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Temperature dependence of gas exchange patterns shift as diapause progresses in the butterfly Pieris napi.
Süess, Philip; Roberts, Kevin T; Lehmann, Philipp.
Affiliation
  • Süess P; Department of Zoology, Stockholm University, 11418 Stockholm, Sweden. Electronic address: philip.suess@zoologi.su.se.
  • Roberts KT; Department of Zoology, Stockholm University, 11418 Stockholm, Sweden.
  • Lehmann P; Department of Zoology, Stockholm University, 11418 Stockholm, Sweden; Zoological Institute and Museum, University of Greifswald, 17489 Greifswald, Germany.
J Insect Physiol ; 151: 104585, 2023 12.
Article in En | MEDLINE | ID: mdl-37977342
Insects have the capacity to significantly modify their metabolic rate according to environmental conditions and physiological requirement. Consequently, the respiratory patterns can range from continuous gas exchange (CGE) to discontinuous gas exchange (DGE). In the latter, spiracles are kept closed during much of the time, and gas exchange occurs only during short periods when spiracles are opened. While ultimate causes and benefits of DGE remain debated, it is often seen during insect diapause, a deep resting stage that insects induce to survive unfavourable environmental conditions, such as winter. The present study explores the shifts between CGE and DGE during diapause by performing long continuous respirometry measurements at multiple temperatures during key diapause stages in the green-veined white butterfly Pieris napi. The primary goal is to explore respiratory pattern as a non-invasive method to assess whether pupae are in diapause or have transitioned to post-diapause. Respiratory pattern can also provide insight into endogenous processes taking place during diapause, and the prolonged duration of diapause allows for the detailed study of the thermal dependence of the DGE pattern. Pupae change from CGE to DGE a few days after pupation, and this shift coincides with metabolic rate suppression during diapause initiation. Once in diapause, pupae maintain DGE even at elevated temperatures that significantly increase CO2 production. Instead of shifting respiratory pattern to CGE, pupae increase the frequency of DGE cycles. Since total CO2 released during a single open phase remains unchanged, our results suggest that P. napi pupae defend a maximum internal ρCO2 set point, even in their heavily suppressed diapause state. During post-diapause development, CO2 production increases as a function of development and changes to CGE during temperature conditions permissive for development. Taken together, the results show that respiratory patterns are highly regulated during diapause in P. napi and change predictably as diapause progresses.
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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Butterflies / Diapause, Insect / Diapause Limits: Animals Language: En Journal: J Insect Physiol Year: 2023 Document type: Article Country of publication: United kingdom

Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Butterflies / Diapause, Insect / Diapause Limits: Animals Language: En Journal: J Insect Physiol Year: 2023 Document type: Article Country of publication: United kingdom