Rapid colonisation, breeding and successful recruitment of eastern barn owls (Tyto alba delicatula) using a customised wooden nest box in remnant mallee cropping areas of southern Yorke Peninsula, South Australia

In arid parts of Australia the barn owl appears to feed largely on rodents which form irruptions or plagues, i.e. undergo marked changes in abundance. Barn owls became common at the height of an irruption of house mice, Mus musculus, in western New South Wales, but were comparatively scarce after the mice decreased in numbers. There was some evidence that the owls' diet, determined by analysis of pellets, was more varied immediately after the numbers of mice decreased, but its major part still consisted of M. musculus. The mean number of prey units represented in each pellet rose during the irruption and then declined to the original level. At a variety of sites in arid New South Wales and South Australia, barn owls' diet consisted almost entirely of small mammals. The most common prey species were rodents that fluctuate widely in abundance, and the mean amount of prey per pellet differed greatly among the study sites. The feeding ecology of barn owls in arid Australian environments is essentially similar to that described for more mesic habitats; hence, a greatly increased variation in the abundance of mammalian prey has not led to an increase in breadth of food niche.

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The effects of drought on prey selection of the barn owl (Tyto alba) in the Strzelecki Regional Reserve, north-eastern South Australia

Australian Mammalogy ◽

10.1071/am08115 ◽

2009 ◽

Vol 31 (1) ◽

pp. 47 ◽

Cited By ~ 9

Author(s):

Matthew C. McDowell ◽

Graham C. Medlin

Keyword(s):

Prey Selection ◽

South Australia ◽

Barn Owl ◽

Tyto Alba ◽

Dry Period ◽

Sminthopsis Crassicaudata ◽

North Eastern ◽

Barn Owls ◽

Effects Of Drought ◽

Selection Of

Changes in the diet of the barn owl (Tyto alba) were determined by analysing 619 egested pellets collected in eight samples over 12 months from a roost in the Strzelecki Regional Reserve, north-eastern South Australia. These data were used to examine the occurrence and change in frequency of small vertebrates in the region. In January 2003, at the end of a prolonged dry period, reptiles (predominantly geckos) dominated the diet of the barn owl, forming over 74% of Prey Units (PU%). This is the first Australian study to report reptiles as the primary prey of the barn owl. After substantial rain in February 2003, mammalian prey became much more common, and eventually accounted for almost 80 PU%. At least nine species of small mammal, at least four reptiles, nine birds and a frog were identified from the pellets. Mammalian prey included Leggadina forresti, Mus musculus, Notomys fuscus (endangered), Pseudomys desertor (not previously recorded in the reserve), P. hermannsburgensis, Planigale gilesi, Sminthopsis crassicaudata, S. macroura and Tadarida australis. This research showed that barn owls are capable of switching to alternative prey when mammals become rare, but that they return to preferred prey as soon as it becomes available.

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Contamination by neonicotinoid insecticides in barn owls (Tyto alba) and Alpine swifts (Tachymarptis melba)

The Science of The Total Environment ◽

10.1016/j.scitotenv.2021.147403 ◽

2021 ◽

Vol 785 ◽

pp. 147403

Author(s):

Ségolène Humann-Guilleminot ◽

Shirley Laurent ◽

Pierre Bize ◽

Alexandre Roulin ◽

Gaétan Glauser ◽

...

Keyword(s):

Tyto Alba ◽

Neonicotinoid Insecticides ◽

Barn Owls

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Nidicolous beetle species richness is driven by Barn Owl’s nests occupancy and landscape structure

Journal of Ornithology ◽

10.1007/s10336-021-01875-z ◽

2021 ◽

Author(s):

Vivien Cosandey ◽

Robin Séchaud ◽

Paul Béziers ◽

Yannick Chittaro ◽

Andreas Sanchez ◽

...

Keyword(s):

Species Richness ◽

Landscape Structure ◽

Barn Owl ◽

Arthropod Community ◽

Tyto Alba ◽

Nest Material ◽

Crop Fields ◽

Nest Boxes ◽

Bird Droppings ◽

Barn Owls

AbstractBird nests are specialized habitats because of their particular composition including nest detritus and bird droppings. In consequence, they attract a specialized arthropod community considered as nidicolous, which includes species only found in bird nests (strictly nidicolous) or sometimes found in bird nests (facultatively nidicolous). Because the factors influencing the entomofauna in bird nests are poorly understood, in autumn 2019, we collected nest material in 86 Barn Owl (Tyto alba) nest boxes. We investigated whether the invertebrate species richness was related to Barn Owl nest box occupancy, the density of available nest boxes and the landscape structure. We found 3,321 nidicolous beetle specimens belonging to 24 species. Species richness of strictly nidicolous beetles was 2.7 times higher in nest boxes occupied by a family of Barn Owls the previous spring compared to unoccupied nest boxes. It was also higher in sites that were more often occupied by Barn Owls in the five previous years and in areas surrounded by a higher proportion of crop fields. For facultatively nidicolous beetles, the density of Barn Owl nest boxes enhanced the species richness. In conclusion, our study suggests that the strictly nidicolous beetles benefit from occupied nest boxes of Barn Owls, whereas facultatively nidicolous beetles look for nest boxes independently of whether Barn Owls occupy them. Our study highlights the importance of bird nests for a suite of invertebrates.

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