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Changes in Philornis infestation behavior threaten Darwin's finch survival

Kleindorfer, Sonia ; Peters, Katharina J. ; Custance, Georgina ; Dudaniec, Rachael LU and O'Connor, Jody A. (2014) In Current Zoology 60(4). p.542-550
Abstract
The conservation behavior framework is useful to identify key linkages between behavior and conservation practice. We apply this framework to a novel host-parasite system on the Galapagos Islands and ask if there have been changes in parasite oviposition behavior and host mortality patterns across the first decade (2004-2013) of its known association. The Dipteran parasite Philornis downsi was first discovered in Darwin's finch nests in 1997 and is the biggest threat to the survival of Galapagos land birds. Host mortality has increased over the past decade. In Dipterans, pupation and pupae size are determined by access to host resources. Here, we test the hypothesis that P. downsi flies are laying eggs in finch nests earlier in the... (More)
The conservation behavior framework is useful to identify key linkages between behavior and conservation practice. We apply this framework to a novel host-parasite system on the Galapagos Islands and ask if there have been changes in parasite oviposition behavior and host mortality patterns across the first decade (2004-2013) of its known association. The Dipteran parasite Philornis downsi was first discovered in Darwin's finch nests in 1997 and is the biggest threat to the survival of Galapagos land birds. Host mortality has increased over the past decade. In Dipterans, pupation and pupae size are determined by access to host resources. Here, we test the hypothesis that P. downsi flies are laying eggs in finch nests earlier in the nestling phase to maximize larval feeding time and therefore chance of pupation success before host death. The results show fewer 1st instar larvae later in the host nesting cycle in support of earlier egg laying behavior by female flies. Between 2004 and 2013, parasite intensity increased from similar to 28 to similar to 48 parasites per nest, host mortality increased from similar to 50% to similar to 90%, and host age at death decreased from similar to 11 to similar to 5 days. The earlier age at host death was correlated with fewer pupae (from similar to 50% to similar to 20%) and smaller pupae size (similar to 10% decrease). Changes in parasite behavior reveal new fitness costs to both the parasite and Darwin's finches. These findings underscore the need for urgent conservation action to save Darwin's finches from extinction due to a novel, lethal and introduced parasite (Less)
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organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Host mortality, Parasite size, Darwin's finches, Ectoparasitism, Camarhynchus, Geospiza
in
Current Zoology
volume
60
issue
4
pages
542 - 550
publisher
Oxford University Press
external identifiers
  • wos:000340840700012
  • scopus:84905680483
ISSN
1674-5507
language
English
LU publication?
yes
id
4d443617-9072-4469-bd3a-fec4b2417968 (old id 4652887)
date added to LUP
2016-04-01 13:35:15
date last changed
2022-04-21 22:25:59
@article{4d443617-9072-4469-bd3a-fec4b2417968,
  abstract     = {{The conservation behavior framework is useful to identify key linkages between behavior and conservation practice. We apply this framework to a novel host-parasite system on the Galapagos Islands and ask if there have been changes in parasite oviposition behavior and host mortality patterns across the first decade (2004-2013) of its known association. The Dipteran parasite Philornis downsi was first discovered in Darwin's finch nests in 1997 and is the biggest threat to the survival of Galapagos land birds. Host mortality has increased over the past decade. In Dipterans, pupation and pupae size are determined by access to host resources. Here, we test the hypothesis that P. downsi flies are laying eggs in finch nests earlier in the nestling phase to maximize larval feeding time and therefore chance of pupation success before host death. The results show fewer 1st instar larvae later in the host nesting cycle in support of earlier egg laying behavior by female flies. Between 2004 and 2013, parasite intensity increased from similar to 28 to similar to 48 parasites per nest, host mortality increased from similar to 50% to similar to 90%, and host age at death decreased from similar to 11 to similar to 5 days. The earlier age at host death was correlated with fewer pupae (from similar to 50% to similar to 20%) and smaller pupae size (similar to 10% decrease). Changes in parasite behavior reveal new fitness costs to both the parasite and Darwin's finches. These findings underscore the need for urgent conservation action to save Darwin's finches from extinction due to a novel, lethal and introduced parasite}},
  author       = {{Kleindorfer, Sonia and Peters, Katharina J. and Custance, Georgina and Dudaniec, Rachael and O'Connor, Jody A.}},
  issn         = {{1674-5507}},
  keywords     = {{Host mortality; Parasite size; Darwin's finches; Ectoparasitism; Camarhynchus; Geospiza}},
  language     = {{eng}},
  number       = {{4}},
  pages        = {{542--550}},
  publisher    = {{Oxford University Press}},
  series       = {{Current Zoology}},
  title        = {{Changes in Philornis infestation behavior threaten Darwin's finch survival}},
  volume       = {{60}},
  year         = {{2014}},
}