(PhysOrg.com) -- It's "Waterworld" snail style: Ocean-dwelling snails that spend most of their lives floating upside down, attached to rafts of mucus bubbles.
Plants & Animals
Oct 10, 2011
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A research team led by Professor Dae-ha Seo at the Department of Physics and Chemistry, Daegu Gyeongbuk Institute of Science and Technology, has successfully developed a new technology for optical microscopy analysis—known ...
Biochemistry
Dec 11, 2023
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22
Epithelial cells, which line the surfaces and organs of the body, can protect themselves against cancer by removing unhealthy or abnormal cells through a mechanism known as "apical extrusion," where the damaged cells are ...
Cell & Microbiology
Jul 11, 2022
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62
Fusarium graminearum is a widespread pathogenic fungus that causes Fusarium head blight (FHB) in cereal crops worldwide, especially in wheat. Between 2000 and 2018, more than 4.5 million hectares were annually affected by ...
Cell & Microbiology
May 31, 2022
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28
The presence of pink pumice in the giant pumice raft of the 2012 Havre eruption that drifted across the southwest Pacific Ocean has led researchers to recognize the immense power of underwater volcanic eruptions.
Earth Sciences
Feb 8, 2022
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A team of researchers at the University of Colorado has found that fire ants can create 'appendages' on the rafts they make out of their own bodies when they find themselves in water. In their paper published in the Journal ...
Fire ants build living rafts to survive floods and rainy seasons. Georgia Tech scientists are studying if a fire ant colony's ability to respond to changes in their environment during a flood is an instinctual behavior and ...
General Physics
Nov 26, 2019
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230
For the first time, scientists have used light beams to manipulate lipid rafts in artificial cell membranes.
Materials Science
Jan 29, 2019
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51
An unusually large amount of storm activity in southern New Zealand over the past 12 months has provided new insights into how extreme weather events can impact marine biology.
Ecology
Mar 21, 2018
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63
Biologists on the Florida campus of The Scripps Research Institute (TSRI) have discovered a new mechanism that likely underlies how we feel force or touch. Their study suggests that "rafts" of fatty lipids on the cell surface ...
Biochemistry
Jan 5, 2017
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