News Release

Giant Antarctic sea spiders reproductive mystery solved by UH researchers

Peer-Reviewed Publication

University of Hawaii at Manoa

Giant Antarctic Sea Spider

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Giant Antarctic sea spider (Photo credit: R. Robbins)

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Credit: Photo credit: R. Robbins

Link to video and sound (details below): https://spaces.hightail.com/receive/JwM0o5gQdq

The reproduction of giant sea spiders in Antarctica has been largely unknown to researchers for more than 140 years, until now. University of Hawaiʻi at Mānoa scientists traveled to the remote continent and saw first-hand the behaviors of these mysterious creatures, and their findings could have wider implications for marine life and ocean ecosystems in Antarctica and around the world.

Sea spiders, or pycnogonids, are a group of spider-like invertebrates found in marine habitats globally. Most species are smaller than a fingernail, but some Antarctic species have leg spans (tip of one leg to the tip of the opposite leg) of more than a foot. These animals are a famous example of “polar gigantism,” a phenomenon where certain organisms in polar regions, such as the Arctic and Antarctic, grow to much larger sizes than their relatives in warmer climates.

“In most sea spiders, the male parent takes care of the babies by carrying them around while they develop,” UH Mānoa School of Life Sciences Professor and lead researcher Amy Moran said. “What’s weird is that despite descriptions and research going back over 140 years, no one had ever seen the giant Antarctic sea spiders brooding their young or knew anything about their development.”

Moran’s lab has studied polar gigantism for more than a decade. In October 2021, during a field research expedition to Antarctica, the team, including Moran and School of Life Sciences PhD students Aaron Toh and Graham Lobert, made a groundbreaking discovery. Diving under the ice, they hand-collected groups of giant sea spiders that appeared to be mating and transported them to tanks for observation.

To their amazement, two different mating groups produced thousands of tiny eggs. Instead of carrying the babies until they hatched, as in most species of sea spiders, one parent (likely the father) spent two days attaching the eggs to the rocky bottom where they developed for several months before hatching as tiny larvae. The researchers findings were published in Ecology in February 2024.

“We were so lucky to be able to see this,” Toh said. “The opportunity to work directly with these amazing animals in Antarctica meant we could learn things no one had ever even guessed.”

Within weeks after laying, the eggs had been overgrown with microscopic algae, providing perfect camouflage.

“We could hardly see the eggs even when we knew they were there, which is probably why researchers had never seen this before,” Lobert said.

Breakthrough research

Lloyd Peck, a renowned Antarctic biologist with the British Antarctic Survey who was not involved with the study said, “The general ecology and reproductive biology of Antarctic marine species remains overwhelmingly unknown and we have data on only a handful of species, so papers like this one are of huge importance in shedding light on how animals function in one of the least studied parts of the world’s ocean.”

The UH Mānoa School of Life Sciences is housed in the College of Natural Sciences.

 

Link to video and sound (details below): https://spaces.hightail.com/receive/JwM0o5gQdq

VIDEO:

BROLL: (0:55)

0:00-0:05: Up close look at the Antarctic sea spider

0:05-0:39: UH researchers diving to collect the sea spiders

0:40-0:45: UH researchers jumping into the icy cold waters

0:45-0:55: UH researchers flying into McMurdo Station in Antarctica

SOUNDBITES:

Amy Moran, UH Mānoa School of Life Sciences professor

(14 seconds)

“These giant sea spiders, the males do care for the young, but they do it differently and they do it in a much simpler way than the other sea spiders. So it may provide a kind of a look at the evolutionary bridge that leads to fathers taking care of their offspring.”

Graham Lobert, UH Mānoa School of Life Sciences PhD candidate

(13 seconds)

“So the organisms and the ecosystems that are down there are very difficult to study and to be able to find something that's, has been, eluded researchers for 140 plus years is really amazing.”


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