Your search keyword '"Albrecht Bauriegel"' showing total 13 results

1. Formation, Classification, and Properties of Soils at Two Relict Charcoal Hearth Sites in Brandenburg, Germany

Author

Florian Hirsch, Anna Schneider, Albrecht Bauriegel, Alexandra Raab, and Thomas Raab

Subjects

pyrolysis, soils, iron oxides, charcoal, micromorphology, soil classification, Environmental sciences, GE1-350

Abstract

Historical charcoal production can have significant effects on soil properties. We studied soils at former charcoal production sites (relict charcoal hearths, RCHs) and compared these soils with undisturbed soil next to the charcoal hearths and four typical soils on similar parent material located at distances between 10 and 70 km from the RCHs. In a landscape typical of the northern German lowland, we found Podsolige Braunerde [WRB: Brunic Arenosols (Protospodic)] outside of the RCHs and soils with a clearly different stratigraphy within the RCHs. The main feature of the soils at both of the studied RCHs is a heterogeneous, charcoal-bearing deposit that is ~30 cm thick. No indications of translocation or mineral transformation processes, which form distinct soil horizons after the deposition of anthropogenic material on the RCHs, are present. Except for the differences in color and total carbon content, the soil chemistry of the RCHs hardly differs from that of the soil outside of the charcoal hearth sites. The soil colors and magnetic susceptibility values strongly suggest that the RCH substrates and the underlying topsoil were affected by thermally induced transformation of iron (hydr-)oxides. Although the charring procedure normally requires ~2 weeks, the heating effect only reaches to a maximum depth of 8 cm into the buried soil below the charcoal hearths. The presence of reddish soil and an abrupt increase in magnetic susceptibility in the upper 2 cm of the soil below the charcoal hearths indicate the heat-induced transformation of iron (hydr-)oxides into maghemite. Brighter soil color and an increase in soil organic matter (SOM) in the lower parts of the buried topsoil demonstrate the combustion of SOM up to 5 cm depth below the RCH. According to the German Guidelines for Soil Mapping, the soils in the RCHs are classified as Regosols above Braunerde [WRB: Spolic Technosols (Arenic)]. However, because the anthropogenic features of these soil sediments are disregarded in the German Guidelines for Soil Mapping, we suggest adapting the “M” horizon to permit a jM horizon. Thus, the soils in the RCHs could be classified as Kolluviale Braunerde.

Published

2018

2. Quaternary and geoarcheology in Lower Lusatia

Author

Florian Hirsch, Thomas Raab, Alexandra Raab, Anna Schneider, Alexander Bonhage, Marcus Schneider, and Albrecht Bauriegel

Abstract

Open-cast lignite mines in Lower Lusatia provide unique insights into human-induced environmental changes in the Northern European Lowland and improve our understanding of Quaternary landscape dynamics. The excursion will focus on soils and sediments of Late Pleistocene and Holocene age that have been modified by land use since the Slavic Middle Ages. In the vicinity of the open-cast mine Jänschwalde and in the Tauer forest north of Cottbus characteristic remains of historical charcoal production, a ridge-and-furrow system and late Quaternary rubification in soils are presented.

Published

2022

3. Spatial heterogeneity of buried and recent soils in a drift sand area in North-Eastern Germany

Author

Kazuki Uchino, Alexandra Raab, Alexander Bonhage, Anna Schneider, Thomas Raab, Klaus-Peter Wechler, and Albrecht Bauriegel

