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Seasonal variation in thermoregulatory capacity of three closely related Afrotropical Estrildid finches introduced to Europe
Pacioni, C.; Sentís, M.; Kerimov, A.; Bushuev, A.; Lens, L.; Strubbe, D. (2023). Seasonal variation in thermoregulatory capacity of three closely related Afrotropical Estrildid finches introduced to Europe. J. Therm. Biol. 113: 103534. https://dx.doi.org/10.1016/j.jtherbio.2023.103534
In: Journal of Thermal Biology. Elsevier: Oxford; New York. ISSN 0306-4565; e-ISSN 1879-0992, more
Peer reviewed article  

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Keywords
    Estrilda Swainson, 1827 [WoRMS]
    Terrestrial
Author keywords
    Invasive species; Waxbills; Climate variability hypothesis; Basal metabolic rate; Summit metabolic rate; Thermal conductance

Authors  Top 
  • Pacioni, C., more
  • Sentís, M., more
  • Kerimov, A.
  • Bushuev, A.
  • Lens, L., more
  • Strubbe, D., more

Abstract
    A species' potential geographical range is largely determined by how the species responds physiologically to its changing environment. It is therefore crucial to study the physiological mechanisms that species use to maintain their homeothermy in order to address biodiversity conservation challenges, such as the success of invasions of introduced species. The common waxbill Estrilda astrild, the orange-cheeked waxbill E. melpoda, and the black-rumped waxbill E. troglodytes are small Afrotropical passerines that have established invasive populations in regions where the climate is colder than in their native ranges. As a result, they are highly suitable species for studying potential mechanisms for coping with a colder and more variable climate. Here, we investigated the magnitude and direction of seasonal variation in their thermoregulatory traits, such as basal (BMR), summit (Msum) metabolic rates and thermal conductance. We found that, from summer to autumn, their ability to resist colder temperatures increased. This was not related to larger body masses or higher BMR and Msum, but instead, species downregulated BMR and Msum toward the colder season, suggesting energy conservation mechanisms to increase winter survival. BMR and Msum were most strongly correlated with temperature variation in the week preceding the measurements. Common waxbill and black-rumped waxbill, whose native ranges encompass the highest degree of seasonality, showed the most flexibility in metabolic rates (i.e., stronger downregulation toward colder seasons). This ability to adjust thermoregulatory traits, combined with increased cold tolerance, may facilitate their establishment in areas characterized by colder winters and less predictable climates.

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