Wladyslaw Altermann scite author profile

Microbially mediated calcification can be traced back for at least 2.6 billion years. Although morphological comparison of fossil and recent microbial carbonates suggests that mineralization processes associated with cyanobacteria and their interactions with heterotrophic bacteria have remained similar from the Archaean until today, the metabolic and chemical details remain poorly constrained. Microbial consortia often exhibit an ability to change solution chemistry and control pH at the microscale, passively or actively. This leads to oversaturation of Ca 2 + and ions and to the removal of kinetic inhibitors to carbonate precipitation, like sulphate or phosphate. The kinetic barriers of low carbonate ion activity, ion hydration and ion complexing, especially in saline waters, inhibit spontaneous carbonate mineral precipitation from saturated solutions but oxygenic photosynthesis and sulphate reduction by sulphate-reducing bacteria can overcome these natural barriers. Sulphate in seawater tends to form pairs with Ca 2 + and Mg 2 + ions. The removal of sulphate reduces complexing, raises carbonate alkalinity, and along with pyrite formation, enhances carbonate precipitation. Cyanobacteria can store Ca 2 + and Mg 2 + ions in organic envelopes and precipitate carbonates within their sheaths and extracellular polymeric substances, thus, triggering sedimentary carbonate production. We propose that this interplay of cyanobacteria and heterotrophic bacteria has been the major contributor to the carbonate factory for the last 3 billion years of Earth history.

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Precambrian clastic sedimentation systems

Eriksson

Condie

Tirsgaard

et al. 1998

Sedimentary Geology

262

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Geochemical and ion-microprobe U–Pb zircon constraints on the Archaean evolution of Singhbhum Craton, eastern India

Nelson

Bhattacharya

Thern

et al. 2014

Precambrian Research

126

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Chronological correlations between the Pilbara and Kaapvaal cratons

Nelson

Trendall

Altermann

1999

Precambrian Research

215

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Sedimentation rates, basin analysis and regional correlations of three Neoarchaean and Palaeoproterozoic sub-basins of the Kaapvaal craton as inferred from precise U–Pb zircon ages from volcaniclastic sediments

Altermann

Nelson

1998

Sedimentary Geology

140

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Archean microfossils: a reappraisal of early life on Earth

Altermann

Kaźmierczak

2003

Research in Microbiology

145

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Mesoarchaean–Palaeoproterozoic stratigraphic record of the Singhbhum crustal province, eastern India: a synthesis

Mazumder

Loon

Mallik

et al. 2012

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The Mesoarchaean–Palaeoproterozoic stratigraphic record of the Singhbhum crustal province, eastern India, implies sedimentation and volcanism in a changing tectonic scenario, and thus assumes immense geological significance. Although efforts have been made by many researchers in the past several decades to summarize various geological aspects of the Singhbhum crustal province, a critical synthesis of various stratigraphic issues was long overdue. The present contribution is an updated critical synthesis of the Mesoarchaean–Palaeoproterozoic stratigraphic record of the Singhbhum crustal province. We have pointed out the problematic stratigraphic issues of the Singhbhum crustal province that deserve careful scrutiny in order to gain better insights into the mode of stratigraphic sequence building.

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Neoarchean Biomineralization by Benthic Cyanobacteria

Kaźmierczak

Altermann

2002

Science

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