May 27, 2021
Seabirds face dire threats from climate change, human activity — especially in Northern Hemisphere
Scientist studied the reproductive success of seabirds at dozens of sites in the Northern Hemisphere (red dots) and Southern Hemisphere (black dots).Brian Hoover/P. Dee Boersma
Many seabirds in the Northern Hemisphere are struggling to breed — and in the Southern Hemisphere, they may not be far behind. These are the conclusions of a study, published May 27 in Science, analyzing more than 50 years of breeding records for 67 seabird species worldwide.
The international team of scientists — led by William Sydeman at the Farallon Institute in California — discovered that reproductive success decreased in the past half century for fish-eating seabirds north of the equator. The Northern Hemisphere has suffered greater impacts from human-caused climate change and other human activities, like overfishing.
Seabirds include albatrosses, puffins, murres, penguins and other birds. Whether they soar or swim, all seabirds are adapted to feed in and live near ocean waters. Many scientists view seabirds as sentinels of habitat health because their lives and well-being depend on sound conditions both on land and at sea, said co-author P. Dee Boersma, a University of Washington professor of biology and director of the Center for Ecosystem Sentinels.
“Seabirds travel long distances — some going from one hemisphere to the other — chasing their food in the ocean,” said Boersma. “This makes them very sensitive to changes in things like ocean productivity, often over a large area.”
In addition, seabirds congregate at particular sites along coasts to breed and rear their young, which makes them vulnerable to changing shore and surface conditions and restricts how far they can travel for food while still successfully raising their chicks, Boersma added.
A common murre delivering an anchovy to its chick on Southeast Farallon Island in California.Ron LeValley
Seabird diets played a major role in their ability to rear chicks. In the north, fish-eating seabirds saw a significant decline in reproductive success over the study period. In addition, surface-feeding birds in both hemispheres were more prone to reproductive failure, regardless of whether they ate fish or smaller plankton, like krill. Deep-diving birds, like puffins, fared best in terms of reproductive success.
The team believes changing environmental conditions are to blame. Seabirds must travel far for food, and eat a lot — murres, for example, must consume half their body weight in fish daily. Nearly 1 million murres starved to death and breeding colonies crashed in 2015-2016 due to a long-term marine heat wave that disrupted food webs in the northeast Pacific. Climate change is causing more frequent and more extreme events like those heat waves, and seabirds out in the ocean face other threats as well.
“They have to compete with us for food. They can get caught in our fishing nets. They eat our plastic, which they think is food,” said Boersma. “All of these factors can kill off large numbers of long-lived seabirds.”
These changes have implications beyond seabirds.
“What’s also at stake is the health of fish populations such as salmon and cod, as well as marine mammals and large invertebrates, such as squid, that are eating the same small forage fish and plankton that seabirds eat,” said Sydeman. “When seabirds aren’t doing well, this is a red flag that something bigger is happening below the ocean’s surface which is concerning because we depend on healthy oceans for quality of life.”
The team found high variability in reproductive success among species, showing that additional research is needed to understand all of the factors that shape feeding and breeding for these species.
Boersma’s research on South American penguins illustrates just how much local conditions at sea and on land shape reproductive success. For the study, she contributed more than 35 years of data on breeding success at Punta Tombo, a site with one of the largest breeding colonies for Magellanic penguins in southern Argentina. Over nearly four decades, Punta Tombo has changed rapidly.
“Today the breeding population at Punta Tombo is about half of what it was in the early 1980s,” said Boersma.
A Magellanic penguin parent feeding its chicks as its mate looks on.Natasha Gownaris
During the breeding season each summer, Magellanic parents must frequently return to the water to catch fish for their chicks. Changing ocean conditions mean that adults must travel farther from Punta Tombo to find food, increasing the risk of chick starvation, Boersma said. Conditions on land, such as frequent storms, can also destroy nests and kill chicks, she added.
Conditions far out at sea, where Magellanic penguins spend months feeding each winter after the breeding season, are also shaping Punta Tombo. The proportion of male Magellanic penguins at that site has risen over the years, and as a result many males cannot find a mate. Boersma and her team have found that harsh oceanographic conditions punish females more than males. In addition, juvenile females are more likely to die at sea while they’re trying to find food.
Southern seabirds fared better overall, the new study found. But over time, southern conditions may catch up to the already-poor conditions in the north, Boersma said.
These findings can be a call to protect sentinels like seabirds, as well as other species impacted by rising ecosystem stress, the researchers said. This requires protecting seabirds across all of their habitats, on land and at sea.
On land, seabirds can attract a lot of attention from people, especially during breeding seasons. But this does not necessarily translate to greater protection for breeding colonies. For example, Boersma and two colleagues recently surveyed almost 300 breeding colonies for penguins around the world that are open to tourists. Fewer than half had management plans to protect the environment, parents and chicks from curious human visitors.
At sea, establishing marine preserves would protect seabird feeding waters from overfishing, vessel traffic, pollution and energy extraction — giving these birds a much-needed boost in the face of climate change.
“By knowing what is important to a species for success, we can make the world a better place for its survival,” said Boersma.
For more information, contact Boersma at boersma@uw.edu and Sydeman at wsydeman@faralloninstitute.org.
Tag(s): Center for Ecosystem Sentinels • climate change • College of Arts & Sciences • conservation • Dee Boersma • Department of Biology