Abstract

In the North European Lowland, on the sandy deposits of the Weichselian glaciation, soils developed during periods of landscape stability are often conserved under windblown sand. However, small-scale changes of sediments and other soil forming factors can result in high spatial variation of soil properties in these landscapes; and relocation of soil material by geomorphic processes further increases the spatial heterogeneity of the soil landscape. These spatial variations in soil properties and conservation need to be considered in order to correctly decipher and interpret the buried soils as records of past environmental conditions.In the forefield of the open-cast mine Cottbus-Nord, archaeological excavations in a dune and drift sand area revealed widespread buried soils of different characteristics. The densely spaced excavation trenches give exceptionally good insights into the pedosphere, allow for reconstructing the distribution of fossil and recent soils in a high spatial resolution, and offer good opportunities to improve the understanding of spatial and temporal patterns of soil formation. Remains of postpleistocene hunter-gatherer campsites were documented in archaeological excavations and found to be associated with a buried soil horizon.We recorded the stratigraphy of soil profiles along more than 15 trenches within an area of about 20 ha, and additionally described the position of buried soils from GPR surveys and microdrone photogrammetry. In a recently opened, 455 m long trench, all characteristic soils and sediments of the study region could be observed and stratigraphically connected. Within this trench, four profiles were identified for further research. Each profile was classified and described according to WRB and German Guidelines for Soil Mapping; and was sampled and investigated through laboratory analyses including determination of organic matter, total carbon and nitrogen contents, soil colour identification, texture analysis, magnetic susceptibility measurement, metal content analysis using X-ray fluorescence analyzer and pH measurement. The compaction and cementation of soil horizons was assessed in situ with a pocket penetrometer.Results show a small-scale mosaic of soils developed on fluvio-aeolian, limnic and aeolian sediments, high spatial variations in pedogenesis due to varying groundwater influence and intensity of horizontal and vertical leachate transport, and high variations in the erosion or conservation of fossil soils. The soil and sediment stratigraphy reflects several phases of landscape development: i) the formation of a Late Pleistocene soil on fluvio-aeolian deposits, ii) a fossilization by aeolian sands, iii) a stability phase with intensive podsolization and peat formation, and iv) a land use-induced aeolian remobilization of the sands.

Published

2022

4. Initial processes of soil formation on Relict Charcoal Hearths (RCHs) in the Tauer Forest (Brandenburg, Germany)

Author

Alexandra Raab, Minhye Kim, Alexander Bonhage, Anna Schneider, Thomas Raab, and Albrecht Bauriegel

Abstract

In the Tauer Forest, a woodland area north of the city of Peitz (Brandenburg, Germany), extensive charcoal burning was carried out from the mid-16th century to the mid-19th century resulting in numerous Relict Charcoal Hearths (RCHs). The most prominent feature of the soils on RCHs is the anthropogenically modified 20-30 cm thick RCH substrate that buries the former forest soil. The RCH substrate is a quite heterogenous mixture of mineral and organic compounds which were modified through heat during charring. It is characterized by its black color resulting from charcoal fragments (from fine dust to decimetre size pieces), lower bulk density, and higher porosity.After their use, the charcoal production sites were abandoned and soon became overgrown. Soil formation could commence in this anthropogenically modified RCH substrate. During recently conducted field work on RCHs in the Tauer Forest we detected features of initial podzolisation (bleaching of quartz grains) within this RCH substrate. To further investigate initial processes of soil formation (acidification, podzolisation, accumulation of soil organic matter) on RCHs, two different RCH sites were selected in the Tauer Forest: one RCH site in the forest district Tannenwald and one RCH site in the forest district Kleinsee.The Tannenwald site (RCH no. 29958) is situated in the western part of the Tauer Forest. It is an inland dune area with a coniferous forest (Scots pine, Pinus sylvestris L.) plantation. The forest soils are Podzols and the soils on the RCHs are classified as Spolic Technosols. The dense undergrowth consists of mainly blueberry (Vaccinium L.). Dendrochronological ages (determination by K-U Heußner, DAI Berlin) of charcoal pieces proof, that the charcoal hearth was used after 1655.The Kleinsee site (RCH no. 29424) is situated in the eastern part of the Tauer Forest. The parent material is sand from glaciofluvial sediments of the Weichselian glaciation. The forest soils are Brunic Arenosols (Protospodic) and the soils on the RCHs are classified as Spolic Technosols (Arenic). The deciduous forest is dominated by sessile oak (Quercus petraea (Matt.) Liebl.). The undergrowth is only scarce with some ferns (sporadic), blueberry (Vaccinium L.), some shoots of rowan (Sorbus aucuparia L.) and some moss. There is no dendrochronological age available from the RCH, but RCHs nearby were dated from the 18th to the 19th centuries.At both sites, three soil monoliths were sampled on the RCH platform and three monoliths from the natural forest soil as reference soils. The soil monoliths were sampled continuously in 3 cm vertical spacings. Following lab analyses were carried out: pH (CaCl2), pH (H2O), total carbon (TC), total nitrogen (TN), CECeff and total concentrations of selected elements. Analyses of pedogenic Fe are in progress. First results of these study will be presented and discussed.

