plane. The lower lamina hence acts as a thin film reflector having distinct reflectance spectra that can make the owner colorful and thus conspicuous for predators. Most moth species therefore load the scales’ upper lamina with variable amounts of melanin so that dull, brownish color patterns result. We investigated whether scale pigmentation in this manner indeed provides moths with camouflage by comparing the reflectance spectra of the wings and scales of the Australian Bogong moth (Agrotis infusa) with those of objects in their natural environment. The similarity of the spectra underscores the effective camouflaging strategies of this moth species.}}, author = {{Stavenga, Doekele and Wallace, Jesse and Warrant, Eric}}, issn = {{1664-042X}}, language = {{eng}}, month = {{02}}, publisher = {{Frontiers Media S. A.}}, series = {{Frontiers in Physiology}}, title = {{Bogong Moths Are Well Camouflaged by Effectively Decolourized Wing Scales}}, url = {{https://lup.lub.lu.se/search/files/81049815/Stavenga_et_al._2020.docx}}, doi = {{10.3389/fphys.2020.00095}}, volume = {{11}}, year = {{2020}}, }