Identifying recent captive escapees of Rainbow Lorikeets (Trichoglossus moluccanus) at different stages of the pet-release pathway
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Date
2025
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Hill, K.G.W.
Delean, S.
Robinson, S.A.
Hall, T.
Tyler, J.J.
Stringham, O.C.
Cassey, P.
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Frontiers in Ecology and Evolution, 2025; 13:1517867-1-1517867-12
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Katherine G.W. Hill, Steven Delean, Susan A. Robinson, Tony Hall, Jonathan J. Tyler, Oliver C. Stringham, and Phillip Cassey
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Abstract
Introduction: Rainbow Lorikeets (Trichoglossus moluccanus) are a highly desirable bird in Australian pet trade and consequently have established invasive populations outside their native range. These birds are aggressive, outcompete native species, and cause significant damage to agriculture. Invasive populations have not been impacted by existing management practices, and it is unclear if their persistence is due to their high reproductive success in the wild, or from regular escapes from captivity. Methods: We tested the ability of stable isotope analysis to identify recently escaped captive Rainbow Lorikeets in wild populations within Australia. We compared the stable carbon (δ¹³C) and nitrogen (δ¹⁵N) isotopes of captive birds to three wild populations at different stages of the pet-release pathway: (i) birds within their native distribution; (ii) a newly established population; and (iii) a large invasive population. Results: We found evidence of two escaped captive birds in the newly established population due to the higher and more variable δ¹³C, which is likely driven by the consumption of nectar supplements. The invasive population had a similar isotopic niche area to the native population; potentially indicating the invasive birds have adapted to the environment and learnt to consume a large variety of local food sources, therefore reducing the effectiveness of detecting recent escapees. Discussion: Therefore, for contained wild populations with small isotopic niches, stable isotope analysis can be a useful tool to identify captive escapees and can inform management of invasive species incursions.
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© 2025 Hill, Delean, Robinson, Hall, Tyler, Stringham and Cassey. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.