Creating entrances to tree cavities attracts hollow‐dependent fauna: proof of concept

Redressing the paucity of tree hollows is essential for conservation of hollow‐dependent fauna in many landscapes around the world. We describe a method of accelerating availability of natural hollows in regenerating landscapes by mechanically creating entrances in tree stems that have existing void...

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Bibliographic Details
Published inRestoration ecology Vol. 30; no. 8
Main Authors Ellis, Murray V., Taylor, Jennifer E., Rhind, Susan G.
Format Journal Article
LanguageEnglish
Published Malden, USA Wiley Periodicals, Inc 01.11.2022
Blackwell Publishing Ltd
Subjects
Birds
Cavities
Decay
Drilling
Entrances
Eucalyptus
Exploratory drilling
Fauna
habitat enhancement
Holes
hollow‐dependent wildlife
Invertebrates
Landscape
landscape restoration
mechanically created habitat
Nesting
Oil and gas exploration
Reptiles
Stems
Threatened species
tree hollow
Vertebrates
Voids
Wildlife conservation
woodland restoration
Woodlands
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Summary:Redressing the paucity of tree hollows is essential for conservation of hollow‐dependent fauna in many landscapes around the world. We describe a method of accelerating availability of natural hollows in regenerating landscapes by mechanically creating entrances in tree stems that have existing voids or internal decay but have not yet developed entrances. We trialed this method in woodland and forest of south‐eastern Australia in 39 stems in the closely related tree genera Eucalyptus and Angophora. Exploratory drilling of 10‐mm diameter holes was used to detect the presence of internal decay or voids. We then drilled 40‐, 65‐, or 90‐mm diameter entrance holes, depending on the size of the potential cavity, 2.4–4.8 m above ground level. Camera traps showed that drilled entrances were investigated or used within hours of creation. A diverse suite of invertebrates, reptiles, mammals, and birds were recorded entering or leaving entrances, including threatened species. All 39 holes were used by animals with up to six vertebrate taxa using some entrances. Two bird species excavated material from within cavities, and three species of marsupial were recorded taking nesting material into the cavities. This trial provides evidence that adding entrances to currently inaccessible internal cavities in trees has potential to accelerate development of habitat for hollow‐dependent fauna, particularly in regenerating vegetation.
Bibliography:Coordinating Editor: Mike Letnic
Author contributions: MVE, JET, SGR conceived and designed the research; MVE installed the entrances; MVE, JET, SGR monitored the entrance use; MVE, JET, SGR wrote and edited the manuscript.
ISSN:1061-2971
1526-100X
DOI:10.1111/rec.13713