Your search keyword '"phaeozems"' showing total 15 results

1. Nitrogen mineralization potential depletion in pampas (Argentina) croplands following conversion from native grasslands

Author

Wyngaard, Nicolas, Crespo, Cecilia, García, Gisela Vanesa, Reussi Calvo, Nahuel Ignacio, Rivero, Camila, Carciochi, Walter Daniel, Eyherabide, Mercedes, Larrea, Gastón, Angelini, Hernán, Barbieri, Pablo, and Sainz Rozas, Hernán Rene

Published

2025

2. Distribution and Pools of Soil Organic Carbon in Chernozemic Soils Impacted by Intensive Farming and Erosion in the Loess Plateau in South-East Poland

Author

Beata Labaz, Joanna Beata Kowalska, Cezary Kabala, Mirosław Kobierski, Jaroslaw Waroszewski, Michal Dudek, Katarzyna Szopka, and Dariusz Gruszka

Subjects

Phaeozems, soil erosion, colluvium, soil organic carbon, organic carbon pools, Agriculture

Abstract

Soil erosion and the loss of soil organic carbon (SOC) pools are considered serious environmental problems in undulating landscapes on loess covers, accompanied in some areas, such as south Poland, by the physical degradation of chernozemic soils. The aim of the present study was to identify the scale and reasons for spatial variation of the SOC pools in the intensely cultivated Luvic Phaeozems in one of the unique patches of chernozemic soils in Poland. This study, carried out in a soil catena located in the undulating Carpathian Foreland in south-east Poland, has demonstrated that the SOC pools can greatly differ on a very small scale, even in relatively less differentiated landscapes and in soils classified into the same group. The scale and reasons for the differentiation of the SOC pools depend on the method (depth) of calculation. The spatial differences were smaller and were mainly related to the SOC concentrations and the bulk density of the topsoil horizons, when calculated for depths of 0–30 cm and 0–50 cm. On the other hand, the SOC pools calculated for the 0–100 cm soil layer differed most significantly between the profiles in the catena, representing a continuous growing trend from the uppermost towards the lowermost part of the catena, and were clearly related to the total thickness of the humus horizon(s). The latter findings confirm that sheet erosion has a major impact on the spatial variation of SOC pools in an agricultural landscape. However, soil morphology and the distribution of SOC across the soil profiles suggest additional influences from historical pedogenesis and modern farming technology. The presence of black, thick and humus-rich chernic horizons in all soils across the catena indicates that modern farming must not degrade the soils, but, on the contrary, it can help in the restoration of even neo-formation of chernozemic soils (Phaeozems), if oriented towards the conservation of humus content, soil structure, and biological activity.

Published

2024

3. Mollic soils situated in non-Chernozem regions in Slovakia

Author

Kobza Jozef

Subjects

mollic soils, phaeozems, chernozems, soil genesis, soil classification, slovakia, Agriculture

Abstract

This study is focused on an evaluation of some important soil properties as a result of the genesis of mollic soils which are located outside of the main Chernozem regions in Slovakia. Several soil profiles selected from the Soil Monitoring Network in Slovakia were evaluated and interpreted. Unified analytical procedures used in soil monitoring system have been applied. Following soil indicators: pH, humus content, and qualitative components as humic acids (HA) and fulvic acids (FA) as well as the fractional composition of HA, the content of labile carbon (CL), potentially mineralisable nitrogen (Npot) have been analysed. Based on obtained results in more details, it may be said that the dark-coloured soils in non-Chernozem regions opposite dark-coloured soils in Chernozem regions have a higher content of labile carbon and higher index of lability as well as higher CL: Npot ratio. This indicator seems to be more significant than the often used C/N ratio. In addition, the darkcoloured soils in non-Chernozem regions are characteristic with higher content of aliphatic carbon as well as lower content of carboxylic groups (-COOH) and lower value of the optical parameter (E1% 6). These indicators in more detail are of higher interpretation value for a better evaluation of dark-coloured soils in non-Chernozem regions compared with similar soils in Chernozem regions.

