Understanding large‐extent controls of soil organic carbon storage in relation to soil depth and soil‐landscape systems

Mulder, Vera Leatitia; Lacoste, Marine; Martín, Manuel; Richer-de-Forges, Anne C.; Arrouays, Dominique

doi:10.1002/2015gb005178

Cited by 35 publications

(22 citation statements)

References 90 publications

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“…C transferred laterally by erosion is lost at the pedon scale, but the integration of processes at the watershed scale (detachment, transport, sedimentation, burial in lowland areas) results in C budgets that often generate debate regarding C sinks and sources (Doetterl et al, 2016;Mulder et al, 2015).…”

Section: Om Transfers On the Soil Surface: Erosionmentioning

confidence: 99%

Reviews and syntheses: The mechanisms underlying carbon storage in soil

Basile‐Doelsch¹,

Balesdent²,

Pellerin³

2020

Preprint

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Abstract. Scientific research in the 21st century has considerably improved our knowledge of soil organic matter and its dynamics, particularly under the pressure of the global disruption of the carbon cycle. This paper reviews the processes that control C dynamics in soil, the representation of these processes over time, and their dependence on variations in major biotic and abiotic factors. The most recent advances in soil organic matter knowledge are: – Most organic matter is composed of small molecules, derived from living organisms, without transformation via additional abiotic organic polymerization. – Microbial compounds are predominant in the long term. – Primary belowground production contributes more to organic matter than aboveground inputs. – Contribution of less biodegradable compounds to soil organic matter is low in the long term. – Two major factors determine the soil organic carbon production yield from the initial substrates: the yield of carbon used by microorganisms and the association with minerals, particularly poorly crystallized minerals, which stabilize microbial compounds. – Interactions between plants and microorganisms and between microbial communities affect or even regulate carbon residence times, and therefore carbon stocks. Farming practices therefore affect soil C stocks not only through carbon inputs but also via their effect on microbial and organomineral interactions.

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Section: Om Transfers On the Soil Surface: Erosionmentioning

confidence: 99%

Reviews and syntheses: The mechanisms underlying carbon storage in soil

Basile‐Doelsch¹,

Balesdent²,

Pellerin³

2020

Preprint

View full text Add to dashboard Cite

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“…At the local scale, topography usually has the greatest indirect influence on soil organic carbon storage by affecting the redistribution of temperature and water [ 10 , 16 ]. The vertical distribution of soil organic carbon storage is also controlled by a range of environmental factors: soil organic carbon storage in topsoil is mainly determined by climatic variables, whereas that in subsoil shows a significant association with soil texture [ 7 , 13 , 17 ]. The soil organic carbon content depends on the balance between the carbon input and output, and environmental factors affect soil organic carbon by impacting the input and/or output of carbon [ 6 , 18 ].…”

Section: Introductionmentioning

confidence: 99%

Effects of temperature and grazing on soil organic carbon storage in grasslands along the Eurasian steppe eastern transect

et al. 2017

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Soil represents the largest terrestrial organic carbon pool. To address global climate change, it is essential to explore the soil organic carbon storage patterns and their controlling factors. We investigated the soil organic carbon density (SOCD) in 48 grassland sites along the Eurasian steppe eastern transect (ESET) region, which covers the Inner Mongolia grassland subregion and Mongolia grasslands subregion. Specifically, we analyzed the SOCD in the top 30 cm soil layer and its relationships with climatic variables, soil texture, grazing intensity and community biomass productivity. The results showed that the average SOCD of the ESET was 4.74 kg/m2, and the SOCD of the Inner Mongolia grassland subregion (4.11 kg/m2) was significantly lower than that of the Mongolia grassland subregion (5.79 kg/m2). Significant negative relationships were found between the SOCD and the mean annual temperature (MAT), mean annual precipitation (MAP) and grazing intensity in the ESET region. The MAT and grazing intensity were identified as the major factors influencing the SOCD in the ESET region; the MAP and MAT were the major factors influencing the SOCD in the Inner Mongolia grassland subregion; and the MAT and soil pH were the major factors influencing the SOCD in the Mongolia grassland subregion.

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“…Une attention particulière devrait être portée à la détermination de deux caractéristiques et propriétés clefs du sol : la teneur en matière organique et la densité apparente, actuellement déterminées sans distinction des types de systèmes de culture et de prairies. Par exemple, l'estimation de la teneur en matière organique sous prairies temporaires par Mulder et al (2015Mulder et al ( , 2016 55 ne tient pas compte de la durée de ces prairies. Dans la base de données sur les sols, la densité apparente est identique dans les sols de grandes cultures et de prairies.…”

Section: ❚ ❚ Base De Données Sur Les Solsunclassified

Services écosystémiques fournis par les espaces agricoles

Tibi¹,

Thérond²

2018

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Suivi photographique des insectes pollinisateurs SSP : service de la Statistique et de la Prospective du ministère en charge de l'Agriculture STICS : Simulateur multidisciplinaire pour les cultures standard UPC : unité pédoclimatique VESPE : valeur économique du service de pollinisation entomophile Dans un premier temps, les experts ont collecté et analysé la littérature scientifique internationale afin de stabiliser un cadre d'analyse opérationnel pour la spécification et l'évaluation des services écosystémiques rendus par les écosystèmes agricoles, d'identifier la 4.

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Understanding large‐extent controls of soil organic carbon storage in relation to soil depth and soil‐landscape systems

Cited by 35 publications

References 90 publications

Reviews and syntheses: The mechanisms underlying carbon storage in soil

Reviews and syntheses: The mechanisms underlying carbon storage in soil

Effects of temperature and grazing on soil organic carbon storage in grasslands along the Eurasian steppe eastern transect

Services écosystémiques fournis par les espaces agricoles

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