Research reveals human-driven changes to distinctive foraging patterns in North Pacific Ocean

The first large-scale study of its kind has uncovered more than 4,000 years’ worth of distinctive foraging behavior in a species once driven to the brink of extinction.

An international team of researchers, led by the University of Leicester, identified long-term patterns in the behavior of the short-tailed albatross (Phoebastria albatrus) in the North Pacific Ocean by studying isotopes found in archaeological and museum-archived samples of the bird, dating as far back as 2300 BCE.

Their findings, published today in Communications Biology, show long-term patterns in foraging behavior for the short-tailed albatross for the first time—and demonstrate how individual birds foraged the same hyper-localized sites for thousands of years in spite of the species’ huge potential foraging range across thousands of miles of Pacific coastline and open ocean.

But this behavior, a demonstration of long-term individual foraging site fidelity (LT-IFSF), can pose significant risks for animals who specialize in areas which may be impacted by human activity.

The short-tailed albatross was brought to the brink of extinction by feather hunters between the 1880s and 1930s and though careful conservation has resulted in exponential population growth in recent decades, this trend of LT-IFSF has not been observed in the last century.

Dr. Eric Guiry is Lecturer in Biomolecular Archaeology at the University of Leicester and corresponding author for the study, which focused on two locations close to Yuquot, Canada, and compared findings to sites in the U.S., Russia and Japan. He said:

“Understanding migratory behavior is critical for global biodiversity restoration because it helps identify vulnerable regions for environmental protection.

“Although evidence for the extent and depth of LT-IFSF across other species is still emerging, the extreme distances and time scale of the behavior seen here indicates that this foraging strategy may be a fundamental, density-driven adaptation that could become widespread again as recovering animal populations reach pre-industrial levels.”

The research team from Leicester, the Land of Maquinna Cultural Society (Canada), Vrije Universiteit Brussel (Belgium) and Simon Fraser University (Canada) were able to track this foraging behavior by examining stable carbon and nitrogen isotope compositions in samples of bone collagen.

In contrast to most other tissues such as muscle or feather, which turn over on a scale of days, weeks, or months), isotopic compositions from bone collagen, which remodels slowly over the entire lifespan on an individual, reflect an average of foods consumed over the last several years of an individual’s life.

This provides a unique perspective for exploring lifetime trends in animal diet and migration behavior.

By mapping these biological markers against known isotopic baselines across the species’ foraging range, linked to factors such as sea surface temperature and CO2 concentrations, the researchers were able to build up a picture of the short-tailed albatross’ migratory and foraging behavior over hundreds of generations.

But, crucially, as this behavior is no longer observed among these birds, their findings show this hyper-specialized foraging in specific locations disappeared after the birds were hunted to near extinction in the 1880s, when only a handful of birds remained. Dr. Guiry continued:

“We think this behavior could be driven by competition among birds, meaning that, as the population recovers, we could see it re-emerge. This kind information is important because it provides advanced warning that monitoring for this remarkable behavior, which can make the birds more vulnerable to human impacts, may need close attention.

“One of the most exciting findings, however, is actually quite a positive note. Our data also indicate that Indigenous communities at Yuquot were harvesting these birds with little impact on their population for thousands of years.

“Not only does this tell us something about the long-term sustainability of Indigenous marine resource use at Yuquot, it provides a clear example of how people and the short-tailed albatross can co-exist.”

More information:
Eric Guiry et al, Four millennia of long-term individual foraging site fidelity in a highly migratory marine predator, Communications Biology (2022). DOI: 10.1038/s42003-022-03310-2

Provided by
University of Leicester

Citation:
Research reveals human-driven changes to distinctive foraging patterns in North Pacific Ocean (2022, April 14)

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