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Träfflista för sökning "WFRF:(Wiklund Christer) ;pers:(Lehmann Philipp)"

Sökning: WFRF:(Wiklund Christer) > Lehmann Philipp

  • Resultat 1-4 av 4
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1.
  • Friberg, Magne, et al. (författare)
  • Autumn mass change and winter mass loss differ between migratory and nonmigratory butterflies
  • 2023
  • Ingår i: Animal Behaviour. - 0003-3472 .- 1095-8282. ; 204, s. 67-75
  • Tidskriftsartikel (refereegranskat)abstract
    • Poikilotherms have two major alternative strategies to deal with the inhospitable conditions of temperate winters: hibernation or migration. The vast majority of insects spend winter in a speciesspecific diapause resting stage, while others remain reproductively active after having migrated to more hospitable environments in the autumn. The butterfly clade Nymphalini offers an interesting possibility for comparisons among species adopting different strategies. Whereas most genera in this clade have evolved adult diapause, species in the genus Vanessa engage in an annual multigeneration migration cycle, leaving northern latitudes during autumn. Here, we compared two species of diapausing Aglais butterflies, A. io and A. urtica, two species of the migratory genus Vanessa, V. atalanta and V. cardui, and two morphs of Polygonia c-album, the diapausing winter morph and the direct developing hutchinsoni morph. We tested how these different species differ in resource acquisition strategy during early adult life, how the acquisition of resources affects survival in cold winter conditions and how A. io, Aglais urticae and V. atalanta differ in resting metabolism under cold conditions. The butterflies set for adult diapause (1) acquired more mass during early adult life and (2) lost less mass and had a lower resting metabolism under cold conditions. In addition, (3) the life span under cold conditions was positively related to the weight increase during early adult life in the diapausing species, but not in the migratory species. Our laboratory results demonstrate how different developmental pathways, such as diapause or direct development, can be studied by measuring mass change in living butterflies. Our expectation that migratory species would increase in mass like species set for overwintering were not met, perhaps because such studies should ideally be performed under natural conditions. (c) 2023 The Author(s). Published by Elsevier Ltd on behalf of The Association for the Study of Animal Behaviour. This is an open access article under the CC BY license (http://creativecommons.org/licenses/ by/4.0/).
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2.
  • Lehmann, Philipp, et al. (författare)
  • Energy and lipid metabolism during direct and diapause development in a pierid butterfly
  • 2016
  • Ingår i: Journal of Experimental Biology. - : The Company of Biologists. - 0022-0949 .- 1477-9145. ; 219:19, s. 3049-3060
  • Tidskriftsartikel (refereegranskat)abstract
    • Diapause is a fundamental component of the life-cycle in the majority of insects living in environments characterized by strong seasonality. The present study addresses poorly understood associations and trade-offs between endogenous diapause duration, thermal sensitivity of development, energetic cost of development and cold tolerance. Diapause intensity, metabolic rate trajectories and lipid profiles of directly developing and diapausing animals were studied using pupae and adults of Pieris napi butterflies from a population for which endogenous diapause is well studied. Endogenous diapause was terminated after 3 months and termination required chilling. Metabolic and postdiapause development rates increased with diapause duration, while the metabolic cost of postdiapause development decreased, indicating that once diapause is terminated development proceeds at a low rate even at low temperature. Diapausing pupae had larger lipid stores than the directly developing pupae and lipids constituted the primary energy source during diapause. However, during diapause lipid stores did not decrease. Thus, despite lipid catabolism meeting the low energy costs of the diapausing pupae, primary lipid store utilization did not occur until the onset of growth and metamorphosis in spring. In line with this finding, diapausing pupae contained low amounts of mitochondria-derived cardiolipins, which suggests a low capacity for fatty acid β-oxidation. While ontogenic development had a large effect on lipid and fatty acid profiles, only small changes in these were seen during diapause. The data therefore indicate that the diapause lipidomic phenotype is built early, when pupae are still at high temperature, and retained until diapause post-diapause development.
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3.
  • Lehmann, Philipp, et al. (författare)
  • Metabolome dynamics of diapause in the butterfly Pieris napi: Distinguishing maintenance, termination and post-diapause phases
  • 2018
  • Ingår i: Journal of Experimental Biology. - : The Company of Biologists. - 1477-9145 .- 0022-0949. ; 221:2
  • Tidskriftsartikel (refereegranskat)abstract
    • Diapause is a deep resting stage facilitating temporal avoidance of unfavourable environmental conditions, and is used by many insects to adapt their life cycle to seasonal variation. Although considerable work has been invested in trying to understand each of the major diapause stages (induction, maintenance and termination), we know very little about the transitions between stages, especially diapause termination. Understanding diapause termination is crucial for modelling and predicting spring emergence and winter physiology of insects, including many pest insects. In order to gain these insights, we investigated metabolome dynamics across diapause development in pupae of the butterfly Pieris napi, which exhibits adaptive latitudinal variation in the length of endogenous diapause that is uniquely well characterized. By employing a time-series experiment, we show that the whole-body metabolome is highly dynamic throughout diapause and differs between pupae kept at a diapause-terminating (low) temperature and those kept at a diapause-maintaining (high) temperature. We show major physiological transitions through diapause, separate temperature-dependent from temperature-independent processes and identify significant patterns of metabolite accumulation and degradation. Together, the data show that although the general diapause phenotype (suppressed metabolism, increased cold tolerance) is established in a temperature-independent fashion, diapause termination is temperature dependent and requires a cold signal. This revealed several metabolites that are only accumulated under diapause-terminating conditions and degraded in a temperatureunrelated fashion during diapause termination. In conclusion, our findings indicate that some metabolites, in addition to functioning as cryoprotectants, for example, are candidates for having regulatory roles as metabolic clocks or time-keepers during diapause.
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4.
  • Wiklund, Christer, et al. (författare)
  • Diapause decision in the small tortoiseshell butterfly, Aglais urticae
  • 2019
  • Ingår i: Entomologia Experimentalis et Applicata. - : Wiley. - 0013-8703 .- 1570-7458. ; 167:5, s. 433-441
  • Tidskriftsartikel (refereegranskat)abstract
    • Insects in temperate areas spend the inhospitable winter conditions in a resting stage known as diapause. In species that diapause in the larval or pupal stage, the decision whether to diapause or develop directly is customarily taken during the late instars, with long days (i.e., long light phases) and high temperatures promoting direct development. Among butterflies that overwinter as adults, data are rare and variable, but imply that the larval daylength conditions can affect the pathway decision. We studied the small tortoiseshell, Aglais urticae L. (Lepidoptera: Nymphalidae, Nymphalini), which is partially bivoltine from Central Scandinavia and southwards, and tested whether the pathway decision is taken in the larval or adult stage. We reared larvae under long-day (L22:D2) or short-day (L12:D12) photoperiods, and recorded the pathway taken by the eclosing adults by scoring their propensity to mate and produce eggs. We also tested whether the larval photoperiod influenced adult ability to diapause by assessing adult survival. The results clearly indicate that (1) there is no detectable effect of larval photoperiod treatment on the pathway decision taken by adults whether to enter diapause or to develop directly, (2) some individuals are obligately univoltine and insensitive to photoperiod during adulthood, whereas (3) other individuals can facultatively enter diapause or direct development, depending on the photoperiod experienced after adult eclosion.
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