Your search keyword '"Laura Kennell"' showing total 4 results

1. Origin and 87Rb–87Sr age of porewaters in low permeability Ordovician sediments on the eastern flank of the Michigan Basin, Tiverton, Ontario, Canada

Author

Ken G. Raven, Laurianne Bouchard, Ján Veizer, Laura Kennell-Morrison, Ian D. Clark, and Mark Jensen

Subjects

Flank, 010504 meteorology & atmospheric sciences, Geochemistry, Structural basin, 010502 geochemistry & geophysics, 01 natural sciences, Sequence (geology), Ordovician, Low permeability, General Earth and Planetary Sciences, Rock core, Geology, 0105 earth and related environmental sciences, Ontario canada

Abstract

Porewater extractions and acid leachates of rock core from a 250 m thick sequence of low-permeability Ordovician-age shales and limestones, on the eastern flank of the Michigan Basin, were analysed for strontium isotope ratios in an attempt to infer porewater ages from observed 87Sr/86Sr enrichments. The porewaters originated as Ordovician seawater, which subsequently mixed with evaporated Silurian seawater infiltrating from above, and, to some extent, with a deep brine—with an enriched 87Sr/86Sr signature—from the underlying crystalline shield or deep basin. The porewater 87Sr/86Sr ratios are more radiogenic than contemporaneous seawater but show no obvious correlation to those leached from the solid rock phases. Accepting that the initial 87Sr/86Sr signatures in porewaters were dominated by Late Silurian brine, potentially with an additional deep brine component, the excess of radiogenic 87Sr appears to represent ingrowth from 87Rb decay over a time span of some 420 million years, approaching the depositional age of the rocks. Similarly, Rb/Sr errochron ages of acid leachates of solid phases, and the calculated initial 87Sr/86Sr isotopic ratios, are consistent with a proposition that the calcites inherited their Sr from Ordovician seawater and were dolomitized shortly afterwards by infiltrating Mg-enriched evaporative brine, indicating long-term conservative behaviour for the enclosing carbonate rocks. The errochron for leachates from (alumino)silicates yields a high initial 87Sr/86Sr, but with an errochron age of about 340 ± 48 Ma, likely owing to variable admixtures of diagenetic illite in the shales. Overall, the data provide evidence for a stable hydrologic regime since Paleozoic time.

Published

2019

2. Controls on O and H Isotope Compositions of Clay Minerals and Porewater in Ordovician Shales, Ontario, Canada

Author

Fred Longstaffe, Skylar Chauvin, Ian Clark, and Laura Kennell-Morrison

Published

2020

3. Method Development: Crystalline Rock Porewater Extraction Using Vacuum-Distillation

Author

Tarek Najem, David Zal, Laura Kennell-Morrison, and Ian Douglas Clark

Published

2020

4. Paleozoic-aged brine and authigenic helium preserved in an Ordovician shale aquiclude

Author

Ian D. Clark, Mark Jensen, M. Mazurek, Laura Kennell, Tom A. Al, R. Mohapatra, and K.G. Raven

Subjects

geography, geography.geographical_feature_category, Paleozoic, Geochemistry, Geology, Aquifer, Authigenic, Structural basin, Devonian, Paleontology, chemistry.chemical_compound, chemistry, Ordovician, Carbonate, Oil shale

Abstract

Consideration of the geosphere for isolation of nuclear waste has generated substantial interest in the origin, age, and movement of fl uids and gases in low-permeability rock formations. Here, we present profi les of isotopes, solutes, and helium in porewaters recovered from 860 m of Cambrian to Devonian strata on the eastern fl ank of the Michigan Basin. Of particular interest is a 240-m-thick, halite-mineralized, Ordovician shale and carbonate aquiclude, which hosts Br–-enriched, post-dolomitic brine (5.8 molal Cl) originating as evaporated Silurian seawater. Authigenic helium that has been accumulating in the aquiclude for more than 260 m.y. is found to be isolated from underlying allochthonous, 3He-enriched helium that originated from the rifted base of the Michigan Basin and the Canadian Shield. The Paleozoic age and immobility of the pore fl uids in this Ordovician aquiclude considerably strengthen the safety case for deep geological repositories, but also provide new insights into the origin of deep crustal brines and opportunities for research on other components of a preserved Paleozoic porewater system.

Published

2013