Published

2022

4. Soils over Calcareous Rocks in Golo Burdo Mountain

Author

Ivaylo Kirlov, Biser Hristov, and Pavel Pavlov

Subjects

leptosols, phaeozems, carbonates, soil properties, Science, Agriculture

Abstract

The paper deals with calcareous soils in Golo Bardo Mountain in western Bulgaria. Until now no significant studies have been made for the soils of Golo Bardo Mountain. Our goal was to give assess data for their soil features, characteristics, main diagnostic indicators and properties in order to define the soil formation processes, as well as their complete morphological description. Eight soil profiles were studied in different parts of the mountain. Due to the carbonate soil-forming rocks, the leaching processes in these soils are extremely weak and it is usually difficult to distinguish the individual genetic horizons. In relation to the soil-forming carbonate rocks in the area, we distinguish two main soil units. The studied soils are Leptosols or Phaeozems with good fine-granular structure, dark humus horizon (mollic) and shallow soil profile Ak-ACk-CRk, lying on hard or weathered carbonate rock. In the studied mountain area with different elevation, the surface mollic horizon is usually shallower and very often eroded with fragments from calcareous rock. The soils are well stocked with organic matter. The amount of organic carbon in the surface A horizon varied from 7.4 % to 2.8%. The calcium dominates in exchange capacity of the soil over all other cations. There is no exchange acidity in these soils, except small amounts in the soil surface and in litter. The content of carbonates is an important soil-forming feature of these soils.

Published

2021

5. Chernozem (czarnoziem) – soil of the year 2019 in Poland. Origin, classification and use of chernozems in Poland

Author

Kabała Cezary

Subjects

chernozems, phaeozems, mollisols, soil origin, soil classification, soil functions, Agriculture

Abstract

The Soil Science Society of Poland has elected chernozem to be the Soil of the Year 2019. Although chernozems cover less than 2% of Poland, they have high importance for agriculture due to their productivity and play a specific scientific role for understanding of soil development and functioning in an environment. Chernozems are also crucial for the reconstruction of Neolithic agriculture development and human impacts on soil and landscape. This introductory paper presents (a) a specific definition of chernozem in Poland, connected with a separate distinction of black earths and colluvial chernozemic soils; (b) a review of the present and former classification schemes for chernozems in Poland and their correlation with international soil classification systems (WRB and Soil Taxonomy); (c) the spatial distribution of chernozems in Poland, their agricultural evaluation and threats for chernozems’ quality and future existence related to intense land use.

Published

2019

6. Chernozems of Lubelszczyzna (eastern Poland)

Author

Chodorowski Jacek, Bartmiński Piotr, Plak Andrzej, and Dębicki Ryszard

Subjects

chernozems, phaeozems, lublin upland, wołyń upland, Agriculture

Abstract

The purpose of the work was to characterize the variously used humus in the south-eastern part of the Lublin region. The basic research material were data taken from the literature on the subject. Standard soil science methods were used in the study. The humus level of humus varieties ranged from 30 to 80 cm. The researched molds were formed from loess deposits, which most often showed graining of clay dust. Organic carbon content in humus levels did not exceed 2.9%. The surface levels of the analyzed molds showed clear decalcification. The CaCO3 content in the loess mother rock was a maximum of 15.5%. These are soils with high saturation of the sorption complex with basic cations. The content of available phosphorus and potassium in humus levels was low and medium. According to Systematics of Poland’s soils (2019), the analyzed molds mainly represented leached molds and typical molds, while according to the international soil classification WRB (IUSS Working Group WRB 2015) they are primarily Phaeozems. All the analyzed humus plants belong to soils with the highest utility value. Phenomena lowering the quality of molds in the Lublin region related to human activity are the use of improper agrotechnics, and above all water surface erosion. The unfavorable processes are favored by the undulating terrain and the grain size of the soils studied, characteristic for this area.

