Frontiers in Zoology (Apr 2023)

Offspring thermal demands and parental brooding efficiency differ for precocial birds living in contrasting climates

  • Veronika Kolešková,
  • Miroslav E. Šálek,
  • Kateřina Brynychová,
  • Petr Chajma,
  • Lucie Pešková,
  • Esmat Elhassan,
  • Eva Petrusová Vozabulová,
  • Veronika Janatová,
  • Aisha Almuhery,
  • Martin Sládeček

DOI
https://doi.org/10.1186/s12983-023-00492-1
Journal volume & issue
Vol. 20, no. 1
pp. 1 – 14

Abstract

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Abstract Background Chicks of precocial birds hatch well-developed and can search actively for food but their homeothermy develops gradually during growth. This makes them dependent on heat provided by parents (“brooding”), which is then traded off against other activities, mainly foraging. Although brooding has been documented in many precocial birds, little is known about the differences in the amount and efficiency of brooding care, brooding diel rhythmicity, and impact on the chick’s growth, particularly between species living in different climatic conditions. Results We used multisensory dataloggers to evaluate brooding patterns in two congeneric species inhabiting contrasting climate zones: temperate Northern lapwing (Vanellus vanellus) and desert Red-wattled lapwing (Vanellus indicus). In accordance with our expectation, the adult desert lapwings brooded the chicks slightly less compared to the adult temperate lapwings. However, the desert lapwings brooded their chicks in higher ambient temperatures and less efficiently (i.e. they could not reach the same brooding temperature as the temperate lapwings), which are new and hitherto unknown brooding patterns in precocial birds. In both species, night brooding prevailed even during warm nights, suggesting a general brooding rule among birds. Although the high rates of brooding can reduce the time spent by foraging, we found no negative effect of the high brooding rate on the growth rate in either species. Conclusions Our data suggest that the chicks of species breeding in colder climates may reduce their thermal demands, while their parents may increase the efficiency of parental brooding care. More research is however needed to confirm this as a rule across species.

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