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Tytuł artykułu

The trend of changes in soil organic carbon content in Poland over recent years

Tytuł czasopisma

Archives of Environmental Protection

Rocznik

2024

Wolumin

50

Numer

1

Autorzy

Zimnoch, Urszula ; Bogusz, Paulina ; Brodowska, Marzena Sylwia ; Michalak, Jacek

Afiliacje

Zimnoch, Urszula : Department of Agricultural and Environmental Chemistry, University of Life Sciences in Lublin, Poland ; Zimnoch, Urszula : Complexor Fertilizer Group, Stawiski, Poland ; Bogusz, Paulina : Department of Agricultural and Environmental Chemistry, University of Life Sciences in Lublin, Poland ; Bogusz, Paulina : Fertilizers Research Group, Łukasiewicz Research Network–New Chemical Syntheses Institute, Puławy, Poland ; Brodowska, Marzena Sylwia : Department of Agricultural and Environmental Chemistry, University of Life Sciences in Lublin, Poland ; Michalak, Jacek : Regional Chemical and Agricultural Station in Łódź, Poland

Słowa kluczowe

organic matter ; soil pH ; soil carbon sequestration ; climate change mitigation ; organic soil carbon ; soil carbon cycle

Wydział PAN

Nauki Techniczne

Zakres przestrzenny

35-44

Wydawca

Polish Academy of Sciences

Bibliografia

  1. Amoah-Antwi, C., Kwiatkowska-Malina, J., Szara, E., Fentona, O., Thornton, S.F. & Malina, G. (2022). Title of article, Assessing Factors Controlling Structural Changes of Humic Acids in Soils Amended with Organic Materials to Improve Soil Functionality, Agronomy, 12(2), pp. 1–17. DOI:10.3390/agronomy12020283.
  2. Breś, W., Golcz, A., Komosa, A., Kozik, E. & Tyksiński, W. (1997). Fertilization of garden plants. Edited by A.R. w Poznaniu. Poznań (1997).
  3. Castañeda-Gómez, L., Lajtha, K., Bowedena, R., Jauhar, F.N.M., Jai, J., Feng, X. & Simpson, M.J. (2023). Soil organic matter molecular composition with long-term detrital alterations is controlled by site-specific forest properties, Global Change Biology, 29(1), pp. 243–259. DOI:10.1111/gcb.16456.
  4. Communication from The Commission to The Council, The European Parliament, The European Economic and Social Committee and The Committee of The Regions - Thematic Strategy for Soil Protection (2006) Commission of The European Communities. https://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=COM:2006:0231:FIN:EN:PDF.
  5. Cotrufo, M.F. & Lavallee, J.M. (2022). Chapter One - Soil organic matter formation, persistence, and functioning: A synthesis of current understanding to inform its conservation and regeneration, Advances in Agronomy, 172, pp. 1–66.
  6. Dignac, M.F., Derrein, D., Barre, P., Barot, S., Cécillon, L., Chenu, C., Chevalier, T., Freschet, G.T., Garnier, P., Guenet, B., Hedde, M., Klumpp, K., Laschermes, G., Maron, P.A., Nunan, N., Rumet, K. & Basile-Doelsch, I. (2017). Increasing soil carbon storage: mechanisms, effects of agricultural practices and proxies. A review, Agronomy for Sustainable Development, 37(2). DOI:10.1007/s13593-017-0421-2.
  7. Dynarski, K.A., Bossio, D.A. & Scow, K.M. (2020). Dynamic Stability of Soil Carbon: Reassessing the “Permanence” of Soil Carbon Sequestration, Frontiers in Environmental Science, 8. DOI:10.3389/fenvs.2020.514701.
  8. Francaviglia, R. Almagro, M. & Vicente-Vicente, J.L., (2023). Conservation Agriculture and Soil Organic Carbon: Principles, Processes, Practices and Policy Options, Soil Systems, 7(17), pp. 1–35. DOI:10.3390/soilsystems7010017.
  9. Gerke, J. (2022). The Central Role of Soil Organic Matter in Soil Fertility and Carbon Storage, Soil Systems, 6(2). DOI:10.3390/soilsystems6020033.
  10. Giachin, G., Neprawiszta, R., Mandaliti, W., Melino, S., Morgan, A., Scaini, D., Mazzei, P., Piccalo, A., Lagname, G., Paci, M. & Leita, L. (2017). The mechanisms of humic substances self-assembly with biological molecules: The case study of the prion protein, PLoS ONE, 12(11), pp. 1–16. DOI:10.1371/journal.pone.0188308.
  11. Gonet, S.S. &Markiewicz, M. (2007). The role of organic matter in the environment, PTSH, Wrocław 2007.
