Current monitoring programmes not good enough to detect population changes in Manx Shearwaters

Gavin Arneill (School of Biological, Earth and Environmental Sciences, University College Cork, Ireland,) and colleagues have published in the open-access journal PLoS ONE on sampling strategies for breeding Manx Shearwaters Puffinus puffinus (Least Concern).

The paper’s abstract follows:

“Sampling approaches used to census and monitor populations of flora and fauna are diverse, ranging from simple random sampling to complex hierarchal stratified designs. Usually the approach taken is determined by the spatial and temporal distribution of the study population, along with other characteristics of the focal species. Long-term monitoring programs used to assess seabird population trends are facilitated by their high site fidelity, but are often hampered by large and difficult to access colonies, with highly variable densities that require intensive survey. We aimed to determine the sampling effort required to (a) estimate population size with a high degree of confidence, and (b) detect different scenarios of population change in a regionally important species in the Atlantic, the Manx shearwater (Puffinus puffinus). Analyses were carried out using data collected from tape-playback surveys on four islands in the North Atlantic. To explore how sampling effort influenced confidence around abundance estimates, we used the heuristic approach of imagining the areas sampled represented the total population, and bootstrapped varying proportions of subsamples. This revealed that abundance estimates vary dramatically when less than half of all plots (n dependent on the size of the site) is randomly subsampled, leading to an unacceptable lack of confidence in population estimates. Confidence is substantially improved using a multi-stage stratified approach based on previous information on distribution in the colonies. In reality, this could lead to reducing the number of plots required by up to 80%. Furthermore, power analyses suggested that random selection of monitoring plots using a matched pairs approach generates little power to detect overall population changes of 10%, and density-dependent changes as large as 50%, because variation in density between plots is so high. Current monitoring programs have a high probability of failing to detect population-level changes due to inappropriate sampling efforts. Focusing sampling in areas of high density with low plot to plot variance dramatically increases the power to detect year to year population change, albeit at the risk of not detecting increases in low density areas, which may be an unavoidable strategy when resources are limited. We discuss how challenging populations with similar features to seabirds might be censused and monitored most effectively.”

A Manx Shearwater chick close to fledging at its burrow mouth, photograph by Jaclyn Pearson

Reference:

Arneill, G.E., Perrins, C.M., Wood, M.J., Murphy, D., Pisani, L., Jessopp, M.J. & Quinn, J.L. 2019.  Sampling strategies for species with high breeding-site fidelity: a case study in burrow-nesting seabirds.  PLoS ONE 14(8): e0221625. doi.org/10.1371/journal.pone.0221625.

John Cooper, ACAP Information Officer, 16 September 2019

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