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Enhanced weathering in the US Corn Belt delivers carbon removal with agronomic benefits

Enhanced weathering in the US Corn Belt delivers carbon removal with agronomic benefits
Enhanced weathering in the US Corn Belt delivers carbon removal with agronomic benefits

Terrestrial enhanced weathering (EW) of silicate rocks, such as crushed basalt, on farmlands is a promising scalable atmospheric carbon dioxide removal (CDR) strategy that urgently requires performance assessment with commercial farming practices. We report findings from a large-scale replicated EW field trial across a typical maize-soybean rotation on an experimental farm in the heart of the United Sates Corn Belt over 4 y (2016 to 2020). We show an average combined loss of major cations (Ca2+ and Mg2+) from crushed basalt applied each fall over 4 y (50 t ha-1 y-1) gave a conservative time-integrated cumulative CDR potential of 10.5 ± 3.8 t CO2 ha-1. Maize and soybean yields increased significantly (P < 0.05) by 12 to 16% with EW following improved soil fertility, decreased soil acidification, and upregulation of root nutrient transport genes. Yield enhancements with EW were achieved with significantly (P < 0.05) increased key micro- and macronutrient concentrations (including potassium, magnesium, manganese, phosphorus, and zinc), thus improving or maintaining crop nutritional status. We observed no significant increase in the content of trace metals in grains of maize or soybean or soil exchangeable pools relative to controls. Our findings suggest that widespread adoption of EW across farming sectors has the potential to contribute significantly to net-zero greenhouse gas emissions goals while simultaneously improving food and soil security.

agricultural production, carbon removal, enhanced weathering, soil geochemistry
0027-8424
Beerling, David J.
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Epihov, Dimitar Z.
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Kantola, Ilsa B.
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Masters, Michael D.
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Reershemius, Tom
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Planavsky, Noah J.
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Reinhard, Christopher T.
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Jacob, Jordan S.
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Thorne, Sarah J.
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Weber, James
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Martin, Maria Val
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Freckleton, Robert P.
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Hartley, Sue E.
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James, Rachael H.
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Pearce, Christopher R.
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DeLucia, Evan H.
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Banwart, Steven A.
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Beerling, David J.
1ad93b80-4d27-4697-bca4-6f08812df1f5
Epihov, Dimitar Z.
d9babc7f-4b34-435d-9b83-501da7da35ea
Kantola, Ilsa B.
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Masters, Michael D.
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Reershemius, Tom
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Planavsky, Noah J.
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Reinhard, Christopher T.
a1bf8217-acf9-4421-be1c-e3a622f06a1c
Jacob, Jordan S.
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Thorne, Sarah J.
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Weber, James
2003e341-6760-48ff-8d3f-77248cdcb7d8
Martin, Maria Val
4fa5ce88-16ee-4611-988f-07f31501efa5
Freckleton, Robert P.
28cfc059-4470-4426-94b6-3fab8dd7fe47
Hartley, Sue E.
fe4408a7-513f-40a0-a308-b54207414324
James, Rachael H.
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Pearce, Christopher R.
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DeLucia, Evan H.
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Banwart, Steven A.
9ddbf140-a98b-4f16-8c84-0eaa7817f4a6

Beerling, David J., Epihov, Dimitar Z., Kantola, Ilsa B., Masters, Michael D., Reershemius, Tom, Planavsky, Noah J., Reinhard, Christopher T., Jacob, Jordan S., Thorne, Sarah J., Weber, James, Martin, Maria Val, Freckleton, Robert P., Hartley, Sue E., James, Rachael H., Pearce, Christopher R., DeLucia, Evan H. and Banwart, Steven A. (2024) Enhanced weathering in the US Corn Belt delivers carbon removal with agronomic benefits. Proceedings of the National Academy of Sciences of the United States of America, 121 (9), [e2319436121]. (doi:10.1073/pnas.2319436121).

Record type: Article

Abstract

Terrestrial enhanced weathering (EW) of silicate rocks, such as crushed basalt, on farmlands is a promising scalable atmospheric carbon dioxide removal (CDR) strategy that urgently requires performance assessment with commercial farming practices. We report findings from a large-scale replicated EW field trial across a typical maize-soybean rotation on an experimental farm in the heart of the United Sates Corn Belt over 4 y (2016 to 2020). We show an average combined loss of major cations (Ca2+ and Mg2+) from crushed basalt applied each fall over 4 y (50 t ha-1 y-1) gave a conservative time-integrated cumulative CDR potential of 10.5 ± 3.8 t CO2 ha-1. Maize and soybean yields increased significantly (P < 0.05) by 12 to 16% with EW following improved soil fertility, decreased soil acidification, and upregulation of root nutrient transport genes. Yield enhancements with EW were achieved with significantly (P < 0.05) increased key micro- and macronutrient concentrations (including potassium, magnesium, manganese, phosphorus, and zinc), thus improving or maintaining crop nutritional status. We observed no significant increase in the content of trace metals in grains of maize or soybean or soil exchangeable pools relative to controls. Our findings suggest that widespread adoption of EW across farming sectors has the potential to contribute significantly to net-zero greenhouse gas emissions goals while simultaneously improving food and soil security.

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beerling-et-al-2024-enhanced-weathering-in-the-us-corn-belt-delivers-carbon-removal-with-agronomic-benefits - Version of Record
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Accepted/In Press date: 30 December 2023
Published date: 27 February 2024
Additional Information: Publisher Copyright: © 2024 the Author(s). Published by PNAS.
Keywords: agricultural production, carbon removal, enhanced weathering, soil geochemistry

Identifiers

Local EPrints ID: 490716
URI: http://eprints.soton.ac.uk/id/eprint/490716
DOI: doi:10.1073/pnas.2319436121
ISSN: 0027-8424
PURE UUID: 54297953-6b3d-46e3-a249-3e554b1100c4
ORCID for Rachael H. James: ORCID iD orcid.org/0000-0001-7402-2315

Catalogue record

Date deposited: 04 Jun 2024 16:38
Last modified: 18 Jun 2024 01:41

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Contributors

Author: David J. Beerling
Author: Dimitar Z. Epihov
Author: Ilsa B. Kantola
Author: Michael D. Masters
Author: Tom Reershemius
Author: Noah J. Planavsky
Author: Christopher T. Reinhard
Author: Jordan S. Jacob
Author: Sarah J. Thorne
Author: James Weber
Author: Maria Val Martin
Author: Robert P. Freckleton
Author: Sue E. Hartley
Author: Rachael H. James ORCID iD
Author: Christopher R. Pearce
Author: Evan H. DeLucia
Author: Steven A. Banwart

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