Assessing total mortality following seabird wrecks given variable data quantity and quality: the Cassin’s auklet die-off

Authors

Timothy Jones, University of Washington
Julia K. Parrish, University of Washington
Parker Maccready, University of Washington School of Oceanography
Lisa T. Ballance, Oregon State University
David W. Bradley, Birds Canada
Hillary K. Burgess, University of Washington
Jane E. Dolliver, University of Washington
James T. Harvey, Moss Landing Marine LaboratoriesFollow
Trevor Joyce, NOAA Southwest Fisheries Science Center
Kirsten Lindquist, NOAA National Ocean Service
Jacqueline Lindsey, University of Washington
Hannahrose M. Nevins, Moss Landing Marine Laboratories
Jan Roletto, NOAA National Ocean Service
Laurie Wilson, Environment and Climate Change Canada
Charlie Wright, University of Washington

Publication Date

1-1-2025

Document Type

Article

Publication Title

Canadian Journal of Fisheries and Aquatic Sciences

Volume

82

DOI

10.1139/cjfas-2023-0382

First Page

1

Last Page

22

Abstract

Mass mortality events (MMEs) of seabirds are becoming more frequent as the global climate warms. Often documented via beached bird surveys, methods for estimating event-wide mortality are needed that can accommodate regional differences in carcass deposition and data quality/quantity. We develop a framework for estimating mortality from beached bird counts, extending existing approaches through the novel application of ocean circulation modeling to assess beaching likelihood. We applied our framework to the 2014/15 Cassin’s auklet (Ptychoramphus aleuticus) MME, which spread across three regions (central California, northern California-through-Washington, British Columbia) with varying data quality/quantity. Our best mortality estimate of ∼400 000 (estimates ranged from 265 000 to 700 000 depending on model uncertainty and extent) places this seabird MME as one of the largest on record. However, we caution that much uncertainty exists surrounding model parameterization and deposition in British Columbia where beached bird data were sparse. We suggest that the application of ocean circulation models, combined with process-based modeling of carcass persistence and detection, can improve estimates of MME magnitude.

Funding Number

1322820

Funding Sponsor

National Oceanic and Atmospheric Administration

Keywords

citizen science, marine heatwave, mass mortality event, ocean circulation modeling, seabird wreck

Department

Moss Landing Marine Laboratories

Recommended Citation

Timothy Jones, Julia K. Parrish, Parker Maccready, Lisa T. Ballance, David W. Bradley, Hillary K. Burgess, Jane E. Dolliver, James T. Harvey, Trevor Joyce, Kirsten Lindquist, Jacqueline Lindsey, Hannahrose M. Nevins, Jan Roletto, Laurie Wilson, and Charlie Wright. "Assessing total mortality following seabird wrecks given variable data quantity and quality: the Cassin’s auklet die-off" Canadian Journal of Fisheries and Aquatic Sciences (2025): 1-22. https://doi.org/10.1139/cjfas-2023-0382