2014
DOI: 10.1002/2014gc005530
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Changing tectonic controls on the long‐term carbon cycle from Mesozoic to present

Abstract: Tectonic drivers of degassing and weathering processes are key long-term controls on atmospheric CO 2 . However, there is considerable debate over the changing relative importance of different carbon sources and sinks. Existing geochemical models have tended to rely on indirect methods to derive tectonic drivers, such as inversion of the seawater 87 Sr/ 86 Sr curve to estimate uplift or continental basalt area. Here we use improving geologic data to update the representation of tectonic drivers in the COPSE bi… Show more

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Cited by 62 publications
(86 citation statements)
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References 72 publications
(218 reference statements)
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“…It is accepted that the drawdown of CO 2 by LIPs is larger than the initial injection of CO 2 into the atmosphere and that LIPs may become a net CO 2 sink on timescales as short as 1-1.5 Myr after the major CO 2 eruption ceases (Dessert et al, 2001(Dessert et al, , 2003Kent & Muttoni, 2013;Lefebvre et al, 2010;Mills et al, 2014;Schaller et al, 2012). However, these effects have not been investigated on a global scale, and the impact of latitudinal and time-dependent distribution of LIPs has not been considered over the past 400 Ma.…”
Section: Lip Weatheringmentioning
confidence: 99%
“…It is accepted that the drawdown of CO 2 by LIPs is larger than the initial injection of CO 2 into the atmosphere and that LIPs may become a net CO 2 sink on timescales as short as 1-1.5 Myr after the major CO 2 eruption ceases (Dessert et al, 2001(Dessert et al, , 2003Kent & Muttoni, 2013;Lefebvre et al, 2010;Mills et al, 2014;Schaller et al, 2012). However, these effects have not been investigated on a global scale, and the impact of latitudinal and time-dependent distribution of LIPs has not been considered over the past 400 Ma.…”
Section: Lip Weatheringmentioning
confidence: 99%
“…Together, k and n modify the strength of the weathering feedback (Schwartzman and Volk, 1989;Mills et al, 2014a;. Globally, although weathering fluxes are determined by runoff because weatherability is modified by the overlying runoff distribution (Fig.…”
Section: Dw Weatherability and A Variable Silicate Weathering Feedbackmentioning
confidence: 99%
“…For example, basaltic catchments weather faster than other silicates and account for approximately 20-35% of the modern global silicate weathering and CO2 consumption flux, while occupying less than 5% of sub-aerial continental area (Gíslason et al, 1996(Gíslason et al, , 2009 have been critically important in controlling past levels of atmospheric CO2 (pCO2) (Li and Elderfield, 2013;Kent and Muttoni, 2013;Molnar and Cronin, 2015;Jagoutz et al, 2016). However, scaling modern observations of weathering fluxes from catchments to both large spatial and temporal scales (e.g., Wallmann, 2001;Lefebvre et al, 2013;Li and Elderfield, 2013;Kent andMuttoni, 2008, 2013;Mills et al, 2014a;Li et al, 2016;Jagoutz et al, 2016;Cox et al, 2016) remains a challenge due to the lack of phenomenological modeling frameworks that predict weathering fluxes at both catchment and global scales under different climate states.…”
Section: Introductionmentioning
confidence: 99%
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“…This replacement of phases in the rock, which can persist for tens of millions of years, is responsible for geochemical exchange of major (Ca, Mg, C, Fe, Na, K, Al, and Si) and trace elements between the ocean and the upper oceanic crust [ Elderfield and Schultz , ]. For example, carbon uptake by oceanic crust alteration is thought to be comparable to CO 2 outgassing rates from mid‐ocean ridges [ Alt and Teagle , ; Staudigel et al , ; Gerlach , ], indicating that basalt alteration is important to global cycling of carbon and potentially long‐term climate regulation [ Sleep and Zahnle , ; Coogan and Gillis , ; Mills et al , ; Coogan and Dosso , ].…”
Section: Introductionmentioning
confidence: 99%