Reviews and syntheses: Carbon vs. cation based MRV of Enhanced Rock Weathering and the issue of soil organic carbon

Jelle Bijma; Mathilde Hagens; Jens S. Hammes; Noah Planavsky; Philip A. E. Pogge von Strandmann; Tom Reershemius; Christopher T. Reinhard; Phil Renforth; Tim J. Suhrhoff; Sara Vicca; Arthur Vienne; Dieter Wolf-Gladrow

doi:10.5194/bg-23-53-2026

Reviews and syntheses: Carbon vs. cation based MRV of Enhanced Rock Weathering and the issue of soil organic carbon

Jelle Bijma^*
, Mathilde Hagens
, Jens S. Hammes
, Noah Planavsky
, Philip A. E. Pogge von Strandmann
, Tom Reershemius
, Christopher T. Reinhard
, Phil Renforth
, Tim J. Suhrhoff
, Sara Vicca
, Arthur Vienne
, Dieter Wolf-Gladrow

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

1 Citation (Scopus)

Abstract

We discuss the “monitoring, reporting and verification” (MRV) strategy of Enhanced Weathering (EW) based on carbon accounting and argue that in open systems such as arable land, this approach is ill-suited to close the balance of all carbon fluxes. We argue for total alkalinity (TA) as the central parameter for the carbon based MRV of EW. However, we also stress that tracking alkalinity fluxes using a systems-level approach is best done by focusing on charge balance maintenance through time. We start by explaining the concept and history of alkalinity conceptualization for the oceans. The same analytical method first proposed for the oceans-titration with a strong acid-is now commonly used for porewaters in agricultural soils. We explain why this is an accurate analysis for ocean water and why it is unsuitable to record TA for porewaters in agricultural soils. We then introduce an alternative MRV based on cation accounting and finally discuss the fate of cations released from the weathering of basalt, soil cation dynamics and close by suggesting open research questions.

Original language	English
Pages (from-to)	53-75
Number of pages	23
Journal	Biogeosciences
Volume	23
Issue number	1
DOIs	https://doi.org/10.5194/bg-23-53-2026
Publication status	Published - 5 Jan 2026

ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics
Earth-Surface Processes

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Bijma, J., Hagens, M., Hammes, J. S., Planavsky, N., Pogge von Strandmann, P. A. E., Reershemius, T., Reinhard, C. T., Renforth, P., Suhrhoff, T. J., Vicca, S., Vienne, A., & Wolf-Gladrow, D. (2026). Reviews and syntheses: Carbon vs. cation based MRV of Enhanced Rock Weathering and the issue of soil organic carbon. Biogeosciences, 23(1), 53-75. https://doi.org/10.5194/bg-23-53-2026

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title = "Reviews and syntheses: Carbon vs. cation based MRV of Enhanced Rock Weathering and the issue of soil organic carbon",

abstract = "We discuss the “monitoring, reporting and verification” (MRV) strategy of Enhanced Weathering (EW) based on carbon accounting and argue that in open systems such as arable land, this approach is ill-suited to close the balance of all carbon fluxes. We argue for total alkalinity (TA) as the central parameter for the carbon based MRV of EW. However, we also stress that tracking alkalinity fluxes using a systems-level approach is best done by focusing on charge balance maintenance through time. We start by explaining the concept and history of alkalinity conceptualization for the oceans. The same analytical method first proposed for the oceans-titration with a strong acid-is now commonly used for porewaters in agricultural soils. We explain why this is an accurate analysis for ocean water and why it is unsuitable to record TA for porewaters in agricultural soils. We then introduce an alternative MRV based on cation accounting and finally discuss the fate of cations released from the weathering of basalt, soil cation dynamics and close by suggesting open research questions.",

author = "Jelle Bijma and Mathilde Hagens and Hammes, \{Jens S.\} and Noah Planavsky and \{Pogge von Strandmann\}, \{Philip A. E.\} and Tom Reershemius and Reinhard, \{Christopher T.\} and Phil Renforth and Suhrhoff, \{Tim J.\} and Sara Vicca and Arthur Vienne and Dieter Wolf-Gladrow",

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Bijma, J, Hagens, M, Hammes, JS, Planavsky, N, Pogge von Strandmann, PAE, Reershemius, T, Reinhard, CT, Renforth, P, Suhrhoff, TJ, Vicca, S, Vienne, A & Wolf-Gladrow, D 2026, 'Reviews and syntheses: Carbon vs. cation based MRV of Enhanced Rock Weathering and the issue of soil organic carbon', Biogeosciences, vol. 23, no. 1, pp. 53-75. https://doi.org/10.5194/bg-23-53-2026

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T2 - Carbon vs. cation based MRV of Enhanced Rock Weathering and the issue of soil organic carbon

AU - Bijma, Jelle

AU - Hagens, Mathilde

AU - Hammes, Jens S.

AU - Planavsky, Noah

AU - Pogge von Strandmann, Philip A. E.

AU - Reershemius, Tom

AU - Reinhard, Christopher T.

AU - Renforth, Phil

AU - Suhrhoff, Tim J.

AU - Vicca, Sara

AU - Vienne, Arthur

AU - Wolf-Gladrow, Dieter

PY - 2026/1/5

Y1 - 2026/1/5

N2 - We discuss the “monitoring, reporting and verification” (MRV) strategy of Enhanced Weathering (EW) based on carbon accounting and argue that in open systems such as arable land, this approach is ill-suited to close the balance of all carbon fluxes. We argue for total alkalinity (TA) as the central parameter for the carbon based MRV of EW. However, we also stress that tracking alkalinity fluxes using a systems-level approach is best done by focusing on charge balance maintenance through time. We start by explaining the concept and history of alkalinity conceptualization for the oceans. The same analytical method first proposed for the oceans-titration with a strong acid-is now commonly used for porewaters in agricultural soils. We explain why this is an accurate analysis for ocean water and why it is unsuitable to record TA for porewaters in agricultural soils. We then introduce an alternative MRV based on cation accounting and finally discuss the fate of cations released from the weathering of basalt, soil cation dynamics and close by suggesting open research questions.

AB - We discuss the “monitoring, reporting and verification” (MRV) strategy of Enhanced Weathering (EW) based on carbon accounting and argue that in open systems such as arable land, this approach is ill-suited to close the balance of all carbon fluxes. We argue for total alkalinity (TA) as the central parameter for the carbon based MRV of EW. However, we also stress that tracking alkalinity fluxes using a systems-level approach is best done by focusing on charge balance maintenance through time. We start by explaining the concept and history of alkalinity conceptualization for the oceans. The same analytical method first proposed for the oceans-titration with a strong acid-is now commonly used for porewaters in agricultural soils. We explain why this is an accurate analysis for ocean water and why it is unsuitable to record TA for porewaters in agricultural soils. We then introduce an alternative MRV based on cation accounting and finally discuss the fate of cations released from the weathering of basalt, soil cation dynamics and close by suggesting open research questions.

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DO - 10.5194/bg-23-53-2026

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AN - SCOPUS:105027140622

SN - 1726-4170

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EP - 75

JO - Biogeosciences

JF - Biogeosciences

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ER -

Reviews and syntheses: Carbon vs. cation based MRV of Enhanced Rock Weathering and the issue of soil organic carbon

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