Published

2022

5. The occurrence, soil parameters and genesis of rubified soils (‘Fuchserden’) of northeastern Germany

Author

Alexander Bonhage, Stella Gypser, Albrecht Bauriegel, Florian Hirsch, Anna Schneider, Alexandra Raab, and Thomas Raab

Subjects

Soil map, Goethite, 010504 meteorology & atmospheric sciences, Earth science, Maghemite, 04 agricultural and veterinary sciences, Hematite, engineering.material, 01 natural sciences, Pedogenesis, visual_art, Soil water, World Reference Base for Soil Resources, 040103 agronomy & agriculture, visual_art.visual_art_medium, engineering, 0401 agriculture, forestry, and fisheries, Soil parameters, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

The local occurrence of red subsoils on the Late Pleistocene sandy deposits of the Northern European lowlands invites investigation into the formation and paleoenvironmental significance of these soils. According to the World Reference Base for Soil Resources (WRB), these soils are classified as Rhodic Brunic Arenosols or Chromic Brunic Arenosols; however, because of their unclear origins, these soils are still not considered in the German Guidelines for Soil Mapping. We aim to characterize the genesis of these rubified soils by combining pedological findings with chemical analyses and micromorphological studies at four sites in southeastern Brandenburg, Germany. Our novel analytical approach differentiates pedogenic iron (hydr-)oxides using a combination of Fourier transform infrared-multiple internal reflection (FTIR-MIR) spectroscopy and sequential sample heating (from 21 °C to 100 °C, 250 °C, 500 °C, and 950 °C). Together with a comparison of synthetic iron (hydr-)oxides, the results of this analytical approach demonstrate that the mineralogy of these Rhodic Brunic Arenosols and Chromic Brunic Arenosols are characterized mainly by hematite; some goethite and minor amounts of maghemite are also present. Our results confirm recent findings from Jankowski (2013) that rubification is not primarily a relict process in Central European soils; consequently, the German Guidelines for Soil Mapping require revision. The high total iron contents in the rubified soils suggest strongly that the iron is allochthonous in origin, emphasizing the importance of lateral inputs of iron compounds in the genesis of these soils. This finding is highly consistent with the ‘translocation catena’ concept ( Sommer and Schlichting, 1997 ); i.e., the Rhodic Brunic Arenosols and Chromic Brunic Arenosols studied here formed due to inputs of allochthonous compounds. These rubified soils examined in this study share some genetic features with other soils described from Central Europe, such as the ‘Lockerbraunerden’ or the ‘Ockererden’. Further research should focus on these commonalities and compare the genetic pathways of such soils to support the argument that these soils should be considered in a separate soil class in the German Guidelines for Soil Mapping.

Published

2019

6. Rare earth elements in soil profiles of various ecosystems across Germany

Author

Julia Mihajlovic, Hans-Joachim Stärk, Jutta Zeitz, Albrecht Bauriegel, Jörg Rinklebe, Gerhard Milbert, and Niko Roßkopf

Subjects

chemistry.chemical_classification, Sorption, 010501 environmental sciences, 010502 geochemistry & geophysics, Soil type, 01 natural sciences, Pollution, chemistry.chemical_compound, chemistry, Geochemistry and Petrology, Environmental chemistry, Soil water, Histosol, Environmental Chemistry, Environmental science, Aqua regia, Organic matter, Ecosystem, Clay minerals, 0105 earth and related environmental sciences

Abstract

Rare earth elements (REEs) are of emerging interest. In the environment, they occur in minerals, however, they are also used in many key technologies and in agriculture. In consequence, REEs are released into the environment and have thus an impact on it. However, our knowledge regarding REEs in soils is incomplete. We selected eight soil profiles across Germany aiming to determine REE contents (aqua regia) and potential mobilization (hydroxylammonium chloride and hot water extractable) and to explore relations between REEs and soil properties. The composition of the parent material strongly influenced by the ice ages during the Pleistocene (especially in northeastern Germany) is a crucial factor differentiating the content of REEs in our studied soils. The silty, clayey soils in the western part of Germany possessed higher REE contents than the sandy and peaty soils in the northeast (average REE content Cambisols: 825 μmol kg−1, Retisols: 407 μmol kg−1, Arenosol 180 μmol kg−1, Histosols 122 μmol kg−1) because REE can adsorb onto clay minerals. The characteristic soil genetic processes of each soil type were reflected by the vertical distribution of the REE content. The vertical distribution of REEs and the hydroxylammonium chloride-extractable REE contents were mainly controlled by Al, Fe, Mn and their oxides (additional to clay) which provide important sorption sites for REEs. High contents of clay, Al/Fe/and Mn oxides caused high REE contents. The hydroxylammonium chloride-extractable REE contents varied in average from 266 to 8 μmol kg−1 in the soils. The hot water extractable REE contents (in average 0.94 μmol kg−1) tended to be higher in horizons which were rich in organic matter. In future, mechanistic experiments concerning the dynamics of REE mobilization should be performed as well as monitoring in plants and wildlife to improve our knowledge about REEs in the environment.

