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Divers in the water near a boat.
Photo Credit: Maggie Amsler

Divers Kate Schoenrock and Chuck Amsler prepare to release a concrete substrate from the boat's davit and escort it down to the seafloor as part of an experiment to understand the marine ecosystem around Palmer Station.

Underwater forests of Antarctica

Scientists dive deep into unlocking mysteries of unique marine ecosystem

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There are mighty forests in Antarctica. Just don’t expect to see them poking through the ice and snow.

The forests are underwater, composed of several species of huge brown algae, or seaweed, which blanket the ocean floor on the western side of the Antarctic Peninsula. These macroalgae dominate the local ecosystem in ways no other seaweed does anywhere else in the world.

This unique marine forest — comparable to the great kelp forest off the coast of California in terms of sheer biomass — and the marine organisms that inhabit it has drawn a team of researchers from the University of Alabama at Birmingham (UAB) External Non-U.S. government site and University of South Florida (USF) External Non-U.S. government site down to the U.S. Antarctic Program’s Palmer Station External U.S. government site for more than a decade.

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Blog: UAB in Antarctica External Non-U.S. government site
Pictures: UAB on Flickr External Non-U.S. government site
Videos: UAB on YouTube External Non-U.S. government site 
 

“We’ve learned that the community at Palmer is structured very differently than lots of other communities that look similar superficially,” said Charles Amsler External Non-U.S. government site aboard the ARSV Laurence M. Gould External U.S. government site a day before he and the rest of a seven-member team headed south for Antarctica from Punta Arenas, Chile, on a diving research expedition that will stretch into June.

A professor at the UAB and one of three principal investigators on the project, Amsler explained that the team’s previous work has shown that the major brown algae and some of the other marine organisms in the ecosystem use chemical defenses to thwart predators. Much of scientists’ earlier work involved studying the function and evolution of these chemical defenses. Some of the compounds they have isolated in the past show promise as cancer therapies or even pesticides.

Now, Amsler, James McClintock External Non-U.S. government site, also a professor at UAB, and organic chemist Bill Baker External Non-U.S. government site from USF, are diving deeper into the connections within the ecosystem. They want to understand the ecological relations between the macroalgae, the smaller algal species that seek refuge within the poisonous seaweed, and the vast numbers of small crustaceans called amphipods that swarm the ecosystem.

Macroalgae in Antarctica
Photo Credit: Chuck Amsler

Part of a Cystosphaera jacquinotii macroalga. The smaller, spherical structures are gas-filled bladders that allow the alga to float up off the bottom. The smaller cylindrical structures are reproductive structures called receptacles.

“This project is really about understanding how this community works, and through understanding this unique community, understanding more about how a kelp forest works, other marine communities work, in contrast,” Amsler said.

For example, the amphipods are essentially the marine equivalents of insects. Normally, they would feast on the brown algae — but that’s not the case because of the evolutionary chemical defenses of the polar seaweeds.

“So imagine a forest or grassland at home with 100,000 plant-eating insects per meter squared, and yet the big macrophytes [aquatic plants] that dominate the system aren’t edible,” Amsler explained.

Aside from their ongoing work since the 1999-2000 field season, there’s been little characterization of the marine community around Palmer, according to McClintock. “That makes it very exciting for us because it is a frontier in that sense,” he said.

The study also establishes an important baseline to monitor future changes to the environment, noted McClintock, a marine invertebrate zoologist whose interests also range to ocean acidification and the impacts of invasive subpolar species in the Antarctic.

The Antarctic Peninsula is undergoing rapid evolution from climate change, and it is one of the fastest-warming regions on the planet. The average winter temperature is about 6.5 degrees Celsius higher in the winter than it was in the 1950s — a rate of increase more than five times the global average.

Delving into this unique and quickly changing ecosystem involves scuba diving in near-freezing waters. The seas around Palmer are also home to leopard seals, a predator dangerous enough to require an alarm system to alert divers in the water if someone topside in the dive boat spies one of the sharp-toothed critters.1 2   Next

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Curator: Peter Rejcek, Antarctic Support Contract | NSF Official: Winifred Reuning, Division of Polar Programs