Patterns of postnatal growth in a small falcon, the lesser kestrel Falco naumanni (Fleischer, 1818) (Aves: Falconidae)

S Braziotis,V Liordos,D E Bakaloudis,V Goutner,M A Papakosta,C G Vlachos

doi:10.1080/24750263.2017.1329359

Abstract

Following a dramatic decline, the lesser kestrel Falco naumanni global population has recently stabilised, although it is still fluctuating in several countries, including Greece. Nestling growth rates and size at fledging greatly influence future survival and reproductive success, and therefore the study of postnatal growth can aid the understanding of population dynamics and the conservation of avian populations. We quantified body mass and morphological traits in female and male lesser kestrel nestlings from a lowland Greek breeding population. Nonlinear mixed models were used to describe and compare growth trajectories. Growth in body mass, tarsus and bill reached asymptotic values before fledging and was best described by the logistic equation, whereas total length grew linearly beyond the fledging phase. Random variation was found in the asymptote in body mass, the inflection point in body mass, tarsus and bill lengths and the intercept in total length, being substantially higher between nests than amongst siblings, implying differences in parental quality between nests and also an even distribution of parental care amongst siblings. Random effects were not observed on the growth rate constant, supporting the hypothesis that it varies little within populations. Females were signiﬁcantly heavier and had longer bills and total length than males, whereas males were similar to females in tarsus growth. Nonlinear mixed models allowed us to describe a stage of avian life vital for future survival and reproductive output and reveal variation between nests, nestlings and the sexes.

Highlights

The study of postnatal growth can provide critical information for the conservation of avian populations because nestling growth rates and size at fledging greatly influence future survival and reproductive success (Gebhardt-Henrich & Richner 1998)
The random-effects models were much better than the fixed-effects-only models for all growth measurements (ΔAICc > 225) and support was strongest for models in which nest and nestling random effects were not correlated between parameters, for all growth measurements (Table S1)
The estimated nest and nestling random effect Standard deviation (SD) on the asymptotic mass were 9.17 g and 0.53 g, respectively

Summary

Introduction

The study of postnatal growth can provide critical information for the conservation of avian populations because nestling growth rates and size at fledging greatly influence future survival and reproductive success (Gebhardt-Henrich & Richner 1998). Food availability seems to be the most important environmental factor for postnatal growth (Martin 1987), and most other environmental causes of growth variation, especially in body mass, seem somehow related to food supply (Gebhardt-Henrich & Richner 1998). European shags Phalacrocorax aristotelis (Linnaeus, 1761), suggesting that structural size is expected to vary less with varying food availability than body mass is. Sex has been confirmed to influence growth, especially in sexually dimorphic species (Becker & Wink 2003; Kalmbach et al 2009). The first stresses the importance of large female size in the evolution of RSSD (females may be heavier to increase reproductive output: natural selection hypothesis), while the second focuses on the significance of small male size

Methods

Results

Conclusion