James Palandri scite author profile

The history of the growth of continental crust is uncertain, and several different models that involve a gradual, decelerating, or stepwise process have been proposed. Even more uncertain is the timing and the secular trend of the emergence of most landmasses above the sea (subaerial landmasses), with estimates ranging from about one billion to three billion years ago. The area of emerged crust influences global climate feedbacks and the supply of nutrients to the oceans , and therefore connects Earth's crustal evolution to surface environmental conditions. Here we use the triple-oxygen-isotope composition of shales from all continents, spanning 3.7 billion years, to provide constraints on the emergence of continents over time. Our measurements show a stepwise total decrease of 0.08 per mille in the average triple-oxygen-isotope value of shales across the Archaean-Proterozoic boundary. We suggest that our data are best explained by a shift in the nature of water-rock interactions, from near-coastal in the Archaean era to predominantly continental in the Proterozoic, accompanied by a decrease in average surface temperatures. We propose that this shift may have coincided with the onset of a modern hydrological cycle owing to the rapid emergence of continental crust with near-modern average elevation and aerial extent roughly 2.5 billion years ago.

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Reconstruction of in situ composition of sedimentary formation waters

Palandri

Reed

2001

Geochimica et Cosmochimica Acta

114

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James Palandri

A compilation of rate parameters of water-mineral interaction kinetics for application to geochemical modeling

Geochemical models of metasomatism in ultramafic systems: serpentinization, rodingitization, and sea floor carbonate chimney precipitation

Experimental investigation of CO2–brine–rock interactions at elevated temperature and pressure: Implications for CO2 sequestration in deep-saline aquifers

Rapid emergence of subaerial landmasses and onset of a modern hydrologic cycle 2.5 billion years ago

Reconstruction of in situ composition of sedimentary formation waters

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