The Fraction of Carbon in Soil Organic Matter as a National-Scale Soil Process Indicator

Sabine Reinsch; Inma Lebron; Lis Wollesen de Jonge; Peter L. Weber; Trine Norgaard; Emmanuel Arthur; Lucas Gomes; Charles Pesch; Karyotis Konstantinos; George Zalidis; Lur Epelde; Marija Romic; Davor Romic; Monika Zovko; Marko Reljic; Jaakko Heikkinen; Christopher Feeney; Laura Bentley; Peter Levy; Elena Vanguelova; Panos Panagos; Florian Schneider; Bernhard Ahrens; Jens Leifeld; Gustaf Hugelius; Bridget A. Emmett; Bernhard J. Cosby; Michele Brentegani; Susan Tandy; Amy Thomas; Maud A.J. van Soest; David A. Robinson

doi:10.1111/gcb.70572

The Fraction of Carbon in Soil Organic Matter as a National-Scale Soil Process Indicator

Sabine Reinsch^*
, Inma Lebron
, Lis Wollesen de Jonge
, Peter L. Weber
, Trine Norgaard
, Emmanuel Arthur
, Lucas Gomes
, Charles Pesch
, Karyotis Konstantinos
, George Zalidis
, Lur Epelde
, Marija Romic
, Davor Romic
, Monika Zovko
, Marko Reljic
, Jaakko Heikkinen
, Christopher Feeney
, Laura Bentley
, Peter Levy
, Elena Vanguelova

Panos Panagos, Florian Schneider, Bernhard Ahrens, Jens Leifeld, Gustaf Hugelius, Bridget A. Emmett, Bernhard J. Cosby, Michele Brentegani, Susan Tandy, Amy Thomas, Maud A.J. van Soest, David A. Robinson

^*Corresponding author af dette arbejde

Institut for Agroøkologi - Jordfysik og Hydropedologi

Publikation: Bidrag til tidsskrift/Konferencebidrag i tidsskrift /Bidrag til avis › Tidsskriftartikel › Forskning › peer review

Abstract

Soil organic matter (SOM) is an important component of ecosystem carbon stocks. Generally, SOM found in mineral and organo-mineral soils can be categorised into two fractions: particulate organic matter (POM) and mineral-associated-organic matter (MAOM), both of which contain soil organic carbon (SOC). Understanding the relationship between SOC and SOM fractions provides insight into SOM decomposition and SOC storage potential. Here we show an intriguingly tight relationship between the fraction of SOC in SOM (denoted as (Formula presented.)), habitat and soil physical properties, as well as SOC stored in POM and MAOM. This opens up new ways to predict spatial variations in the distribution of POC and MAOC using more widely available (Formula presented.) data as a covariate. By compiling 14 datasets and 9503 measurements from across Europe and globally we analysed (Formula presented.) across mineral and organic soils, which fell between 0.38 and 0.58, consistent with variation in carbon of major plant components. (Formula presented.) followed a habitat gradient with lowest median values in Seagrass sediments (0.36 ± 0.09) and Permafrost habitats, followed by croplands (0.47 ± 0.08) and a maximum in semi-natural habitats (e.g., neutral, acid and calcareous grasslands) (0.56 ± 0.07), with differences between broadleaved (0.50 ± 0.087) and coniferous woodlands (0.53 ± 0.07) which were driven by overall organic matter content. The data show a tight link between vegetation carbon and the contents of SOC and SOM across various habitats, which could be used to inform agricultural soil management, improved land-use planning (e.g., woodlands), and tracking climate-related SOC targets.

Originalsprog	Engelsk
Artikelnummer	e70572
Tidsskrift	Global change biology
Vol/bind	31
Nummer	11
ISSN	1354-1013
DOI	https://doi.org/10.1111/gcb.70572
Status	Udgivet - nov. 2025

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Reinsch, S., Lebron, I., de Jonge, L. W., Weber, P. L., Norgaard, T., Arthur, E., Gomes, L., Pesch, C., Konstantinos, K., Zalidis, G., Epelde, L., Romic, M., Romic, D., Zovko, M., Reljic, M., Heikkinen, J., Feeney, C., Bentley, L., Levy, P., ... Robinson, D. A. (2025). The Fraction of Carbon in Soil Organic Matter as a National-Scale Soil Process Indicator. Global change biology, 31(11), Artikel e70572. https://doi.org/10.1111/gcb.70572

