Using high-definition aerial photography to search in 3D for malleefowl mounds is a cost-effective alternative to ground searches
Scott Thompson A , Graham Thompson A D , Jessica Sackmann B , Julia Spark C and Tristan Brown CA Terrestrial Ecosystems, 10 Houston Place, Mt Claremont, WA 6010, Australia.
B Mount Gibson Iron Ltd, 1/2 Kings Park Road, West Perth, WA 6005, Australia.
C Aerometrex, 59 King William Street, Kent Town, SA 5067, Australia.
D Corresponding author. Email: graham@terrestrialecosystems.com
Pacific Conservation Biology 21(3) 208-213 https://doi.org/10.1071/PC14919
Submitted: 17 March 2015 Accepted: 21 June 2015 Published: 24 July 2015
Abstract
The threatened malleefowl (Leipoa ocellata) constructs a large (often >3 m) incubator mound (nest) that is considered a useful proxy for surveying its presence and abundance in the context of an environmental impact assessment. Here we report on the effectiveness and relative cost of using high-definition aerial photography to search in 3D for malleefowl mounds by comparing results to those of earlier ground-based searches. High-definition colour aerial photography was taken of an area of ~7014 ha and searched in 3D for malleefowl mounds. All 24 active (i.e. in use) malleefowl mounds known before the examination of aerial photography were detected using the new assessment technique. Of the 108 total mounds (active and inactive) known from earlier on-ground surveys, 94 (87%) were recorded using the new technique. Mounds not detected were all old and weathered, many barely above ground level and some with vegetation growing in the crater. Approximately 6.3% of the identifications considered ‘confident’ and ~35.0% considered ‘potential’ based on the aerial photography proved to be false positives. The cost of detecting malleefowl mounds using the interpretation of high-definition 3D colour aerial photography and then subsequently examining these areas on the ground is appreciably cheaper than on-ground grid searches.
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