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Marine heatwave likely caused mass starvation of seabirds off US west coast

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Marine Heatwave Likely Caused Mass Starvation of Seabirds off US West Coast

image: On Jan. 1 and 2, 2016, 6,540 common murre carcasses were found washed ashore near Whitter, Alaska, translating into about 8,000 bodies per mile of shoreline -- one of the highest beaching rates recorded during the mass mortality event. view more 

Credit: David B. Irons

Unprecedented numbers of common murres--North Pacific seabirds--died between 2015 and 2016. A new analysis lays out the scope of this event and suggests a potential culprit: severely reduced food supplies resulting from unusually elevated sea temperatures. Dr. John Piatt of the U.S. Geological Survey and colleagues present these findings in the open-access journal PLOS ONE on January 15, 2020.

From 2014 through 2016, a large mass of unusually warm seawater nicknamed the "Blob," joined later by a strong El Niño, created a severe marine heatwave that stretched from California to Alaska. Within that period, from summer 2015 to spring 2016, an unusual number of dead or dying common murres washed onto Alaska and West Coast beaches. They appeared to have starved, but the underlying cause and its potential connection to the "Blob" and heatwave has been unclear.

To better understand this anomalous die-off, Piatt and colleagues analyzed data on dead and dying birds from West Coast bird rehabilitation centers, citizen science beach surveys, community reports, and studies conducted by universities, private organizations, and government entities. They also investigated reproduction rates of murres at breeding colonies.

The analysis revealed that about 62,000 dead or dying birds washed onto beaches during the die-off event, but carcass recovery estimates suggest that about 1 million died in total. In Alaska, observations of murre carcasses were up to 1,000 times higher than normal. An unprecedented proportion of murre breeding colonies failed to produce any young between 2015 and 2017--the marine heatwave began in August 2014, a summer before this breeding period.

Previous studies have suggested that the elevated temperatures of the heatwave reduced the quantity and quality of phytoplankton, which in turn reduced quantity and quality of the fish eaten by common murres. At the same time, the warmer waters increased the metabolic needs of larger fish that compete with murres for food. Together, Piatt and colleagues hypothesize, these forces may have caused the observed mass starvation of murres and reduced their reproductive success.

Further research could explore the potential for future warming events to cause similar die-offs.

The authors add: "The unprecedented loss of about a million Common Murre seabirds in the Northeast Pacific during the severe and prolonged marine heatwave of 2014-16 raised a red-flag warning about the state of marine ecosystems on the continental shelf of western North America.

As this study demonstrates, the murre die-off revealed the onset of a major disruption in the flow of energy through marine food-webs which led ultimately to alarming declines in reproductive output and population size of murres, other seabirds, commercial fish, and great whales during 2016-19.

Researchers are only beginning to understand the mechanisms and full magnitude of effects of the 2014-16 heatwave, and what it portends if such heatwaves become stronger and more frequent, as predicted."


In your coverage please use this URL to provide access to the freely available article in PLOS ONE:

Citation: Piatt JF, Parrish JK, Renner HM, Schoen SK, Jones TT, Arimitsu ML, et al. (2020) Extreme mortality and reproductive failure of common murres resulting from the northeast Pacific marine heatwave of 2014-2016. PLoS ONE 15(1): e0226087.

Funding: These analyses were supported by funding from the USGS Ecosystems Mission Area and the North Pacific Research board to JFP; and by NSF EHR/DRL award 1322820 and Washington Department of Fish and Wildlife award 13-1435 to JKP, and NPS Ocean Alaska Science and Learning Center grant to HAC. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

Competing Interests: The authors have declared that no competing interests exist.

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