This thesis focuses on important life history traits and their trade-offs using two hexapod models. Particularly, the trade-off between immune defense and embryonic developmental speed is a central theme of this study. In short, I study the details of immune defenses during embryonic development of basal hexapods in Chapter 2, the trade-off with developmental speed in Chapter 3, and the genetic basis of developmental speed in Chapter 4, using selection lines of the red flour beetle Tribolium castaneum.
I demonstrate that 1) springtail eggs do show an immune response, despite absence of a serosa that provides immune protection to insect eggs; 2) a strong trade-off is present between developmental speed and fecundity in the selection lines of the beetle T. castaneum; and 3) a life-history allele of large effect shortens developmental time in this wild insect population. I suggest that such alleles of large effect play a crucial role when insects have to adapt their...
Show moreThis thesis focuses on important life history traits and their trade-offs using two hexapod models. Particularly, the trade-off between immune defense and embryonic developmental speed is a central theme of this study. In short, I study the details of immune defenses during embryonic development of basal hexapods in Chapter 2, the trade-off with developmental speed in Chapter 3, and the genetic basis of developmental speed in Chapter 4, using selection lines of the red flour beetle Tribolium castaneum.
I demonstrate that 1) springtail eggs do show an immune response, despite absence of a serosa that provides immune protection to insect eggs; 2) a strong trade-off is present between developmental speed and fecundity in the selection lines of the beetle T. castaneum; and 3) a life-history allele of large effect shortens developmental time in this wild insect population. I suggest that such alleles of large effect play a crucial role when insects have to adapt their developmental speed to current climate change.
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