Published

2019

7. Suitability of World Reference Base for Soil Resources (WRB) to describe and classify chernozemic soils in Central Europe

Author

Kabała Cezary, Charzyński Przemysław, Czigány Szabolcs, Novák Tibor J., Saksa Martin, and Świtoniak Marcin

Subjects

calcisols, chernozems, gleysols, kastanozems, phaeozems, soil classification, Agriculture

Abstract

Chernozemic soils are distinguished based on the presence of thick, black or very dark, rich in humus, well-structural and base-saturated topsoil horizon, and the accumulation of secondary carbonates within soil profile. In Central Europe these soils occur in variable forms, respectively to climate gradients, position in the landscape, moisture regime, land use, and erosion/accumulation intensity. “Typical” chernozems, correlated with Calcic or Haplic Chernozems, are similarly positioned at basic classification level in the national soil classifications in Poland, Slovakia and Hungary, and in WRB. Chernozemic soils at various stages of their transformation are placed in Chernozems, Phaeozems or Kastanozems, supplied with respective qualifiers, e.g. Cambic, Luvic, Salic/Protosalic, Sodic/Protosodic etc. Some primeval Chernozems thinned by erosion may still fulfil criteria of Chernozems, but commonly are shifted to Calcisols. Soils upbuilt (aggraded) with colluvial additions may also retain their original placement in Chernozems, getting supplementary qualifier Colluvic. “Hydromorphic” chernozemic soils, in many CE systems are placed as separate soil type (“czarne ziemie” or “čiernice”) at the same level with “typical” chernozems. Classification of these soils in WRB depends on the presence of chernic horizon, depth of secondary carbonate accumulation and depth of gleyic/stagnic properties, and may vary from Gleyic/Stagnic Chernozems/Phaeozems to Mollic Gleysols/Stagnosols. Although WRB classification differs from national classifications in the concepts and priorities of classification, it provides large opportunity to reflect the spatial variability and various stages of transformation/degradation of chernozemic soils in Central Europe.

Published

2019

8. Soil cover patterns in the forest-steppe and steppe zones of the East European Plain

Author

Khitrov Nikolay, Smirnova Maria, Lozbenev Nikolai, Levchenko Ekaterina, Gribov Vasiliy, Kozlov Daniil, Rukhovich Dmitriy, Kalinina Natalia, and Koroleva Polina

Subjects

chernozems, phaeozems, soil mapping, pedodiversity, wrb, Agriculture

Abstract

The soil cover of the forest-steppe and steppe zones of the East European Plain is characterized by diverse soil combinations revealed during large-scale and detailed soil mapping against the background of a traditional zonal sequence of dominant automorphic soils alternating from the north to the south and clearly displayed on small-scale soil maps. The composition, configuration and functioning of particular soil cover patterns are determined by the soil forming factors acting within a given area. The elementary soil areas (detailed scale) and elementary soil cover patterns maps (large scale) of the Central Russian, Kalach, and Volga Uplands are created by both traditional and digital soil mapping methods. Low-contrasting soil combinations with the background Haplic Chernozems (Loamic or Clayic, Pachic) alternating with zooturbated Haplic Chernozems (Loamic or Clayic, Pachic) on convex elements of the microtopography and Luvic Chernozems (Loamic or Clayic, Pachic) on concave elements of the microtopography prevails under conditions of thick clay loamy parent materials and free drainage. Under conditions of shallow embedding by low-permeable clayey sediments, the soil cover includes Chernozems or Chernic Phaeozems with stagnic features in some part of the soil profile or even Mollic Stagnosols. The presence of shrink-swell clays of different ages leads to the formation of Bathyvertic Chernozems, Vertic Chernozems, Vertic Chernic Phaeozems and/or Pellic Vertisols. The presence of soluble salts in the parent material leads to the development of solonetzic soil complexes consisting of Protosodic or Sodic Chernozems and different types of Solonetzes.

Published

2019

9. Vertisols properties and classification in relation to parent material differentiation near Strzelin (SW Poland)

Author

Dudek Michał, Waroszewski Jarosław, Kabała Cezary, and Łabaz Beata

Subjects

vertisols, chernozems, phaeozems, soil classification, mollic, clays, Agriculture

