Scientists at Sainsbury Laboratory Cambridge University have found that the mineral vaterite, a form (polymorph) of calcium carbonate, is a dominant component of the protective silvery-white crust that forms on the leaves of a number of alpine plants, which are part of the Garden's national collection of European Saxifraga species.
Naturally occurring vaterite is rarely found on Earth. Small amounts of vaterite crystals have been found in some sea and freshwater crustaceans, bird eggs, the inner ears of salmon, meteorites and rocks. This is the first time that the rare and unstable mineral has been found in such a large quantity and the first time it has been found to be associated with plants.
[...] Other potential uses of vaterite include improving the cements used in orthopaedic surgery and as an industrial application improving the quality of papers for inkjet printing by reducing the lateral spread of ink.
Dr Wightman said vaterite was often associated with outer space and had been detected in planetary objects in the Solar System and meteorites: "Vaterite is not very stable in the Earth's humid atmosphere as it often reverts to more common forms of calcium carbonate, such as calcite. This makes it even more remarkable that we have found vaterite in such large quantities on the surface of plant leaves."
The microscopy research has also turned up some novel cell structures. Mr Aston added: "As well as producing vaterite, Saxifraga scardica has a special tissue surrounding the leaf edge that appears to deflect light from the edge into the leaf. The cells appear to be producing novel cell wall structures to achieve this deflection. This may be to help the plant to collect more light, particularly if it is growing in partly shaded environments."
(Score: 1, Interesting) by Anonymous Coward on Tuesday March 06 2018, @08:38AM
This is a nice find, and I hope that they manage to get some insight in how the plant actually manages to produce this mineral.
And at the end there is this:
I doubt they will have much difficulties of growing these plants in lab conditions (or botanical gardens), as more species in their family are grown as ornamental plants in various places.