Kalle Kirsimäe scite author profile

We have studied the tube ultrastructure of 44 recent species from 36 serpulid genera. Twelve distinct ultrastructures are identified. Serpulids possess very diverse tube ultrastructures, in contrast with the traditional point of view. Most species show single-layered tubes, but 34% of these species have between two and four ultrastructurally different layers. Tubes are mostly bimineralic, and are composed of aragonite and calcite; however, one of the polymorphs is always dominant. All the studied single-layered tubes with a lamello fibrillar tube ultrastructure are exclusively calcitic; prismatic structures, both in regular or irregular orientation, are either calcitic or aragonitic in composition. There is no correlation between tube mineralogy, and ultrastructure, and marine, brackish, and freshwater environments. We find that 47% of the serpulid species studied possess a unique combination of tube structure characters.

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Two-billion-year-old evaporites capture Earth’s great oxidation

Blättler

Claire

Prave

et al. 2018

Science

134

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Major changes in atmospheric and ocean chemistry occurred in the Paleoproterozoic era (2.5 to 1.6 billion years ago). Increasing oxidation dramatically changed Earth's surface, but few quantitative constraints exist on this important transition. This study describes the sedimentology, mineralogy, and geochemistry of a 2-billion-year-old, ~800-meter-thick evaporite succession from the Onega Basin in Russian Karelia. The deposit consists of a basal unit dominated by halite (~100 meters) followed by units dominated by anhydrite-magnesite (~500 meters) and dolomite-magnesite (~200 meters). The evaporite minerals robustly constrain marine sulfate concentrations to at least 10 millimoles per kilogram of water, representing an oxidant reservoir equivalent to more than 20% of the modern ocean-atmosphere oxidizing capacity. These results show that substantial amounts of surface oxidant accumulated during this critical transition in Earth's oxygenation.

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Fluid source and methane-related diagenetic processes recorded in cold seep carbonates from the Alvheim channel, central North Sea

et al. 2016

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Potential influence of sulphur bacteria on Palaeoproterozoic phosphogenesis

et al. 2013

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The Osmussaar Breccia in Northwestern Estonia — Evidence of a ~475 Ma Earthquake or an Impact?

Suuroja

Kirsimäe

Ainsaar

et al. 2003

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Kalle Kirsimäe

Ultrastructure and mineral composition of serpulid tubes (Polychaeta, Annelida)

Two-billion-year-old evaporites capture Earth’s great oxidation

Fluid source and methane-related diagenetic processes recorded in cold seep carbonates from the Alvheim channel, central North Sea

Potential influence of sulphur bacteria on Palaeoproterozoic phosphogenesis

The Osmussaar Breccia in Northwestern Estonia — Evidence of a ~475 Ma Earthquake or an Impact?

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