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Predator disturbance contributed to Common Murre Uria aalge breeding failures in Cook Inlet, Alaska following the 2014–2016 Pacific marine heatwave.
Received 17 May 2023, accepted 20 December 2023
Date Published: 2024/04/15
Date Online: 2024/04/09
Key words: Common Murres, Uria aalge, depredation, Bald Eagle, Haliaeetus leucocephalus, breeding failures, marine heatwave
Abstract
The 2014-2016 Pacific marine heatwave caused unprecedented die-offs and multi-year reproductive failures for Common Murres Uria aalge along the west coast of North America. Lingering impacts, such as declines in colony attendance and productivity, have persisted at some colonies following the heatwave and are attributed largely to changes in prey availability and quality. Here, we present evidence of an additional, top-down mechanism contributing to Common Murre breeding failures on Gull Island (Alaska): disturbance of nesting birds by aerial predators and associated egg depredation. We collected time-lapse images over five murre breeding seasons (2016-2020) on Gull Island to document the frequency, duration, and intensity of disturbances caused by aerial predators, as well as to quantify disturbance-associated egg depredation. To identify seasonal and inter-annual variability of disturbances, we calculated a daily disturbance index and compared years using generalized additive models. In all years, Bald Eagles Haliaeetus leucocephalus were the primary cause of disturbance, which led to periods of prolonged colony abandonment by murres and facilitated high levels of murre egg depredation by Glaucous-winged Gulls Larus glaucescens and Herring Gulls L. argentatus. We found that the seasonality of disturbance was an important factor in determining egg depredation rates. In years when disturbance levels were high and persisted later in the season, the colony experienced complete breeding failures due to disturbance-associated egg depredation. Our study revealed that the response of nesting murres to a strong environmental perturbation, such as the Pacific marine heatwave, can be complex and involve multiple stressors from both bottom-up and top-down factors.
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Fig. 1 (A) Map of the Common Murre Uria aalge breeding colony on Gull Island (red star) in Kachemak Bay, Alaska. (B) Location of the time-lapse cameras used to document disturbance to breeding Common Murres on Gull Island, Kachemak Bay, Alaska in proximity to other neighboring islands. Though we used data from just one camera, a second camera provided a backup in the event that one camera failed.
Fig. 2. Example time-lapse camera images of the Common Murre Uria aalge breeding colony on Gull Island, Kachemak Bay, Alaska including (A) Common Murres attending nest sites, (B) a Bald Eagle Haliaeetus leucocephalus flying over Common Murre nest sites with a Black-legged Kittiwake Rissa tridactyla in its talons (red circle), and (C) murre egg predation by Glaucous-winged Gulls Larus glaucescens during a disturbance event.
Fig. 3. Common Murre Uria aalge colony disturbance frequency (y-axis, total number of disturbance events per day) and duration (color, sum of disturbance duration per day) at Gull Island, Kachemak Bay, Alaska from 2016-2020. Black points indicate average disturbance intensity (proportionally scaled to maximum frequency to facilitate plotting). There were no early season data available in 2016.
Fig. 4. Modeled seasonal variability (blue line, ± 95% confidence interval) of predicted disturbance index (grey circles, minutes) by date (x-axis) and year (panels). Model predictions were made on a log-scale and back-transformed for plotting.
Fig. 5. The cumulative percent of Common Murre Uria aalge eggs depredated by date for each breeding season from 2016 to 2020 at Gull Island, Kachemak Bay, Alaska. All confirmed egg predators were Glaucous-winged Larus glaucescens and Herring Gulls L. argentatus. Color indicates the maximum number of murres actively nesting each day. There were no early season data available in 2016.