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Influences on recovery of seabirds on islands where invasive predators have been eradicated, with a focus on Procellariiformes

Published online by Cambridge University Press:  19 December 2016

Stephanie B. Borrelle*
Affiliation:
Institute for Applied Ecology New Zealand, School of Science, Auckland University of Technology, Private Bag 92006, Auckland 1142, New Zealand
Philipp H. Boersch-Supan
Affiliation:
Department of Integrative Biology, University of South Florida, Tampa, USA
Chris P. Gaskin
Affiliation:
Northern New Zealand Seabird Trust, Auckland, New Zealand
David R. Towns
Affiliation:
Institute for Applied Ecology New Zealand, School of Science, Auckland University of Technology, Private Bag 92006, Auckland 1142, New Zealand
*
(Corresponding author) E-mail stephborrelle@gmail.com
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Abstract

Protecting seabirds is a global conservation priority given that 29% of seabird species are threatened with extinction. One of the most acute threats to seabirds is the presence of introduced predators, which depredate seabirds at all life stages, from eggs to adults. Consequently, eradication of invasive predators has been identified as an effective and commonly used approach to seabird conservation. Seabird recovery following the eradication of predators is influenced by complex and interacting environmental and demographic factors, and there are gaps in our understanding of species-specific responses. We reflect on the recovery of seabirds on islands cleared of predators, drawing on the equilibrium theory of island biogeography, and synthesize key influences on recovery reported in the literature. We present a regionally specific case study on the recovery of seabird colonies (n = 98) in the Hauraki Gulf, New Zealand, which is a hotspot of seabird diversity (27 species), with a long history of eradications of invasive predators. We found that on islands cleared of predators seabirds recover over time, and such islands have more diverse seabird assemblages than islands that never had predators. Recovery appears to be influenced by a suite of site- and species-specific factors. Managers may assume that given enough time following eradication of predators, seabirds will recolonize an island. Although time is a factor, proximity to source populations and human activities has a significant effect on recolonization by seabirds, as do demographic traits, colonizing ability and habitat suitability. Therefore, integrating expected site and species-specific recovery responses in the planning of eradications should help guide post-eradication management actions.

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Article
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Copyright © Fauna & Flora International 2016 
Figure 0

Fig. 1 Locations of seabird colonies (n = 98) in the Hauraki Gulf, New Zealand.

Figure 1

Table 1 Species composition recorded over time on reference islands in the Hauraki Gulf, New Zealand, that have never had predators.

Figure 2

Fig. 2 Observed species richness and generalized linear model predictions as a function of island area for uninvaded (intercept = 2.43, slope = 0.26), cleared (intercept = 4.31, slope = 0.04), and invaded islands (intercept = 0.62, slope = 0.25) in the Hauraki Gulf (Fig. 1). Model parameter estimates are in Table 2.

Figure 3

Table 2 Generalized linear model parameter estimates for the species–area relationship by predator status. Parameter values are given on the link scale.

Figure 4

Fig. 3 Percentage of cleared, uninvaded and invaded islands in the wider Hauraki Gulf region, New Zealand (Fig. 1) on which seabird species were confirmed to be breeding. The darker bars indicate the data met the assumptions of the χ2 test. Bias was towards areas < 10 ha and > 155 ha on uninvaded and invaded islands, respectively. *P < 0.1, **P < 0.05, ***P < 0.01.

Figure 5

Table 3 Parameter estimates and associated standard errors for the top ranked models for species richness on cleared islands. Models were ranked by AICc.

Figure 6

Fig. 4 Schematic representation of the key influences on seabird recolonization of islands cleared of predators.

Figure 7

Table 4 Seabird species assemblage on Burgess Island prior to rat eradication in 1990 (McCallum, 1980) and post-eradication (Ismar et al., 2014).

Supplementary material: PDF

Borrelle supplementary material

Tables S1-S2 and Figures S1-S4

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Appendix 2

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