How tiny algae shaped the evolution of giant clams
Giant clams have colorful mantles. (Credit: Ruiqi Li/欧美口爆视频 Boulder)
Giant clams, some of the largest mollusks on Earth, have long fascinated scientists. These impressive creatures can grow up to 4.5 feet in length and weigh over 700 pounds, making them icons of tropical coral reefs.
But these animals don鈥檛 bulk up on a high-protein diet. Instead, they rely largely on energy produced by algae living inside them. In a new study led by 欧美口爆视频 Boulder, scientists sequenced the genome of the most widespread species of giant clam, Tridacna maxima, to reveal how these creatures adapted their genome to coexist with algae.
The findings, Jan. 4 in the journal Communications Biology, offer clues about how such evolution may have contributed to the giant clam鈥檚 size.
鈥淕iant clams are keystone species in many marine habitats,鈥 said Jingchun Li, the paper鈥檚 senior author and professor in the Department of Ecology and Evolutionary Biology. 鈥淯nderstanding their genetics and ecology helps us better understand the coral reef ecosystem.鈥
A symbiotic relationship
Unlike popular myths鈥攍ike the one in Disney鈥檚 鈥淢oana 2鈥 where the giant clam eats humans鈥攖hese vegetarian mollusks rely on algae living within their bodies for energy. If giant clams ingest the right algae species while swimming through the ocean as larvae, they develop a system of tube-like structures coated with these algae inside their body. These algae can turn sunlight into sugar through photosynthesis, providing nutrients for the clams.
鈥淚t鈥檚 like the algae are seeds, and a tree grows out of the clam鈥檚 stomach,鈥 Li said.
At the same time, the clams shield the algae from the sun鈥檚 radiation and give them other essential nutrients. This mutually beneficial relationship is known as photosymbiosis.
Overfishing and climate change are major threats to giant clams. (Credit: Ruiqi Li/欧美口爆视频 Boulder)
Giant clams live in a symbiotic relationship with algae. (Credit: Ruiqi Li/欧美口爆视频 Boulder)
鈥淚t鈥檚 interesting that many of giant clams鈥 cousin species don鈥檛 rely on symbiosis, so we want to know why giant clams are special,鈥 said Li.
In collaboration with researchers at the University of Guam and the Western Australian Museum, the team compared the genes of T. maxima with closely related species 鈥 such as the common cockle鈥攖hat lack symbiotic partners. The researchers found that T. maxima have evolved more genes coded for sensors to distinguish friendly algae from harmful bacteria and viruses. At the same time, T. maxima tuned down some of its immune genes in a way that likely helps the animal tolerate algae living in their body long term, according to Ruiqi Li, the paper鈥檚 first author and postdoctoral researcher at the 欧美口爆视频 Museum of Natural History.
As a result of the clam鈥檚 weakened immune system, its genome contains a large number of transposable elements, which are bits of genetic material left behind by ancient viruses.
鈥淭hese aspects highlight the tradeoffs of symbiosis. The host has to accommodate a suppressed immune system and potentially more viral genome invasions,鈥 said Ruiqi Li.
The study also discovered that giant clams have fewer genes related to body weight control, known as the CTRP genes. Having fewer CTRP genes might have allowed giant clams to grow larger.
Conservation concerns
Last year, a giant clam population assessment by Ruiqi Li, prompted the International Union for Conservation of Nature (IUCN) to update the conservation status of multiple giant clam species. Tridacna gigas, the largest and most well-known species, is now recognized as 鈥渃ritically endangered,鈥 the highest level before a species becomes extinct in the wild.
T. maxima, because of its wide distribution, is currently classified as 鈥.鈥 But Ruiqi Li said it鈥檚 possible that different species are lumped into one category simply because they look similar.
鈥淚f you think these giant clams are all the same species, you might underestimate the threat they face,鈥 Ruiqi Li said. 鈥淕enetic studies like this can help us distinguish between species and assess their true conservation needs.鈥
The team hopes to sequence the genomes of all 12 known species of giant clams to better understand their diversity.
Similar to corals, giant clams are facing increasing threats from climate change. When the ocean water becomes too warm, the clams expel the symbiotic algae from their tissues. Without the algae, the giant clams can starve.
鈥淭he giant clams are very important for the stability of the marine ecosystem and support biodiversity,鈥 Jingchun Li said. She added that many creatures living in the shallow waters rely on their shells for shelter, and giant clams also provide food for other organisms.
鈥淧rotecting them is essential for the health of coral reefs and the marine life that depends on them.鈥