Black Soils Outside of the INBS Criteria in Slovakia

Jozef Kobza, Boris Pálka

Abstract


The distribution of black soils in Slovakia can be divided into the two basic groups: distribution of black soils according to the International Network of Black Soils (INBS) and distribution of black soils outside of the INBS specified criteria. Black soils outside of the INBS criteria on selected soil profiles are evaluated in this contribution. Indicators of black soils outside of the INBS criteria are very common in comparison with the first group – existence of mollic horizon – but the depth of mollic horizon is often less than 25 cm where the soil properties are practically the same as in black soils using the INBS criteria (represented by Chernozems and Phaeozems). Other special group of black soils without mollic horizon can be also included in the “black soils” category with low soil reaction (pH/H2O < 5.5 and pH/KCl < 5.0), low base saturation (< 50%) with high content of SOM (10–20%) represented mostly by Andosols and Umbrisols in Slovak conditions. The aim of this paper is to emphasize the significance of black soils outside of the INBS criteria on selected examples of soil profiles in Slovakia. The basic chemical (pH/H2O, pH/KCl, soil organic carbon (SOC), total nitrogen, humic acids, fulvoacids, colour quotient Q46, available nutrients P and K, melanic index) and physical (fractional mechanical composition) procedures were conducted in NPPC – Soil Science and Conservation Research Institute in Bratislava. Based on the obtained results, the black soils outside of the INBS criteria in Slovakia belong mostly to the most fertile soils with the existence of mollic horizon but often shallower than in black soils according to the INBS criteria (< 25 cm) and cultivated mostly as arable land (represented by Chernozems and Phaeozems). Only a smaller part of these soils – without mollic horizon (Andosols, resp. Umbrisols) – belong to the soils with low fertility and are mostly situated in forest protected areas on some volcanic rocks, especially with the occurrence of volcanic glass. Total area of these soils is about 8.7% of soil cover in Slovakia. All the groups of black soils (within and outside of the INBS criteria) have to be strongly protected.


Keywords


black soils, INBS criteria, soil monitoring, Chernozems, Phaeozems, Umbrisols, Andosols, Slovakia

Full Text:

PDF

References


Bielek, P., 1984. Nitrogen in Soil and Its Change. Príroda, Bratislava. (in Slovak)

Čurlík, J., 1975. Mineralogical Composition of Agricultural Soils in Slovakia. VÚPVR, Bratislava. (in Slovak)

Franzluebbers, A.J., 2002. Soil organic matter stratification ratio as an indicator of soil quality. Soil Tillage Research, 66: 95–106.

Graf-Rosenfellner, M., Cierjacks, A., Kleinschmit, B., Lang, F., 2016. Soil formation and its implications forstabilization of soil organic matter in the riparian zone. Catena, 139: 9‒18.

Kobza, J., 1999. Legend to soil map of Slovakia in the scale 1:400 000.

Kobza, J., Gáborík, Š., 2008. Current State and Development of Macro- and Micronutrients in Agricultural Soils of Slovakia. VÚPOP, Bratislava. (in Slovak)

Kobza, J., Makovníková, J., Hrivňáková, K., Barančíková, G., Bezák, P., Bezáková, Z., Dodok, R., Grečo, V., Chlpík, J., Lištjak, M., Mališ, J., Píš, V., Schlosserová, J., Slávik, O., Styk., J., Širáň, M., 2011. Uniform Analytical Procedures of Soils. VÚPOP, Bratislava. (in Slovak)

Kobza, J., Pálka, B., 2017. Contribution to black soils in Slovakia according to INBS criteria. Proceedings of VÚPOP, Bratislava, 39: 34‒42.

Kobza, J., Barančíková, G., Dodok, R., Makovníková, J., Pálka, B., Styk, J., Širáň, M., 2019. Current state and development of monitored soil properties as a basis to their protection and next land use. NPPC-VÚPOP, Bratislava. (in Slovak)

Kobza, J., Pálka, B., 2020. Basic properties of agricultural black soils in Slovakia using the INBS criteria. Polish Journal of Soil Science, 53(1): 117‒123. http://dx.doi.org/10.17951/pjss.2020.53.1.117.

