Super Cooling Point Phenotypes and Cold Resistance in <i>Hyles euphorbiae</i> Hawk Moths from Different Climate Zones

• Main Authors: Hana Daneck, Matthias Benjamin Barth, Martin Geck, Anna K. Hundsdoerfer
• Format: Article
• Language: English
• Published: MDPI AG 2021-05-01
• Series: Diversity
• Subjects: <i>Hyles euphorbiae</i> complex; spurge hawkmoth; sphingidae; invertebrate physiology; insect cold tolerance; cold acclimation
• Online Access: https://www.mdpi.com/1424-2818/13/5/207

The spurge hawkmoth <i>Hyles euphorbiae</i> L. (Sphingidae) comprises a remarkable species complex with still not fully resolved taxonomy. Its extensive natural distribution range covers diverse climatic zones. This predestinates particular populations to cope with different local seasonally unfavorable environmental conditions. The ability of the pupae to overcome outer frosty conditions is well known. However, the differences between two main ecotypes (‘euphorbiae’ and ‘tithymali’) in terms of the inherent degree of frost tolerance, its corresponding survival strategy, and underlying mechanism have not been studied in detail so far. The main aim of our study was to test the phenotypic exhibition of pupae (as the relevant life cycle stadia to outlast unfavorable conditions) in response to combined effects of exogenous stimuli, such as daylight length and cooling regime. Namely, we tested the turnout of subitan (with fast development, unadapted to unfavorable conditions) or diapause (paused development, adapted to unfavorable external influences and increased resistance) pupae under different conditions, as well as their mortality, and we measured the super cooling point (SCP) of whole pupae (in vivo) and pupal hemolymph (in vitro) as phenotypic indicators of cold acclimation. Our results show higher cold sensitivity in ‘tithymali’ populations, exhibiting rather opportunistic and short-termed cold hardiness, while ‘euphorbiae’ produces a phenotype of seasonal cold-hardy diapause pupae under a combined effect of short daylight length and continuous cold treatment. Further differences include the variability in duration and mortality of diapause pupae. This suggests different pre-adaptations to seasonal environmental conditions in each ecotype and may indicate a state of incipient speciation within the <i>H. euphorbiae</i> complex.