ARPHA Conference Abstracts :
Conference Abstract
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Corresponding author: Magdalena Debicka (magdalena.debicka@upwr.edu.pl)
Received: 19 Jun 2023 | Published: 17 Oct 2023
© 2023 Jerzy Weber, Peter Leinweber, Yakov Kuzyakov, Edyta Hewelke, Magdalena Frąc, Michael Hayes, Vaclovas Boguzas, Andy Gregory, Lilla Mielnik, Urszula Norton, Maria Jerzykiewicz, Magdalena Debicka, Elżbieta Jamroz, Irmina Ćwieląg-Piasecka, Andrzej Kocowicz
This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Citation:
Weber J, Leinweber P, Kuzyakov Y, Hewelke E, Frąc M, Hayes M, Boguzas V, Gregory A, Mielnik L, Norton U, Jerzykiewicz M, Debicka M, Jamroz E, Ćwieląg-Piasecka I, Kocowicz A (2023) Soil management effects on soil organic matter properties and carbon sequestration (SOMPACS). ARPHA Conference Abstracts 6: e108213. https://doi.org/10.3897/aca.6.e108213
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SOMPACS is a project recommended by EJP SOIL for funding under the 1st External Call "Towards Healthy, Resilient and Sustainable Agricultural Soils". The goal of this project is to assess management practices that enrich organic matter pools that are resilient to rapid microbial decomposition. The project started in 2022 as a consortium of 12 research institutions from Poland, Germany, Ireland, Lithuania, UK, Italy and USA for a period of three years.
Soil and vegetation samples from eight long-term experiments that differ in soil management practices (i.e., conventional vs. no-tillage; mineral vs. organic fertilization; with and without catch crop; and arable land vs. undisturbed grassland) are investigated. Study sites include: 22- and 54-year long experiments in Lithuania; 26-year long experiment in Italy; 30- and 40-year long experiments in Ireland; 30- and 46- and 100-year long experiments in Poland; and 178-year long Broadbalk experiment in Great Britain. Additional experimentation includes assessing the impact of root growth promoting amendments (commercially available humic substances, biochar and biogas digestate) on stable organic matter pools. In parallel with soil sampling, plant productivity are measured in all field experiments. This investigation is couples fields studies with small-scale experimental plots and laboratory incubations under controlled conditions. In addition to assessing basic soil properties, the following state-of-the-art analyses are conducted:
The most resistant SOM pool (humin) are isolated by different methods (isolation vs. extraction) and examined for chemical composition and structure, using spectrometric and spectroscopic techniques (mass spectrometry, NMR, FTIR, EPR, UV-Vis-NIR, fluorescence). The carbon stocks in the soil profile will be evaluated and the carbon extractable in cold water will be determined to assess the potential carbon leaching and microbial availability. Additionally, in-field soil carbon dioxide (CO2) fluxes from selected experiments is monitored.
Thus far, soil samples (0-100 cm depth) were collected and the humin fraction from surface A horizon was isolated for spectroscopic studies. Crop yield and vegetation productivity was also assessed.
The research was financed by NCBR (EJPSOIL/I/78/SOMPACS/2022).
soil management; soil properties; humin; spectroscopic properties; carbon sequestration
Magdalena Dębicka
poster presentation
The research was financed by NCBR (EJPSOIL/I/78/SOMPACS/2022).