Carbon Stocks, Sequestration Rate and Efficiency over 50 Years of Increasing Mineral N Fertilization

Carbon Stocks, Sequestration Rate and Efficiency over 50 Years of Increasing Mineral N Fertilization

Microbially mediated soil organic matter is an extremely sensitive pool that indicates subtle changes in the quality parameters. The calculation of different carbon pools (organic carbon—OC, labile carbon—PMC, light carbon—LFC and microbial carbon—MBC), their sequestration rate (Csr) and efficiency...

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Bibliographic Details
Main Authors: Elmira Saljnikov, Nikola Koković, Tara Grujić, Ljubomir Životić, Sonja Tošić Jojević, Vojislav Lazović, Goran Jačimović
Format: Article
Language:English
Published: MDPI AG 2023-11-01
Series:Biology and Life Sciences Forum
Subjects:
sequestration rate
carbon pools
labile carbon
microorganisms
mineral fertilization
nitrogen
Online Access:https://www.mdpi.com/2673-9976/27/1/7
Description
Summary:Microbially mediated soil organic matter is an extremely sensitive pool that indicates subtle changes in the quality parameters. The calculation of different carbon pools (organic carbon—OC, labile carbon—PMC, light carbon—LFC and microbial carbon—MBC), their sequestration rate (Csr) and efficiency (Cse), as affected by 50 yrs. of mineral fertilization, was carried out. The C sequestration rates between the fertilized plots were not significantly different except for the control plot. The sensitivity index, which indicates the response of soil organic matter to changes in different carbon fractions, demonstrated a strong correlation with the amount of light-fraction organic matter (OM). The use of mineral N over 50 years resulted in increase of soil labile C, but did not result in greater C sequestration efficiency. The results give a deeper insight into the behavior of carbon pools and can serve as a reliable basis for further studies focused on neutral carbon emissions and effective C sequestration.
ISSN:2673-9976

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