Arcticโ Diatoms Push Boundaries of Life, Thrive in Sub-Zero Temperatures
STANFORD, CA – September 9, 2025 – In a finding challenging conventional understanding ofโค biologicalโฃ limits, โขresearchers at Stanford โUniversity have found diatoms – single-celled algae – actively moving and functioning at temperatures โpreviously thought unfeasible for eukaryotic โcells. The findings, published todayโค in the Proceedings of the โคNational Academy of Sciences, reveal these microscopic organisms areโ not โขonlyโฃ surviving but thrivingโฃ inโ waters reaching below โฃ-2 degrees celsius (28.4 degrees Fahrenheit) beneath โขArctic sea ice.
Theโข research,led by Manu Prakashโค of theโข Stanford Prakash Lab,details how theseโ diatoms โคexhibitโ a unique gliding motility,propelled by mucus secretions,even at these extreme temperatures.โ Thisโ challenges the established belief that cellular โprocesses significantly slowโค or halt near freezing.
“The โArctic is white on top but underneath, it’s green – absolute pitch โgreen as of the presence of algae,” said Prakash. โข”in some sense, it makes you realize this is โคnot just โฃa โtiny little thing, this is a notable portion of theโ food chainโฃ and controls what’s happening โคunderโฃ ice.”
the diatoms โขwere โขcollected during โคan expedition aboard the research vessel Sikuliaq, โฃwhereโค researchers visited a dozen stations andโค observed severalโฃ polar bears. The team also captured drone footage revealing the extent of algal life beneath the ice.
This discovery raises critical โขquestions about the role of diatoms in the โขarctic ecosystem, notably as theโ region rapidly changes. Researchers are investigating whether these organisms are a vital link in the food web, supporting โfishโ and even polar bears, and whether their โคmucus trails could contribute to new ice formation.
Prakash expressed urgency inโ continuing this research, citingโ projected severe cuts โคto National Science Foundation funding -โค potentially reducing โฃpolar research funding byโ 70 percent. “Many of my โฃcolleagues are telling me,inโ the next 25โฃ to 30 years,thereโฃ will be no Arctic. Whenโ ecosystems are lost,โ we lose knowledgeโข about entire branches in our tree of life,” he stated. “Iโข feel a sense of urgencyโฃ in many of these systems, because, ultimately, the infrastructure and capacity to be able to operate is critical for discovery.”
The study was authored by Qing โZhang,โ Hope T.Leng,Hongquan Li,Kevin R. Arrigo, and โฃManu Prakash.Funding โฃwas providedโ by the National Science โFoundation, a Stanfordโฃ VPGE DARE fellowship, the Human Frontier Science Program, the Moore โFoundation, โtheโค Schmidt foundation, and the Dalio Foundation.
DOI: 10.1073/pnas.2423725122
