Age structure in a newly established and increasing population: initially high proportion of young birds among nesting Great Grey Owls

Geir A Sonerud,Roar Solheim,Trond Berg

doi:10.1007/s10336-020-01809-1

Geir A Sonerud, Roar Solheim + Show 1 more

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https://doi.org/10.1007/s10336-020-01809-1

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Abstract

The mechanisms behind expansions of the distribution of a bird species and the ensuing establishment of new populations are poorly known. The distribution of Great Grey Owl (Strix nebulosa) in the western Palearctic has generally expanded towards southwest during the past fifty years, and particularly so in Fennoscandia. In the past decade, the recorded breeding population in Norway, confined to Hedmark county bordering Sweden, increased from 1 pair in 2009 to > 100 pairs in 2017–2018, extending the southwestern border of the distribution > 100 km. We studied the age structure of this expanding population based on the molting pattern of the wing feathers of birds captured at the nest site for banding and of non-captured birds photographed in flight. In Fennoscandia the Great Grey Owl relies on shrews and microtine rodents, which usually fluctuate in 3–4 years cycles. The proportion of 1-year old birds among the nesting Great Grey Owls was higher in peak year two of each small mammal population cycle (2011, 2014 and 2018) than in peak year one (2010, 2013 and 2017), and was particularly high (77%) in 2011 when the owl population was far lower (22 nestings recorded) than in later corresponding years (64 nestings in 2014 and 103 in 2018). Thus, this population seems to have been founded to a large extent by birds nesting as 1 year olds, and most likely having dispersed from Sweden. The ability to determine the age of Great Grey Owls without having to capture them extended our data set, in particular for males, which are more reluctant to attack intruders at the nest site and, therefore, less likely to be captured for banding. Being able to age a bird without having to capture it is important, because trapping does not sample a bird population randomly.

Highlights

The colonization of new areas by a bird species through natural expansion of the breeding range, from the arrival of the first individuals to the establishment of a population, is fundamental for our understanding of avian speciation and population ecology in general, and of the effects of human activities and climate change in particular (Newton 2003)
Ornithologists have been eager to capture and band the breeding a established and expanding population of Great Grey Owls the proportion of 1 year olds among breeding individuals would be high in peak year two in the first small mammal cycle after the establishment of the Great Grey Owl population, and would decline as the population density increased
When all observations were included, the probability that a nesting Great Grey Owl was 1 year old was significantly affected by type of year and number of nesting attempts recorded (Table 4a)

Summary

Introduction

The colonization of new areas by a bird species through natural expansion of the breeding range, from the arrival of the first individuals to the establishment of a population, is fundamental for our understanding of avian speciation and population ecology in general, and of the effects of human activities and climate change in particular (Newton 2003). The mechanisms behind such expansions are poorly known, mainly because such events are rarely directly observed in detail (Karvonen et al 2012) These mechanisms may be intricate, as revealed for the cyclic replacement of one cavity nester by another in ephemeral habitat created by forest fire in Montana, USA; of the rapidly dispersing but poorly competitive Mountain Bluebird (Sialia currucoides) by the slowly dispersing but more competitive Western Bluebird (Sialia mexicana) (Duckworth and Badyaev 2007). In 2017 and 2018, another two nests were found even further to the south and west in two other counties (Haga and Bjerke 2017; Steen and Midtgard 2019) This expansion has been possible to follow in detail because Great Grey Owls have an iconic appearance, are large We hypothesized that there would be no difference between the sexes in the proportion of 1 year old birds breeding, and no difference in the proportion of 1 year olds between breeding birds being captured for banding and breeding non-captured birds being photographed in flight

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