TY - JOUR
T1 - Polymorphism of Colias croceus from the Azores caused by differential pterin expression in the wing scales
AU - Hutsebaut, Jacques
AU - Leertouwer, Hein L.
AU - Stavenga, Doekele G.
N1 - Funding Information:
We thank Jean and Thérèse Mairiaux for allowing us to photograph their erateformis forms from Greece and Turkey, and Dr Nate Morehouse and two anonymous referees for critically reading the paper. This study was financially supported by AFOSR/EOARD grant FA9550-15-1-0068 (to DGS).
Funding Information:
We thank Jean and Thérèse Mairiaux for allowing us to photograph their erateformis forms from Greece and Turkey, and Dr Nate Morehouse and two anonymous referees for critically reading the paper. This study was financially supported by AFOSR /EOARD grant FA9550-15-1-0068 (to DGS).
Publisher Copyright:
© 2020 Elsevier Ltd
PY - 2020/11
Y1 - 2020/11
N2 - The pierid butterfly Colias croceus (Geoffroy in Fourcroy, 1785), established in the Azores archipelago, is polymorphic with six forms, C. croceus f. croceus ♂ and ♀, C. c. f. cremonae ♂ and ♀, C. c. f. helice ♀, and C. c. f. cremonaehelice ♀. We investigated the optical mechanisms underlying the wing colouration of the butterflies by performing spectrophotometry and imaging scatterometry of the variously coloured wing areas and scales. The scale colouration is primarily due to wavelength-selective absorption of incident light by pterins expressed in granular beads in the wing scales, but thin film reflections of the scales’ lower lamina and scale stacking also contribute. Three forms (croceus ♂ and ♀ and helice ♀) are consistent with the patterns of the well-known ‘alba’ polymorphism. We postulate the coexistence of a second polymorphism, ‘cremonae’, to understand the three other forms (cremonae ♂ and ♀, and cremonaehelice ♀), which are characterized by the absence of red pigment, presumably due to the differential blocking of erythropterin expression.
AB - The pierid butterfly Colias croceus (Geoffroy in Fourcroy, 1785), established in the Azores archipelago, is polymorphic with six forms, C. croceus f. croceus ♂ and ♀, C. c. f. cremonae ♂ and ♀, C. c. f. helice ♀, and C. c. f. cremonaehelice ♀. We investigated the optical mechanisms underlying the wing colouration of the butterflies by performing spectrophotometry and imaging scatterometry of the variously coloured wing areas and scales. The scale colouration is primarily due to wavelength-selective absorption of incident light by pterins expressed in granular beads in the wing scales, but thin film reflections of the scales’ lower lamina and scale stacking also contribute. Three forms (croceus ♂ and ♀ and helice ♀) are consistent with the patterns of the well-known ‘alba’ polymorphism. We postulate the coexistence of a second polymorphism, ‘cremonae’, to understand the three other forms (cremonae ♂ and ♀, and cremonaehelice ♀), which are characterized by the absence of red pigment, presumably due to the differential blocking of erythropterin expression.
KW - Erythropterin
KW - Imaging scatterometry
KW - Spectrophotometry
KW - Thin film
KW - Wing colouration
UR - http://www.scopus.com/inward/record.url?scp=85092496106&partnerID=8YFLogxK
U2 - 10.1016/j.jinsphys.2020.104114
DO - 10.1016/j.jinsphys.2020.104114
M3 - Article
C2 - 32905790
AN - SCOPUS:85092496106
SN - 0022-1910
VL - 127
JO - Journal of Insect Physiology
JF - Journal of Insect Physiology
M1 - 104114
ER -