Assessment of carbon sequestration as affected by different management practices using the RothC model

Jakub Prudil; Lubica Pospíšilová; Tamara Dryšlová; Gabriela Barančíková; Vladimír Smutný; Luboš Sedlák; Pavel Ryant; Petr Hlavinka; Miroslav

doi:10.17221/291/2023-PSE

Plant, Soil and Environment (Nov 2023)

Assessment of carbon sequestration as affected by different management practices using the RothC model

Jakub Prudil,
Lubica Pospíšilová,
Tamara Dryšlová,
Gabriela Barančíková,
Vladimír Smutný,
Luboš Sedlák,
Pavel Ryant,
Petr Hlavinka,
Miroslav

Affiliations

Jakub Prudil: Mendel University in Brno, Faculty of AgriSciences, Department of Agrochemistry, Soil Science, Microbiology and Plant Nutrition, Brno, Czech Republic
Lubica Pospíšilová: Mendel University in Brno, Faculty of AgriSciences, Department of Agrochemistry, Soil Science, Microbiology and Plant Nutrition, Brno, Czech Republic
Tamara Dryšlová: Mendel University in Brno, Faculty of AgriSciences, Department of Agrosystems and Bioclimatology, Brno, Czech Republic
Gabriela Barančíková: National Agricultural and Food Centre, SSCRI Bratislava, Bratislava, External Working Place Prešov, Prešov, Slovak Republic
Vladimír Smutný: Mendel University in Brno, Faculty of AgriSciences, Department of Agrosystems and Bioclimatology, Brno, Czech Republic
Luboš Sedlák: Mendel University in Brno, Faculty of AgriSciences, Department of Agrochemistry, Soil Science, Microbiology and Plant Nutrition, Brno, Czech Republic
Pavel Ryant: Mendel University in Brno, Faculty of AgriSciences, Department of Agrochemistry, Soil Science, Microbiology and Plant Nutrition, Brno, Czech Republic
Petr Hlavinka: Mendel University in Brno, Faculty of AgriSciences, Department of Agrosystems and Bioclimatology, Brno, Czech Republic
Miroslav: Mendel University in Brno, Faculty of AgriSciences, Department of Agrochemistry, Soil Science, Microbiology and Plant Nutrition, Brno, Czech Republic

DOI: https://doi.org/10.17221/291/2023-PSE
Journal volume & issue: Vol. 69, no. 11
pp. 532 – 544

Abstract

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Long-term field experiments provide a valuable dataset for predicting changes in soil organic carbon (SOC) stocks in different agricultural systems. The RothC-26.3 model was used to simulate changes in SOC in the monoculture of spring barley (Hordeum vulgare L.) and the Norfolk crop rotation during 1972-2100. The potential of the Gleyic Fluvisol Clayic to sequester organic carbon was investigated. The studied soil was heavily textured, with medium organic carbon content. Four management scenarios in the monoculture and six management scenarios in the Norfolk crop rotation were evaluated. Three different global climate models (MPI, MRI, CMSS) representing the uncertainty of future climate conditions were used. Results showed that carbon stocks were mainly influenced by plant residue inputs and exogenous organic materials application. The projection showed trends of carbon stocks decreasing in the case of monoculture management. Results also documented that management scenario D with straw incorporation and intercrops represented sustainability and carbon stock increase during all modelled climate scenarios. The SOC stock at the end of the century was approximately 66 t/ha. This represents a moderate sequestration of SOC of approximately 0.09 t/ha/year.

Published in Plant, Soil and Environment

ISSN: 1214-1178 (Print); 1805-9368 (Online)
Publisher: Czech Academy of Agricultural Sciences
Country of publisher: Czechia
LCC subjects: Agriculture: Plant culture
Website: https://pse.agriculturejournals.cz/

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