How do living organisms produce minerals -- for example, for their shells? Researchers have come a step closer to answering this question. In a joint study, they have deciphered the formation ...
Life on Earth began from a single-celled microbe, while the rise to the multicellular world in which we live arose due a vital chemical process known as biomineralization, during which living ...
Many corals and sponges form skeletons that support and shape their bodies. Whereas biomineralization—the formation of these skeletons—has been intensively studied in corals, the main ecosystem ...
The genome of a glass sponge species suggests that silica skeletons evolved independently in several groups of sponges. The genome of a glass sponge species suggests that silica skeletons evolved ...
Microbially induced corrosion (MIC) is a prevalent issue in marine environments, leading to structural damages such as cracking in concrete infrastructure. This corrosion poses a persistent challenge, ...
Chinese scientists have, for the first time, discovered rare-earth biomineralization in ferns — a breakthrough that could pave the way for a cleaner and more sustainable method of extracting ...
Microbially induced corrosion (MIC) is a prevalent issue in marine environments, leading to structural damages such as cracking in concrete infrastructure. This corrosion poses a persistent challenge, ...
Many organisms can produce minerals or mineralized tissue. A well-known example is nacre, which is used in jewellery because of its iridescent colours. Chemically speaking, its formation begins with a ...
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