@article{d88f7716b1784770be261c112a862b70,

title = "The Fraction of Carbon in Soil Organic Matter as a National-Scale Soil Process Indicator",

abstract = "Soil organic matter (SOM) is an important component of ecosystem carbon stocks. Generally, SOM found in mineral and organo-mineral soils can be categorised into two fractions: particulate organic matter (POM) and mineral-associated-organic matter (MAOM), both of which contain soil organic carbon (SOC). Understanding the relationship between SOC and SOM fractions provides insight into SOM decomposition and SOC storage potential. Here we show an intriguingly tight relationship between the fraction of SOC in SOM (denoted as (Formula presented.)), habitat and soil physical properties, as well as SOC stored in POM and MAOM. This opens up new ways to predict spatial variations in the distribution of POC and MAOC using more widely available (Formula presented.) data as a covariate. By compiling 14 datasets and 9503 measurements from across Europe and globally we analysed (Formula presented.) across mineral and organic soils, which fell between 0.38 and 0.58, consistent with variation in carbon of major plant components. (Formula presented.) followed a habitat gradient with lowest median values in Seagrass sediments (0.36 ± 0.09) and Permafrost habitats, followed by croplands (0.47 ± 0.08) and a maximum in semi-natural habitats (e.g., neutral, acid and calcareous grasslands) (0.56 ± 0.07), with differences between broadleaved (0.50 ± 0.087) and coniferous woodlands (0.53 ± 0.07) which were driven by overall organic matter content. The data show a tight link between vegetation carbon and the contents of SOC and SOM across various habitats, which could be used to inform agricultural soil management, improved land-use planning (e.g., woodlands), and tracking climate-related SOC targets.",

keywords = "decomposition, humification, land use, loss-on-ignition, soil health, soil organic carbon, soil organic matter fractions, soil type",

author = "Sabine Reinsch and Inma Lebron and \{de Jonge\}, \{Lis Wollesen\} and Weber, \{Peter L.\} and Trine Norgaard and Emmanuel Arthur and Lucas Gomes and Charles Pesch and Karyotis Konstantinos and George Zalidis and Lur Epelde and Marija Romic and Davor Romic and Monika Zovko and Marko Reljic and Jaakko Heikkinen and Christopher Feeney and Laura Bentley and Peter Levy and Elena Vanguelova and Panos Panagos and Florian Schneider and Bernhard Ahrens and Jens Leifeld and Gustaf Hugelius and Emmett, \{Bridget A.\} and Cosby, \{Bernhard J.\} and Michele Brentegani and Susan Tandy and Amy Thomas and \{van Soest\}, \{Maud A.J.\} and Robinson, \{David A.\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Global Change Biology published by John Wiley \& Sons Ltd.",

year = "2025",

month = nov,

doi = "10.1111/gcb.70572",

language = "English",

volume = "31",

journal = "Global change biology",

issn = "1354-1013",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "11",

}

Reinsch, S, Lebron, I, de Jonge, LW , Weber, PL , Norgaard, T , Arthur, E , Gomes, L , Pesch, C, Konstantinos, K, Zalidis, G, Epelde, L, Romic, M, Romic, D, Zovko, M, Reljic, M, Heikkinen, J, Feeney, C, Bentley, L, Levy, P, Vanguelova, E, Panagos, P, Schneider, F, Ahrens, B, Leifeld, J, Hugelius, G, Emmett, BA, Cosby, BJ, Brentegani, M, Tandy, S, Thomas, A, van Soest, MAJ & Robinson, DA 2025, 'The Fraction of Carbon in Soil Organic Matter as a National-Scale Soil Process Indicator', Global change biology, bind 31, nr. 11, e70572. https://doi.org/10.1111/gcb.70572

TY - JOUR

T1 - The Fraction of Carbon in Soil Organic Matter as a National-Scale Soil Process Indicator

AU - Reinsch, Sabine

AU - Lebron, Inma

AU - de Jonge, Lis Wollesen

AU - Weber, Peter L.

