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W3080759216 endingPage "49" @default.
W3080759216 startingPage "49" @default.
W3080759216 abstract "Abstract Weathering of silicate rocks at a planetary surface can draw down CO 2 from the atmosphere for eventual burial and long-term storage in the planetary interior. This process is thought to provide essential negative feedback to the carbonate-silicate cycle (carbon cycle) to maintain clement climates on Earth and potentially similar temperate exoplanets. We implement thermodynamics to determine weathering rates as a function of surface lithology (rock type). These rates provide upper limits that allow the maximum rate of weathering in regulating climate to be estimated. This modeling shows that the weathering of mineral assemblages in a given rock, rather than individual minerals, is crucial to determine weathering rates at planetary surfaces. By implementing a fluid-transport-controlled approach, we further mimic chemical kinetics and thermodynamics to determine weathering rates for three types of rocks inspired by the lithologies of Earth's continental and oceanic crust, and its upper mantle. We find that thermodynamic weathering rates of a continental crust-like lithology are about one to two orders of magnitude lower than those of a lithology characteristic of the oceanic crust. We show that when the CO 2 partial pressure decreases or surface temperature increases, thermodynamics rather than kinetics exerts a strong control on weathering. The kinetically and thermodynamically limited regimes of weathering depend on lithology, whereas the supply-limited weathering is independent of lithology. Our results imply that the temperature sensitivity of thermodynamically limited silicate weathering may instigate a positive feedback to the carbon cycle, in which the weathering rate decreases as the surface temperature increases." @default.
W3080759216 created "2020-09-01" @default.
W3080759216 creator A5010437340 @default.
W3080759216 creator A5016119927 @default.
W3080759216 creator A5019327228 @default.
W3080759216 creator A5022704901 @default.
W3080759216 creator A5027347863 @default.
W3080759216 creator A5028514185 @default.
W3080759216 creator A5028525649 @default.
W3080759216 creator A5073596124 @default.
W3080759216 creator A5090192488 @default.
W3080759216 date "2021-03-11" @default.
W3080759216 modified "2023-10-09" @default.
W3080759216 title "Lithologic Controls on Silicate Weathering Regimes of Temperate Planets" @default.
W3080759216 cites W1480646436 @default.
W3080759216 cites W1533016475 @default.
W3080759216 cites W1536162259 @default.
W3080759216 cites W1677532904 @default.
W3080759216 cites W1770608936 @default.
W3080759216 cites W1967408071 @default.
W3080759216 cites W1975717988 @default.
W3080759216 cites W1984749553 @default.
W3080759216 cites W1985094052 @default.
W3080759216 cites W1986601098 @default.
W3080759216 cites W1998329478 @default.
W3080759216 cites W1998822094 @default.
W3080759216 cites W1999165439 @default.
W3080759216 cites W2004237370 @default.
W3080759216 cites W2005106227 @default.
W3080759216 cites W2008587428 @default.
W3080759216 cites W2011301426 @default.
W3080759216 cites W2011567504 @default.
W3080759216 cites W2016425269 @default.
W3080759216 cites W2024917597 @default.
W3080759216 cites W2027100004 @default.
W3080759216 cites W2029664473 @default.
W3080759216 cites W2030169181 @default.
W3080759216 cites W2032500592 @default.
W3080759216 cites W2035697154 @default.
W3080759216 cites W2035750259 @default.
W3080759216 cites W2045202320 @default.
W3080759216 cites W2047476280 @default.
W3080759216 cites W2047751764 @default.
W3080759216 cites W2061939373 @default.
W3080759216 cites W2064936859 @default.
W3080759216 cites W2067487196 @default.
W3080759216 cites W2069659416 @default.
W3080759216 cites W2072159113 @default.
W3080759216 cites W2075482639 @default.
W3080759216 cites W2076202084 @default.
W3080759216 cites W2077536441 @default.
W3080759216 cites W2084849445 @default.
W3080759216 cites W2086613667 @default.
W3080759216 cites W2095764533 @default.
W3080759216 cites W2097828895 @default.
W3080759216 cites W2098108672 @default.
W3080759216 cites W2118168812 @default.
W3080759216 cites W2123594378 @default.
W3080759216 cites W2131817581 @default.
W3080759216 cites W2135625048 @default.
W3080759216 cites W2137432898 @default.
W3080759216 cites W2146292423 @default.
W3080759216 cites W2147550006 @default.
W3080759216 cites W2160007651 @default.
W3080759216 cites W2161931994 @default.
W3080759216 cites W2172650310 @default.
W3080759216 cites W2314937256 @default.
W3080759216 cites W2325541267 @default.
W3080759216 cites W2326749909 @default.
W3080759216 cites W2464444069 @default.
W3080759216 cites W2467562193 @default.
W3080759216 cites W2528014653 @default.
W3080759216 cites W2620208103 @default.
W3080759216 cites W2622959022 @default.
W3080759216 cites W2651285197 @default.
W3080759216 cites W2791728076 @default.
W3080759216 cites W2792378909 @default.
W3080759216 cites W2796394497 @default.
W3080759216 cites W2805196455 @default.
W3080759216 cites W2886488573 @default.
W3080759216 cites W2896251583 @default.
W3080759216 cites W2903099238 @default.
W3080759216 cites W2936316506 @default.
W3080759216 cites W2962373280 @default.
W3080759216 cites W2968829251 @default.
W3080759216 cites W3011823735 @default.
W3080759216 cites W3021143982 @default.
W3080759216 cites W3052378613 @default.
W3080759216 cites W3089855488 @default.
W3080759216 cites W3098910613 @default.
W3080759216 cites W3100854839 @default.
W3080759216 cites W3102169445 @default.
W3080759216 cites W3103145119 @default.
W3080759216 cites W3103334011 @default.
W3080759216 cites W3103851742 @default.
W3080759216 cites W3103941714 @default.
W3080759216 cites W3104355299 @default.
W3080759216 cites W3105353888 @default.