纳米级矿物的广泛映射揭示了碳酸钙半水合物在形成珍珠层和珊瑚生物矿化中的作用。
Myriad Mapping of nanoscale minerals reveals calcium carbonate hemihydrate in forming nacre and coral biominerals.
机构信息
Department of Physics, University of Wisconsin, Madison, WI, 53706, USA.
Department of Marine Biology, Centre Scientifique de Monaco, 98000, Monaco, Principality of Monaco.
出版信息
Nat Commun. 2024 Feb 28;15(1):1812. doi: 10.1038/s41467-024-46117-x.
Calcium carbonate (CaCO) is abundant on Earth, is a major component of marine biominerals and thus of sedimentary and metamorphic rocks and it plays a major role in the global carbon cycle by storing atmospheric CO into solid biominerals. Six crystalline polymorphs of CaCO are known-3 anhydrous: calcite, aragonite, vaterite, and 3 hydrated: ikaite (CaCO·6HO), monohydrocalcite (CaCO·1HO, MHC), and calcium carbonate hemihydrate (CaCO·½HO, CCHH). CCHH was recently discovered and characterized, but exclusively as a synthetic material, not as a naturally occurring mineral. Here, analyzing 200 million spectra with Myriad Mapping (MM) of nanoscale mineral phases, we find CCHH and MHC, along with amorphous precursors, on freshly deposited coral skeleton and nacre surfaces, but not on sea urchin spines. Thus, biomineralization pathways are more complex and diverse than previously understood, opening new questions on isotopes and climate. Crystalline precursors are more accessible than amorphous ones to other spectroscopies and diffraction, in natural and bio-inspired materials.
碳酸钙(CaCO)在地球上储量丰富,是海洋生物矿物的主要成分,也是沉积岩和变质岩的主要成分,它通过将大气中的 CO 储存到固体生物矿物中来在全球碳循环中发挥重要作用。已知碳酸钙有 6 种结晶多形体——3 种无水物:方解石、文石、霰石,以及 3 种水合物:六水合碳酸钙(CaCO·6HO)、一水合碳酸钙(CaCO·1HO,MHC)和半水合碳酸钙(CaCO·½HO,CCHH)。CCHH 最近被发现并进行了特性描述,但仅限于合成材料,而不是天然存在的矿物。在这里,通过 Myriad Mapping(MM)对纳米级矿物相的 2 亿个光谱进行分析,我们在新沉积的珊瑚骨骼和珍珠母表面发现了 CCHH 和 MHC,以及无定形前体,但在海胆刺上没有发现。因此,生物矿化途径比以前理解的更复杂和多样化,为同位素和气候提出了新的问题。在天然和仿生材料中,与无定形物相比,结晶前体更容易被其他光谱和衍射技术所检测到。
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