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D’Antonio, Michael P., Ibarra, Daniel E., Boyce, C. Kevin (2020) Land plant evolution decreased, rather than increased, weathering rates. Geology, 48 (1) 29-33 doi:10.1130/g46776.1

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Reference TypeJournal (article/letter/editorial)
TitleLand plant evolution decreased, rather than increased, weathering rates
JournalGeology
AuthorsD’Antonio, Michael P.Author
Ibarra, Daniel E.Author
Boyce, C. KevinAuthor
Year2020 (January 1)Volume48
Issue1
PublisherGeological Society of America
DOIdoi:10.1130/g46776.1Search in ResearchGate
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Mindat Ref. ID144073Long-form Identifiermindat:1:5:144073:1
GUID0
Full ReferenceD’Antonio, Michael P., Ibarra, Daniel E., Boyce, C. Kevin (2020) Land plant evolution decreased, rather than increased, weathering rates. Geology, 48 (1) 29-33 doi:10.1130/g46776.1
Plain TextD’Antonio, Michael P., Ibarra, Daniel E., Boyce, C. Kevin (2020) Land plant evolution decreased, rather than increased, weathering rates. Geology, 48 (1) 29-33 doi:10.1130/g46776.1
In(2020, January) Geology Vol. 48 (1) Geological Society of America
Abstract/NotesAbstract
The repeated evolution of trees is widely thought to have enhanced the capacity of silicate weathering via the impact of deep rooting. However, land plants are also responsible for wetland assembly and organic carbon burial. The total burial output of carbon via both organic and inorganic deposition must balance input to the exogenic system from volcanic outgassing on million-year time scales. Increased partitioning of carbon burial toward organic carbon and away from inorganic carbon reduces the marine carbonate burial flux, necessitating a lowered total flux of alkalinity to the oceans to maintain mass balance in the Earth’s surface carbon cycle. This flux includes the nutrient delivery from the terrestrial vegetation implicated as a driver of marine evolution, extinction, and environmental change including anoxia and black shale formation. Here, the burial of terrestrial organic carbon, first substantially in the Devonian and continuing through to the present, is argued to require a reduction in silicate weathering rates when compared to earlier times, given the independence of volcanic outgassing from weathering on short time scales. Land plants still may cause reductions in steady-state atmospheric CO2 levels, but via increasing the silicate weathering feedback strength, not silicate weathering rates. The mass-balance constraints on the long-term carbon cycle provide a mechanism for linking how land plant evolution simultaneously increased nutrient recycling and weathering efficiency of the Earth’s surface.

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Caves Rugenstein, Jeremy K., Ibarra, Daniel E., von Blanckenburg, Friedhelm (2019) Neogene cooling driven by land surface reactivity rather than increased weathering fluxes. Nature, 571 (7763). 99-102 doi:10.1038/s41586-019-1332-y
Ibarra, Daniel E., Rugenstein, Jeremy K. Caves, Bachan, Aviv, Baresch, Andrés, Lau, Kimberly V., Thomas, Dana L., Lee, Jung-Eun, Boyce, C. Kevin, Chamberlain, C. Page (2019) Modeling the consequences of land plant evolution on silicate weathering. American Journal of Science, 319 (1) 1-43 doi:10.2475/01.2019.01
D'Antonio, Michael P., Ibarra, Daniel E., Boyce, C. Kevin (2023) The preservation of cause and effect in the rock record. Paleobiology, 49 (2) 204-214 doi:10.1017/pab.2022.33
Boyce, C. Kevin, Lee, Jung-Eun (2011) Could Land Plant Evolution Have Fed the Marine Revolution?. Paleontological Research, 15. 100-105 doi:10.2517/1342-8144-15.2.100
Kevin Boyce, C., Cody, George D., Feser, Michael, Jacobsen, Chris, Knoll, Andrew H., Wirick, Susan (2002) Organic chemical differentiation within fossil plant cell walls detected with X-ray spectromicroscopy. Geology, 30 (11) 1039 doi:10.1130/0091-7613(2002)030<1039:ocdwfp>2.0.co;2
Wade, Michael J. (1979) The Primary Characteristics of Tribolium Populations Group Selected for Increased and Decreased Population Size. Evolution, 33. 749pp. doi:10.2307/2407797
Ibarra, Daniel E., Oster, Jessica L., Winnick, Matthew J., Caves Rugenstein, Jeremy K., Byrne, Michael P., Chamberlain, C. Page (2018) Warm and cold wet states in the western United States during the Pliocene–Pleistocene. Geology, 46 (4) 355-358 doi:10.1130/g39962.1
Riebe, Clifford S., Kirchner, James W., Granger, Darryl E., Finkel, Robert C. (2001) Strong tectonic and weak climatic control of long-term chemical weathering rates. Geology, 29 (6) 511 doi:10.1130/0091-7613(2001)029<0511:stawcc>2.0.co;2
Pizzuto, Jim, O'Neal, Michael (2009) Increased mid-twentieth century riverbank erosion rates related to the demise of mill dams, South River, Virginia. Geology, 37 (1) 19-22 doi:10.1130/g25207a.1
Gabet, Emmanuel J., Mudd, Simon M. (2009) A theoretical model coupling chemical weathering rates with denudation rates. Geology, 37 (2) 151-154 doi:10.1130/g25270a.1
Norton, Kevin P., Schlunegger, Fritz (2017) Lack of a weathering signal with increased Cenozoic erosion?. Terra Nova, 29 (5). 265-272 doi:10.1111/ter.12278
 
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