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A start-up from Paris called Glowee claims they've found a way to take a particular type of bioluminescent bacteria that lives on squid and use it to light up entire cities.
—The long-awaited second season of “Squid Game” begins Thursday on Netflix. Lee Jung-jae returns to lead the seven-episode season, which is already nominated for best drama series at the 2025 Golden Globe Awards. The show follows a game where contestants who are down on their luck and in debt are recruited to compete for a cash prize ...
Meanwhile, in water, Ruby takes the form of an enormous bioluminescent squid that can shoot lasers from her eyes, design challenges that call for some truly dazzling visual effects (nothing so ...
Margaret McFall-Ngai (born 1951) is an American animal physiologist and biochemist [1] best-known for her work related to the symbiotic relationship between Hawaiian bobtail squid, Euprymna scolopes and bioluminescent bacteria, Vibrio fischeri. Her research helped expand the microbiology field, primarily focused on pathogenicity and ...
The different properties of the squid's eyes allow it to see a variety of different light sources present in its habitat, primarily downwelling sunlight and bioluminescence. [3] H. heteropsis hatchlings are born with identical eyes of the same size and pigmentation. [3] As they develop, the left eye becomes larger and more pigmented. [3]
Squid Game (Korean: 오징어 게임) is a South Korean dystopian survival thriller horror television series created, written and directed by Hwang Dong-hyuk for Netflix.The series revolves around a secret contest where 456 players, all of whom are in deep financial hardship, risk their lives to play a series of deadly children's games for the chance to win a ₩45.6 billion prize.
The mysterious strawberry squid lives deep in the twilight zone of the ocean, migrating to more shallow waters every night to hunt for food. ©NOAA / Public Domain / Wikipedia – Original / License
Another squid, Abralia trigonura, is able to produce three spectral components: at 440 and at 536 nanometres (green), appearing at 25 Celsius, apparently from the same photophores; and at 470–480 nanometres (blue-green), easily the strongest component at 6 Celsius, apparently from a different group of photophores. Many species can in addition ...