Artificial
tree hollows (e.g., nest-boxes) are commonly deployed to mitigate the loss of
mature trees within human-disturbed landscapes. Their effectiveness as a
habitat resource, and thus conservation management tool, is strongly influenced
by the suitability of internal microclimate conditions. In southeastern Australia,
spout hollows are a nesting resource used by a diverse community of vertebrate
species. We tested the suitability of a novel nest box design (spout boxes)
that mimicked the physical characteristics of spout hollows. We monitored the
occupancy (n = 193) and internal microclimate (n = 131) of natural hollows and
spout boxes within a woodland where natural tree hollows were once abundant.
Both natural hollows and spout boxes were occupied and used for breeding by
birds and mammals. Natural hollows had consistently higher humidity, and
thermal maxima and minima were buffered, when compared with spout boxes. These
differences were largely explained by wall thickness. Spout boxes displayed
even more extreme temperature variation and lower humidity when not shaded.
While more extreme microclimate conditions did not prevent usage, tolerable
thresholds for hollow-dependent species may soon be exceeded under current
climate change projections. Managers need to carefully consider nest box design
and positioning to ensure the suitability of these supplementary resources for
conservation purposes.
History
Publication Date
2021-06-01
Journal
Conservation Science and Practice
Volume
3
Issue
6
Article Number
e416
Pagination
13p.
Publisher
Wiley
ISSN
2578-4854
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