Kohl, F., Vogel, F., Wacker, F., 1954. Vergleich zwischen bodenkundlicher und pflanzesociologischer Kartierung. Landw. Jb. Bayern, 31(9/10): 491‒516.

Koštialik, J., 1974. Characteristics and stratigraphy of fossile soils and loesses of Nitrianska pahorkatina. Náuka o Zemi, VIII. Pedologica, 9. (in Slovak)

Łabaz, B., Kabala, C., 2016. Human-induced development of mollic and umbric horizons in drained and farmed swampy alluvial soils. Catena, 139: 117‒126.

MPRV SR, 2013. Vyhláška č. 59/2013 (Decree no. 59/2013).

Rehfuess, K.E., 1990. Waldböden. Paul Parey, Hamburg.

Rennert, T., Georgiadis, A., Ghong, N.P., Rinklebe, J., 2018. Compositional variety of soil organic matter in mollic floodplain-soil profiles – also an indicator of pedogenesis. Geoderma, 311: 15‒24.

Rennert, T., Mladenović, S.A., Barančíková, G., Borůvka, L., Bosak, V., Cacovean, H., Čechmánková, J., Kobza, J., Mayer, S., Michalski, A., Pavlů, L., Rinklebe, J., Savin, I., Rubinić, V., 2021. Does soil organic matter in mollic horizons of central east European floodplain soils have common chemical features? Catena, 200(105192): 1‒10. http://dx.doi.org/10.1016/j.Catena.2021.105192

Roy, B., Barde, N.K., 1962. Some characteristics of the black soils of India. Soil Science, 93(2): 142‒147.

Schmidt, M.W.I., Skjemstad, J.O., Gehrt, E., Kogel-Knabner, I., 1999. Charred organic carbon in German chernozemic soils. European Journal of Soil Science, 50(2), 351‒365. http://dx.doi.org/10.1046/j.1365-2389.1999.00236.x.

Sotáková, S., 1982. Organic Matter and Soil Fertility. Príroda, Bratislava. (in Slovak)

Thiele-Bruhn, S., Leinweber, P., Echhardt, K.U., Siem, H.K., Blume, H.P., 2014. Chernozem properties of black soils in the Baltic region of Germany as revealed by mass-spectrometric fingerprinting of organic matter. Geoderma, 213: 144‒154.

Tockner, K., Stanford, J.A., 2002. Riverine floodplains: Present state and future trends. Environmental Conservation, 29: 308‒330.

Vaškovský, I., Halouzka, R., 1976. Geological map of Podunajská nížina lowland. South-east part in the scale 1: 500 000. GÚDŠ, Bratislava. (in Slovak)

Wen, D., Liang, W., 2001. Soil fertility quality and agricultural sustainable development in the black soil region of northeast China. Environment, Development and Sustainability, 3(1): 31‒43. https://doi.org/10.1023/A:1011480228613.

WRB, 2014. World reference base for soil resources. International soil classification system for naming soils and creating legends for soil maps. FAO, Rome.

Zehetner, F., Lair, G.J., Gerzabek, M.H., 2009. Rapid carbon accretion and organic matter pool stabilization in riverine floodplain soils. Global Biogeochemical Cycles, 23(4), GB4004, 1‒7. https://doi.org/10.1029/2009GB003481.




DOI: http://dx.doi.org/10.17951/pjss.2022.55.2.67-77
Date of publication: 2022-12-29 11:25:03
Date of submission: 2021-03-05 18:52:31


Statistics


Total abstract view - 1041
Downloads (from 2020-06-17) - PDF - 340

Indicators



Refbacks

  • There are currently no refbacks.


Copyright (c) 2022 Jozef Kobza, Boris Pálka

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.