Insects (Sep 2019)

Neo Sex Chromosomes, Colour Polymorphism and Male-Killing in the African Queen Butterfly, <i>Danaus chrysippus</i> (L.)

  • David A.S. Smith,
  • Walther Traut,
  • Simon H. Martin,
  • Piera Ireri,
  • Kennedy S. Omufwoko,
  • Richard ffrench-Constant,
  • Ian J. Gordon

DOI
https://doi.org/10.3390/insects10090291
Journal volume & issue
Vol. 10, no. 9
p. 291

Abstract

Read online

Danaus chrysippus (L.), one of the world’s commonest butterflies, has an extensive range throughout the Old-World tropics. In Africa it is divided into four geographical subspecies which overlap and hybridise freely in the East African Rift: Here alone a male-killing (MK) endosymbiont, Spiroplasma ixodetis, has invaded, causing female-biased populations to predominate. In ssp. chrysippus, inside the Rift only, an autosome carrying a colour locus has fused with the W chromosome to create a neo-W chromosome. A total of 40−100% of Rift females are neo-W and carry Spiroplasma, thus transmitting a linked, matrilineal neo-W, MK complex. As neo-W females have no sons, half the mother’s genes are lost in each generation. Paradoxically, although neo-W females have no close male relatives and are thereby forced to outbreed, MK restricts gene flow between subspecies and may thus promote speciation. The neo-W chromosome originated in the Nairobi region around 2.2 k years ago and subsequently spread throughout the Rift contact zone in some 26 k generations, possibly assisted by not having any competing brothers. Our work on the neo-W chromosome, the spread of Spiroplasma and possible speciation is ongoing.

Keywords