Penguin Droppings Contribute to Antarctica’s Cooling Effects

Ammonia emitted from droppings in a bustling Antarctic penguin colony contributes to cloud formation.

“This highlights the profound relationship between ecosystems and atmospheric phenomena,” remarks Matthew Boyer from the University of Helsinki, Finland.

The connection lies in how ammonia influences atmospheric particle counts. Cloud formation requires water vapor to condense around significant particles, which are scarce in the frigid, pristine air of Antarctica.

Typically, available cloud formation particles arise from dust, vegetation, or air pollution, primarily sulfate clusters generated by natural emissions from nearby phytoplankton. It has been established that high ammonia levels can enhance the creation of these clusters by up to a thousand times. But where does this ammonia originate in Antarctica? The droppings of penguins appear to be a significant source.

To verify this, Boyer and his team analyzed the concentrations of ammonia, sulfuric acid, and larger particles in the air around Pygoscelis adeliae on the Antarctic Peninsula. “They have a strong odor,” Boyer comments. “They are quite messy birds.”

When the wind blew from the direction of the colony, the ammonia concentrations were significantly higher compared to air from other directions. This uptick in ammonia prompted the formation of sulfuric acid particles large enough to attract condensation, potentially resulting in cloud formation. This phenomenon persisted for several weeks even after the penguins vacated the colony.

Increased cloud cover, particularly at sea, reflects sunlight away from the Earth’s surface, producing a cooling effect. Boyer also notes that declines in penguin populations could lead to warming trends in Antarctica by diminishing cloud cover, particularly due to climate change-driven ocean ice loss. However, current measurements do not adequately estimate the magnitude of this effect.

Other studies indicate significant implications; for instance, Jeffrey Pierce from Colorado State University and his peers have found ammonia in puffin droppings in the Arctic, leading to increased cloud cover during summer, estimating that this cooling effect could offset about one-third of warming caused by carbon dioxide in the region. “I’m confident it has some effect,” states Pierce.