Abstract

Vertisols are characterized by high content of clay fraction that affects their specific morphological and physical features. The shrink-swell phenomena of clayey materials under specific moisture regime cause formation of cracks, wedge-shaped structural aggregates and slickensides on aggregate surfaces. It was formerly believed that these soils can be found only in tropical/subtropical zones, thus Vertisols have not been expected to form under temperate climate of Central Europe. As a result, Vertisols are insufficiently recognized and documented on soil maps in Poland, including the Lower Silesia region. The aim of this study was to examine soils developed on clayey parent materials near Strzelin, focusing on their morphology, properties and classification issues. There was confirmed that soils developed from Neogene clays have vertic and mollic horizon, accompanied by stagnic or gleyic properties. However, not all soils fulfil the criteria for Vertisols due to the presence of surface or subsurface coarser-textured (sandyor silty-textured) layers. Native differentiation of parent material and geomorphological processes were found the main factors, which control the spatial mosaic of Vertisols and black earths (Chernozems or Phaeozems).

Published

2019

10. Fertility of Soils over Loess in the Danubian Plain

Author

Biser Hristov, Ivona Nikova, and Natalya Andreeva

Subjects

Agrochemical properties, soil fertility, Chernozems, Phaeozems, Kastanozems, Regosols, Calcisols, Science, Agriculture

Abstract

The loess in the Danubian plain is rich of nutrients and there is situated the south border of so called ―corn belt of Europe‖, where are the most fertile soils of Balkan Peninsula. There are five main typical soil types spread over loess - Chernozems, Phaeozems, Kastanozems, Regosols and Calcisols. There is also a big diversity in the content of basic nutrient elements – it varies between low and high content of organic carbon and mobile forms of nitrogen, phosphorous and potassium. As a whole there is shortage of phosphorus in all soil types. Soils over loess are characterized by a surface layer that is rich in organic matter, minerals and nutrients with abundant natural grass vegetation and high fertility soil types such as Chernozems, Phaeozems and Kastanozems. Eroded and shallow soils such as Regosols and Calcisols have low quantities of major nutrient elements as mobile nitrogen, phosphorus, and total organic matter, consequently their fertility is low.

Published

2017

11. Variability of morphological, physical and chemical properties of soils derived from carbonate-rich parent material in the Pieniny Mountains (south Poland)

Author

Kowalska Joanna, Kajdas Bartłomiej, and Zaleski Tomasz

Subjects

carbonate-rich soils, Carpathian’s soils, Phaeozems, Cambisols, Regosols, Agriculture

Abstract

Carbonate-rich soils are characterized by great diversity in content of carbonate and non-carbonate mineral substances in soil substrate which largely influences soil properties. The study presents the analysis results of four soil profiles located at the area of Pieniny National Park. The aim of this study was to characterize and classify the soils developed from the mixture of carbonate and carbonate-rich rock material, formerly classified as pararendzinas. It was achieved by determination of morphological, physical, and chemical properties, as well as mineralogical composition of selected carbonate-rich soils occurring in the Polish part of the Pieniny Mts. Soils were classified as typical chernozemic rendzina (P1), typical eutrophic brown soils (P2, P4), as well as typical pararendzina (P3) according to Polish Soil Classification (2011).

Published

2017

12. Soils over Calcareous Rocks in Golo Burdo Mountain

Author

Kirilov, Ivaylo, Hristov, Biser, and Pavlov, Pavel

Subjects

Leptosols, Phaeozems, carbonates, soil properties, phaeozems, soil properties, Science, carbonates, Agriculture, leptosols

Abstract

The paper deals with calcareous soils in Golo Bardo Mountain in western Bulgaria. Until now no significant studies have been made for the soils of Golo Bardo Mountain. Our goal was to give assess data for their soil features, characteristics, main diagnostic indicators and properties in order to define the soil formation processes, as well as their complete morphological description. Eight soil profiles were studied in different parts of the mountain. Due to the carbonate soil-forming rocks, the leaching processes in these soils are extremely weak and it is usually difficult to distinguish the individual genetic horizons. In relation to the soil-forming carbonate rocks in the area, we distinguish two main soil units. The studied soils are Leptosols or Phaeozems with good fine-granular structure, dark humus horizon (mollic) and shallow soil profile Ak-ACk-CRk, lying on hard or weathered carbonate rock. In the studied mountain area with different elevation, the surface mollic horizon is usually shallower and very often eroded with fragments from calcareous rock. The soils are well stocked with organic matter. The amount of organic carbon in the surface A horizon varied from 7.4 % to 2.8%. The calcium dominates in exchange capacity of the soil over all other cations. There is no exchange acidity in these soils, except small amounts in the soil surface and in litter. The content of carbonates is an important soil-forming feature of these soils.

