Lessening constraints on nest-site selection by burrowing shearwaters and gadfly petrels following eradication of alien rats on New Zealand islands

Rachel Buxton (Department of Zoology, University of Otago, Dunedin, New Zealand) and colleagues have published in the journal Biological Invasions on what happens with breeding burrowing petrels when Pacific Rats Rattus exulans are eradicated from their breeding islands.  The species considered are Flesh-footed Shearwater Puffinus carneipes, Fluttering Shearwater P. gavia, Little Shearwater P. assimilis, Sooty Shearwater P. griseus, Grey-faced Petrel Pterodroma macroptera gouldi, Pycroft’s Petrel P. pycrofti and Common Diving Petrel Pelecanoides urinatrix.

The paper’s abstract follows:

“Introduced mammals have been eradicated from many offshore islands around the world, removing predation pressure from burrow-nesting seabirds and other affected wildlife.  Nest-site selection in procellariiform seabirds is mediated by nesting habitat characteristics and social information, although it is unclear if, or how, nest-site selection will affect post-eradication colony growth.  Using a Bayesian hierarchical modeling approach we assessed how nest-site selection differs among burrow-nesting seabird colonies at different stages of recovery after Pacific rat (Rattus exulans) eradication.  We compared nest-site selection in a community of seven procellariiform species among six offshore islands in northeastern New Zealand: four designated rat-free over a continuum within the last 26 years, an island which never had rats, and an island with rats present.  We hypothesized that, immediately after eradication, birds would be constrained to nesting habitat where they were less vulnerable to predation, and as time since eradication increased birds would eventually spread to new habitat.  We found a positive relationship between mean burrow density and time since rat eradication.  Soil depth was the most important predictor of burrow presence, abundance, and occupancy in plots among islands, with more burrows found in deeper soil.  We found that the relationships between habitat covariates and nest-site selection decreased with increasing time since eradication.  The probability of a covariate having a significant effect on nest-site selection decreased with increasing time since eradication and decreasing variability in the covariate across an island.  Our results suggest that the eradication of rodents reduced constraints on petrel nesting distribution and that nest-site selection in burrow-nesting petrels may be influenced by burrow density, where selection of particular nesting habitat characteristics may be relatively more important in small recovering populations.  We conclude that colony expansion immediately after predator removal is complex, influenced by numerous interacting factors, but may be partly limited by the availability of suitable nesting habitat.”

Pycroft's Petrel

With thanks to Barry Baker and Rachel Buxton for information.

Reference:

Buxton, R.T., Anderson, D., Moller, H., Jones, C.J. & Lyver, P.O'B. 2014.  Release of constraints on nest-site selection in burrow-nesting petrels following invasive rat eradication.  Biological Invasions 17: 1453-1470.

John Cooper, ACAP Information Officer, 13 April 2015

The Agreement on the
Conservation of Albatrosses and Petrels

ACAP is a multilateral agreement which seeks to conserve listed albatrosses, petrels and shearwaters by coordinating international activity to mitigate known threats to their populations.

About ACAP

ACAP Secretariat

119 Macquarie St
Hobart TAS 7000
Australia

Tel: +61 3 6165 6674