News Release

New study finds that Adélie penguin population is on the rise

University of Minnesota and Stony Brook University researchers use satellite imagery of penguin 'poop' to complete first global census of the species

Peer-Reviewed Publication

University of Minnesota

Adélie Penguins

image: A first-ever global census of Adélie penguins shows that the population is 53 percent larger than previously estimated. view more 

Credit: Michelle LaRue, University of Minnesota

A first-ever global census of Adélie penguins shows that the population is 3.79 million breeding pairs or 53 percent larger than previously estimated. Adélie penguins have long been considered a key indicator species to monitor and understand the effects of climate change and fishing in the Southern Ocean.

By using high-resolution satellite imagery, researchers from Stony Brook University and University of Minnesota have applied a new method that permits regular monitoring of Adélie penguins across their entire breeding range, and by extension the health of the Southern Ocean ecosystem. Their findings are published today in The Auk, Orinthological Advances, a leading scientific journal focusing on birds.

Ecologists have been tracking Adélie penguin population declines on the Antarctic Peninsula for decades but have found conflicting trends elsewhere in their breeding range. The new paper by Stony Brook University ecologist Heather Lynch and University of Minnesota College of Science and Engineering researcher Michelle LaRue, titled "First global census of the Adélie Penguin," finally puts all of these scattered pieces of information into a global perspective.

The study finds that Adélie populations at the global scale appear to be growing. Key to identifying the colonies—including the discovery of 17 populations not known to exist—was use of satellite imagery to pinpoint the spectral characteristics of the excrement (called guano) of Adélies, a way to clearly identify the species' breeding grounds. The research has implications to better inform policy makers and scientists regarding Marine Protected Areas and climate change.

"We believe this is a landmark study with data that provides not only information on the population dynamics of Adélie penguins but injects critically needed information into the ongoing negotiations regarding the implementation of Marine Protected Areas in the Southern Ocean," said Lynch, assistant professor of Ecology & Evolution at Stony Brook University. Lynch is a leading researcher using the increasingly popular technique of high-resolution satellite imagery to map the presence and abundance of Antarctic seabirds.

"We now have an important population baseline for Adélie penguins," said LaRue, a conservation biologist and researcher in the University of Minnesota's Department of Earth Sciences. "Our methods also allow for annual, regional-scale comparisons of population trends that can more precisely inform us about ecosystem health and subsequent sustainability and conservation measures."

Over the past several years, the Commission for the Conservation of Antarctic Marine Living Resources (CCAMLR) has discussed the establishment of a series of Marine Protected Areas surrounding Antarctica and the sub-Antarctic islands. Lynch explained that Adélie penguins are not only themselves a species of conservation concern, but their distribution and abundance globally also reflect the distribution of their marine prey—primarily krill and fish.

"Our finding of a 53 percent increase in Adélie penguin breeding abundance compared to 20 years ago suggests that estimates of krill consumption by this species may be seriously underestimated. Leaving enough prey for natural krill predators is an important element in ensuring fisheries proceed sustainably, and for the first time we have a global map of Adélie abundance that can be used by CCAMLR," added Lynch.

Other key findings from the global census include:

  • High-resolution satellite imagery can be effectively used to get near real-time information about penguin populations and their distribution.

  • The 53 percent increase in known abundance is roughly equally divided between genuine growth of known colonies and the discovery of, or first population estimates at, previously unknown or unsurveyed colonies.

  • Stable or growing populations of Adélie penguins in Eastern Antarctica and the Ross Sea more than offset the rapid declines witnessed on the Antarctic Peninsula, where climate change has significantly changed the timing and decreased the extent of sea ice.

  • The researchers discovered 17 previously unknown Adélie colonies. The survey did not find 13 previously known colonies, eight of which were declared extirpated.

Lynch and LaRue used high-resolution satellite imagery, recent ground counts and other techniques to identify Adélie Penguin colonies over the 5,500 kilometer Antarctic coastline in the lowest regions of the Antarctic Ocean, or Southern Ocean—a distance 40 percent longer than from New York to Los Angeles.

There has been an growing interest among scientists internationally in using satellites to survey Antarctic species such as penguins, seals and whales. The relative simplicity of the landscape makes satellite-based surveys an exciting way to look at Antarctic biology at scales not previously thought possible, paving the way for Antarctica to become an unlikely hotbed of discovery for understanding the population dynamics of seabirds and marine mammals.

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