Continental weathering following a Cryogenian glaciation: Evidence from calcium and magnesium isotopes
A marked ocean acidification event and elevated atmospheric carbon dioxide concentrations following the extreme environmental conditions of the younger Cryogenian glaciation have been inferred from boron isotope measurements. Calcium and magnesium isotope analyses offer additional insights into the...
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Veröffentlicht in: | Earth and planetary science letters 2014-06, Vol.396, p.66-77 |
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creator | Kasemann, Simone A. Pogge von Strandmann, Philip A.E. Prave, Anthony R. Fallick, Anthony E. Elliott, Tim Hoffmann, Karl-Heinz |
description | A marked ocean acidification event and elevated atmospheric carbon dioxide concentrations following the extreme environmental conditions of the younger Cryogenian glaciation have been inferred from boron isotope measurements. Calcium and magnesium isotope analyses offer additional insights into the processes occurring during this time. Data from Neoproterozoic sections in Namibia indicate that following the end of glaciation the continental weathering flux transitioned from being of mixed carbonate and silicate character to a silicate-dominated one. Combined with the effects of primary dolomite formation in the cap dolostones, this caused the ocean to depart from a state of acidification and return to higher pH after climatic amelioration. Differences in the magnitude of stratigraphic isotopic changes across the continental margin of the southern Congo craton shelf point to local influences modifying and amplifying the global signal, which need to be considered in order to avoid overestimation of the worldwide chemical weathering flux.
•We investigate Earth system response and recovery to extreme environmental conditions in the Neoproterozoic.•Calcium and magnesium isotopes indicate an enhanced continental weathering flux after a global glaciation.•Continental weathering enabled the ocean to recover from an ocean acidification state. |
doi_str_mv | 10.1016/j.epsl.2014.03.048 |
format | Article |
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Calcium and magnesium isotope analyses offer additional insights into the processes occurring during this time. Data from Neoproterozoic sections in Namibia indicate that following the end of glaciation the continental weathering flux transitioned from being of mixed carbonate and silicate character to a silicate-dominated one. Combined with the effects of primary dolomite formation in the cap dolostones, this caused the ocean to depart from a state of acidification and return to higher pH after climatic amelioration. Differences in the magnitude of stratigraphic isotopic changes across the continental margin of the southern Congo craton shelf point to local influences modifying and amplifying the global signal, which need to be considered in order to avoid overestimation of the worldwide chemical weathering flux.
•We investigate Earth system response and recovery to extreme environmental conditions in the Neoproterozoic.•Calcium and magnesium isotopes indicate an enhanced continental weathering flux after a global glaciation.•Continental weathering enabled the ocean to recover from an ocean acidification state.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.epsl.2014.03.048</doi><tpages>12</tpages><oa>free_for_read</oa></addata></record> |
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subjects | Acidification Atmospherics Calcium calcium isotopes cap carbonates continental weathering Cratons Flux Magnesium isotopes Neoproterozoic Oceans Weathering |
title | Continental weathering following a Cryogenian glaciation: Evidence from calcium and magnesium isotopes |
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