AU - Norgaard, Trine

AU - Arthur, Emmanuel

AU - Gomes, Lucas

AU - Pesch, Charles

AU - Konstantinos, Karyotis

AU - Zalidis, George

AU - Epelde, Lur

AU - Romic, Marija

AU - Romic, Davor

AU - Zovko, Monika

AU - Reljic, Marko

AU - Heikkinen, Jaakko

AU - Feeney, Christopher

AU - Bentley, Laura

AU - Levy, Peter

AU - Vanguelova, Elena

AU - Panagos, Panos

AU - Schneider, Florian

AU - Ahrens, Bernhard

AU - Leifeld, Jens

AU - Hugelius, Gustaf

AU - Emmett, Bridget A.

AU - Cosby, Bernhard J.

AU - Brentegani, Michele

AU - Tandy, Susan

AU - Thomas, Amy

AU - van Soest, Maud A.J.

AU - Robinson, David A.

PY - 2025/11

Y1 - 2025/11

N2 - Soil organic matter (SOM) is an important component of ecosystem carbon stocks. Generally, SOM found in mineral and organo-mineral soils can be categorised into two fractions: particulate organic matter (POM) and mineral-associated-organic matter (MAOM), both of which contain soil organic carbon (SOC). Understanding the relationship between SOC and SOM fractions provides insight into SOM decomposition and SOC storage potential. Here we show an intriguingly tight relationship between the fraction of SOC in SOM (denoted as (Formula presented.)), habitat and soil physical properties, as well as SOC stored in POM and MAOM. This opens up new ways to predict spatial variations in the distribution of POC and MAOC using more widely available (Formula presented.) data as a covariate. By compiling 14 datasets and 9503 measurements from across Europe and globally we analysed (Formula presented.) across mineral and organic soils, which fell between 0.38 and 0.58, consistent with variation in carbon of major plant components. (Formula presented.) followed a habitat gradient with lowest median values in Seagrass sediments (0.36 ± 0.09) and Permafrost habitats, followed by croplands (0.47 ± 0.08) and a maximum in semi-natural habitats (e.g., neutral, acid and calcareous grasslands) (0.56 ± 0.07), with differences between broadleaved (0.50 ± 0.087) and coniferous woodlands (0.53 ± 0.07) which were driven by overall organic matter content. The data show a tight link between vegetation carbon and the contents of SOC and SOM across various habitats, which could be used to inform agricultural soil management, improved land-use planning (e.g., woodlands), and tracking climate-related SOC targets.

AB - Soil organic matter (SOM) is an important component of ecosystem carbon stocks. Generally, SOM found in mineral and organo-mineral soils can be categorised into two fractions: particulate organic matter (POM) and mineral-associated-organic matter (MAOM), both of which contain soil organic carbon (SOC). Understanding the relationship between SOC and SOM fractions provides insight into SOM decomposition and SOC storage potential. Here we show an intriguingly tight relationship between the fraction of SOC in SOM (denoted as (Formula presented.)), habitat and soil physical properties, as well as SOC stored in POM and MAOM. This opens up new ways to predict spatial variations in the distribution of POC and MAOC using more widely available (Formula presented.) data as a covariate. By compiling 14 datasets and 9503 measurements from across Europe and globally we analysed (Formula presented.) across mineral and organic soils, which fell between 0.38 and 0.58, consistent with variation in carbon of major plant components. (Formula presented.) followed a habitat gradient with lowest median values in Seagrass sediments (0.36 ± 0.09) and Permafrost habitats, followed by croplands (0.47 ± 0.08) and a maximum in semi-natural habitats (e.g., neutral, acid and calcareous grasslands) (0.56 ± 0.07), with differences between broadleaved (0.50 ± 0.087) and coniferous woodlands (0.53 ± 0.07) which were driven by overall organic matter content. The data show a tight link between vegetation carbon and the contents of SOC and SOM across various habitats, which could be used to inform agricultural soil management, improved land-use planning (e.g., woodlands), and tracking climate-related SOC targets.

KW - decomposition

KW - humification

KW - land use

KW - loss-on-ignition

KW - soil health

KW - soil organic carbon

KW - soil organic matter fractions

KW - soil type

UR - https://www.scopus.com/pages/publications/105020421894

U2 - 10.1111/gcb.70572

DO - 10.1111/gcb.70572

M3 - Journal article

C2 - 41164898

AN - SCOPUS:105020421894

SN - 1354-1013

VL - 31

JO - Global change biology

JF - Global change biology

IS - 11

M1 - e70572

ER -

The Fraction of Carbon in Soil Organic Matter as a National-Scale Soil Process Indicator

Abstract

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