  12. Intergovernmental Panel on Climate Change (2022). Risk management and decision-making in relation to sustainable development, Climate Change and Land. DOI:10.1017/9781009157988.009.
  13. Kiryluk, A. & Kostecka, J. (2023). Sustainable development in rural areas in the perspective of a decade of ecosystem restoration, Ekonomia i Środowisko - Economics and Environment, 83(4). DOI:10.34659/eis.2022.83.4.535.
  14. Kuś, J. (2015). Soil organic matter - meaning, content and balancing, Studies and Reports IUNG-PIB, 45(19), pp. 27–53. DOI:10.26114/sir.iung.2015.45.02. (in Polish)
  15. Lal, R., Follertt, R.F., Stewart, B.A. & Kimble, J.M. (2007). Soil carbon sequestration to mitigate climate change and advance food security, Soil Science, 172(12), pp. 943–956. DOI:10.1097/ss.0b013e31815cc498.
  16. Lipiński, W., Lipińska, H., Kornas, R. & Watros, A.(2020). Selected agrochemical parameters of grassland soils in Poland, Agronomy Science, 75(2), pp. 5–23. DOI:10.24326/as.2020.2.1. (in Polish)
  17. Łądkiewicz, K., Wszȩdyrówny-Nast, M. & Jaskiewicz, K. (2017). Comparison of different methods for determination of organic matter content, Scientific Review Engineering and Environmental Sciences, 26(1), pp. 99–107. DOI:10.22630/PNIKS.2017.26.1.09.
  18. Myśleńska, E. (2001). Organic soils and laboratory methods of their research, I PWN, Warszawa 2021. (in Polish)
  19. Nachtergaele, F.O., Petri, M. & Biancalani, R. (2016). Land degradation, World Soil Resources and Food Security. DOI:10.4337/9781788974912.l.4.
  20. Nasiri, S., Andalibi,B., Tavakoli, A., Delavar, M.A., El-Keblawy, A., Van Zwieten, L. & Mastinu, A. (2023) The mineral biochar alters the biochemical and microbial properties of the soil and the grain yield of Hordeum vulgare L. under drought stress, Land, 12(3), pp. 1–16. DOI:10.3390/land12030559.
  21. Newton, P., Cyvita, N., Frankel-Goldwater, L., Bartel, K. & Johno, C. (2020). What is regenerative agriculture? A review of scholar and practitioner definitions based on processes and outcomes, Frontiers in Sustainable Food Systems, 4(October), pp. 1–11. DOI:10.3389/fsufs.2020.577723.
  22. Pietrzak, S. & Hołaj-Krzak, J. T. (2022). The content and stock of organic carbon in the soils of grasslands in Poland and the possibility of increasing its sequestration. Journal of Water and Land Development, 54, 68–76. https://doi.org/10.24425/jwld.2022.141556
  23. Pikuła, D. & Rutkowska, A. (2017). Fractional composition of humus as a characteristic of the quality of organic matter, Studies and Reports IUNG-PIB, 53(7), pp. 81–91. DOI:10.26114/sir.iung.2017.53.06.(in Polish)
  24. Robertson, A.D., Paustain, K., Ogle, S., Wallenstein M.D., Lugato, E. & Cotrufo, M.F. (2019). Unifying soil organic matter formation and persistence frameworks: The MEMS model, Biogeosciences, 16(6), pp. 1225–1248. DOI:10.5194/bg-16-1225-2019.
  25. Rusco, E., Jones, R. & Bidoglio, G. (2001). Organic Matter in the soils of Europe: Present status and future trends Institute for Environment and Sustainability European Soil Bureau, European Commission Joint Research Centre [Preprint], (October 2001).
  26. Ryżak, M., Bartmiński, P. & Biegaowski, A. (2009). Methods of determining the granulometric composition of mineral soils, Acta Agrophysica, 175(4), pp. 34-39. http://www.old.acta-agrophysica.org/artykuly/acta_agrophysica/ActaAgr_175_2009_4_1_1.pdf. (in Polish)
  27. Schmidt, M.W.I., Torn, M., Abiven, S., Dittmar, T., Guggenberger, G., Janssen, I.A., Kleber, M., Kogel-Knabner, I., Lehmann, J., Manning, D.AC., Nannipieri, P., Rasse, D., Weiner, S. & Trumbore, S.E. (2011). Persistence of soil organic matter as an ecosystem property, Nature, 478(7367), pp. 49–56. DOI:10.1038/nature10386.
  28. The European Green Deal (2019) European Commission [Preprint], (December), https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=COM:2019:640:FIN.

Data

08.03.2024

Typ

Article

Identyfikator

DOI: 10.24425/aep.2024.149430 ; ISSN 2083-4772 ; eISSN 2083-4810

DOI

10.24425/aep.2024.149430

Strony

35-44

Indeksowanie w bazach

Abstracting & Indexing


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