Guardians of the Oceans
A Superhero’s Guide to Defeating the Heat Blob and Saving Seabirds

The heat blob. It sounds like a comic book villain: a hot, angry, foaming bubble that slowly and methodically wrecks everything in its path.

Unfortunately, the heat blob is indeed a hot, angry foaming bubble, and it’s wrecking the lives of seabirds and other plants and animals in our oceans.

The heat blob is a new oceanic miscreant taking over the continental shelves around the North American and Asian continents. Scientists first observed a heat blob in 2015 when it disrupted marine ecosystems off the west coast of the U.S. By February 2022, the blob was measured as about three million square kilometers. NOAA posted an animation of daily changes recorded in 2020.

“There are serious disruptions to the food chain going on right now due to ocean warming and other changes,” U.S. Fish and Wildlife Service seabird coordinator Roberta Swift said. “These Pacific-wide changes affect seabirds throughout their entire Pacific range. This could affect the quantity or quality food available for seabirds in the Pacific, meaning seabirds might skip breeding, abandon their nests, or die of starvation.”

This graph shows sea surface temperature anomalies off the Pacific coast

The changes start at the bottom of the food chain and disrupt predator-prey relationships all the way to the top. For example, warmer water conditions encourage warm water zooplankton to proliferate in areas formerly dominated by cold-water species. Warm water zooplankton have a lower fat content than cold-water plankton. For the fish that rely on the cold-water plankton, the warm water zooplankton simply are not as nutritious. The forage fish that eat the warm water zooplankton do not grow as big, which then results in fewer calories and less energy for their predators, including seabirds. That, in turn, can result in starvation and death.

In 2019, thousands of migratory short-tailed shearwaters died off the coast of Alaska. Shearwaters spend their summers (our winter) and breed in South America, and then fly up the coast during their winter (our summer). Because of their high metabolic rate, they rely on huge numbers of krill, small fish, or squid. If there are fewer numbers of these krill or fish, or they have a lower value nutritional content, it could lead to a significant die-off. In previous years, die-offs affected common murres, tufted puffins, and Cassin’s auklets.

“Ocean warming events most affect colder oceans in this way,” Swift said. “Warming events can alter ocean circulation patterns and affect forage fish distributions which may require seabirds to fly farther for their meals, making feeding themselves and their young much more difficult and energy expensive.”

Another way human activities affect the marine food change is through input of carbon dioxide into the atmosphere, one of the same mechanisms that causes global warming. Excess carbon dioxide causes ocean acidification. As a result, a series of chemical reactions result in an increased concentration of hydrogen ions and a decrease in carbonate ions.

Carbonate ions are formation of the exoskeletons of crustaceans that make up the zooplankton, fundamental components of the oceanic food chain. Many seabirds eat the larval stages of fish and invertebrates, but shells and exoskeletons cannot develop normally in an acidified ocean with increasingly acidic conditions. We will all have less seafood to eat if larval crustaceans can’t develop into adults.

According to the National Oceanic and Atmospheric Administration, shifts in the marine food web during the evolution of the 2014–2015 heat blob forced sea lion mothers to forage further from their rookeries in the Channel Islands off southern California. Hungry pups set out on their own, but many became stranded on area beaches.

Communities around the world are dependent on shellfish and fish higher up the food chain for food. Shellfish farmers must now pay special attention to the acidity of the water that bathes larval oysters in order to ensure their development into the adult oysters we eat. The changes affecting tiny organisms in our oceans right now are leading to big changes for fish, birds, and people.

Although getting rid of heat blobs — and evil villains — might seem daunting, you can still be a superhero and save seabirds. Reduce your energy footprint. Recycle your waste. Try to be mindful of your consumption. Most of all, treat your oceans and your planet with respect. All the little things — and superhuman things — count.

Story Tags

Animal health
Aquatic animals
Aquatic environment
Aquatic plants
Climate change
Climate effects
Ecological resilience
Ecological restoration
Habitat conservation
Human impacts
Marine ecology
Marine environments
Marine mammals
Migratory birds