Published

2021

13. Soil Quality Assessment of Phaeozems and Luvisols from the Kujawy Region (Central Poland) / Ocena cech użytkowych czarnych ziem i gleb płowych rejonu Kujaw

Author

Kobierski Mirosław, Kondratowicz-Maciejewska Krystyna, and Kociniewska Katarzyna

Subjects

soil quality, organic carbon stock, Phaeozems, Luvisols, Agriculture

Abstract

To assess the soil quality of Phaeozems and Luvisols from Kujawy region (Kujawy-Pomerania Province, Poland), the soil quality indicators such as: content of organic matter and nutrients, as well as bulk density were used. The soils showed similar inherent properties (soil texture, depth to parent material, type of clay) and management practices (tillage, crop rotation, nutrient application). The following properties were determined: bulk density, grain size composition, exchangeable acidity, concentration of available forms of potassium, phosphorus and magnesium, and the content of total organic carbon (TOC) and nitrogen (Nt). The amounts of dissolved organic carbon (DOC) and dissolved nitrogen (DN) were measured in the solution obtained after extraction with 0.004 M CaCl2. The stock of TOCs, Nts and DOCs, and DNs were calculated. The total organic carbon content in surface horizon of Phaeozems was significant higher (13.9-20.1 g·kg-1) than in Ap horizon of Luvisols (8.3-11.0 g·kg-1), which is a consequence of their origin. The stock of organic carbon in Ap horizon fell within 5.89 to 8.49 kg·m2 in Phaeozems and 3.80 to 4.81 kg·m2 in Luvisols. Although Phaeozems demonstrated a significant higher content of TOC, as compared with Luvisols, the amount of dissolved organic carbon was similar in both soil types, which points to a higher share of DOC in the total organic carbon content in Luvisols (up to 17.5% in Et horizon). The amounts of dissolved organic carbon and dissolved nitrogen and their stock do not depend on the type of soils if the management practices are similar.

Published

2015

14. Soils of archeological landscape Sorokino 1 (Orel oblast): reconstruction of natural changes and anthropogenic transformation of the environment

Author

Chendev, Yu. G., Golyeva, A. A., Belevantsev, V. G., Sarapulkin, V. A., and Dudin, D. I.

Subjects

phaeozems, pedology, anthropogenic evolution of soils, archeological landscapes, luvisols, chernozems, Central Russian Upland, Orel Oblast, soils, paleosols, agriculture

Abstract

Soil-archeological studies were performed in the area of the ancient Russian settlement Sorokino 1 dating back to the 13th century AD and located in the upper reaches of the Orlik River (Khotynets district, Orel oblast) within the natural zone of deciduous forests. A comparative analysis of the soil features-indicators of the environment - allowed us to determine and characterize the main stages of the formation of soils and landscapes under the influence of climate changes and anthropogenic factors

Published

2019

15. Some important properties and classification of vertisols under mediterranean climate

Author

Uludağ Üniversitesi/Ziraat Fakültesi/Toprak Bilimi ve Bitki Besleme Bölümü. and Aydınalp, Cumhur

Subjects

Agriculture, Vertisols, Phaeozems, Microrelief, Soil properties, Classification, Agriculture, multidisciplinary, complex mixtures

Abstract

Vertisols comprise some of the important arable land in northwestern Turkey. Five sites were selected to present vertisols occurring in different parent materials of the study area. These soils occur on flat to gently sloping plains of the region. Clay content is high in the studied sites. The high cation exchange capacity and CEC/clay ratios suggest montmorillonitic and mixed mineralogy. Calcium was the most dominant extractable cation followed by magnesium. The similar patterns of distribution for the electrical conductivity values and soluble cations throughout the studied soil sites indicate the low leaching rate, eluviation and illuviation processes within these studied sites. All soils belong to the haploxererts soil great group.

Published

2010