Meet Chonkus, the mutant cyanobacteria that could help sink climate change

A microscopy image of the Chonkus cyanobacterium.

Stand back, ordinary ocean-dwelling, oxygen-spewing organisms: There’s a new green, hulkish mutant in town.

And hefty UTEX 3222 — dubbed “Chonkus” by the researchers who found it — may have just the right combination of traits to help with some of humanity’s most pressing problems. In particular, Chonkus could help fight climate change, report microbiologist Max Schubert, formerly of the Wyss Institute at Harvard and now launching a start-up, and colleagues in a study published October 29 in Applied and Environmental Microbiology.  

A gif image showing that cells of the Chonkus cyanobacterium strain settle to the bottom much more quickly in water than another strain of cyanobacteria.
Chonkus (right) settles quickly to the bottom of a water-filled test tube, compared with another strain of cyanobacteria (left). That quick accumulation of green sludge could make it more useful for sequestering atmospheric carbon dioxide.Ted Chavkin

Chonkus was discovered in the shallow sunlit waters off the coast of Italy’s Vulcano Island, where volcanic gas-rich groundwater seeps into the sea. It’s an environment that Schubert and colleagues suspected to be fertile ground for finding photosynthesizing, carbon-consuming microbes. The waters collected from those seeps turned out to contain a spontaneous mutant strain of Synechococcus elongatus, a species of photosynthesizing bacteria that’s at the base of ocean food webs around the world (SN: 10/20/16; SN: 6/9/16).

S. elongatus is a favorite lab organism, because of how quickly it grows and how resistant it is to environmental stressors (SN: 6/14/17). And Chonkus, the new mutant, is like a superpowered version, the team found. When they cultured the strain in the laboratory, its individual cells were larger than those of other fast-growing cyanobacteria, and it built larger colonies. The mutant also contained more carbon than other strains of S. elongatus, apparently stored in white granules within its cells. The strain was also heavy: When placed into a test tube, the cyanobacteria rapidly sank to the bottom, forming a dense sludge.

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Those traits could make Chonkus particularly effective at carbon sequestration in the ocean, the researchers suggest. Not only might it have the capacity to absorb a lot more carbon than the average cyanobacteria floating in the ocean, but it also sinks rapidly, which means it could also sequester that carbon away from the atmosphere quickly (SN: 4/26/24).

Chonkus’ discovery suggests that carbon dioxide-rich seeps into ocean waters may contain other rare and useful organisms, potentially including other organisms that could aid in marine carbon dioxide removal, the researchers say. And when it comes to forestalling the worst effects of climate change, such organisms may not be the heroes we deserve — but they might just be the heroes we need.


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