Published

2019

7. Relationship between electrical conductivity and water content of peat and gyttja: implications for electrical surveys of drained peatlands

Author

Albrecht Bauriegel, Jutta Zeitz, Erika Lück, Christian Heller, and J. Walter

Subjects

Peat, 010504 meteorology & atmospheric sciences, Soil science, 010502 geochemistry & geophysics, 01 natural sciences, Decomposition, Coring, Geophysics, Electrical resistivity and conductivity, Electrical resistivity tomography, Water content, Geology, Groundwater, 0105 earth and related environmental sciences, Gyttja

Abstract

The application of electrical resistivity tomography to peatlands supports conventional coring by providing data on the current condition of peatlands, including data on stratigraphy, peat properties and thickness of organic deposits. Data on the current condition of drained peatlands are particularly required to improve estimates of carbon storage as well as losses and emissions from agriculturally used peatlands. However, most of the studies focusing on electrical resistivity tomography surveys have been conducted on natural peatlands with higher groundwater levels. Peatlands drained for agriculture have not often been studied using geophysical techniques. Drained sites are characterized by low groundwater levels and high groundwater fluctuations during the year, which lead to varying levels of water saturation. To validate better electrical resistivity tomography surveys of drained peatlands, the aim of this laboratory study is to investigate the influence of varying water saturation levels on electrical conductivity (reciprocal of resistivity) for a variety of peat and gyttja types, as well as for different degrees of peat decomposition. Results show that different levels of water saturation strongly influence bulk electrical conductivity. Distinct differences in this relationship exist between peat and gyttja substrates and between different degrees of peat decomposition. Peat shows an exponential relationship for all degrees of decomposition, whereas gyttja, in particular organic‐rich gyttja, is characterized by a rather unimodal relationship. The slopes for the relationship between electrical conductivity and water content are steeper at high degrees of decomposition than for peat of low degrees of decomposition. These results have direct implications for field electrical resistivity tomography surveys. In drained peatlands that are strongly susceptible to drying, electrical resistivity tomography surveys have a high potential to monitor the actual field water content. In addition, at comparable water saturations, high or low degrees of decomposition can be inferred from electrical conductivity.

Published

2019

8. Seasonal dynamics of soil salinity in peatlands: A geophysical approach

Author

M. Facklam, J. Walter, Jutta Zeitz, Albrecht Bauriegel, and Erika Lück

Subjects

Hydrology, Topsoil, Soil salinity, Soil Science, Soil science, 04 agricultural and veterinary sciences, 010502 geochemistry & geophysics, 01 natural sciences, Salinity, Soil water, 040103 agronomy & agriculture, Cation-exchange capacity, 0401 agriculture, forestry, and fisheries, Soil horizon, Environmental science, Water content, Groundwater, 0105 earth and related environmental sciences

Abstract

Inland salt meadows are particularly valuable ecosystems, because they support a variety of salt-adapted species (halophytes). They can be found throughout Europe; including the peatlands of the glacial lowlands in northeast Germany. These German ecosystems have been seriously damaged through drainage. To assess and ultimately limit the damages, temporal monitoring of soil salinity is essential, which can be conducted by geoelectrical techniques that measure the soil electrical conductivity. However, there is limited knowledge on how to interpret electrical conductivity surveys of peaty salt meadows. In this study, temporal and spatial monitoring of dissolved salts was conducted in saline peatland soils using different geoelectrical techniques at different scales (1D: conductivity probe, 2D: conductivity cross-sections). Cores and soil samples were taken to validate the geoelectrical surveys. Although the influence of peat on bulk conductivity is large, the seasonal dynamics of dissolved salts within the soil profile could be monitored by repeated geoelectrical measurements. A close correlation is observed between conductivity (~ salinity) at different depths and temperature, precipitation and corresponding groundwater level. The conductivity distribution between top- and subsoil during the growing season reflected the leaching of dissolved salts by precipitation and the capillary rise of dissolved salts by increasing temperature (~ evaporation). Groundwater levels below 0.38 cm resulted in very low conductivities in the topsoil, which is presumably due to limited soil moisture and thus precipitation of salts. Therefore, to prevent the disappearance of dissolved salts from the rooting zone, which are essential for the halophytes, groundwater levels should be adjusted to maintain depths of between 20 and 35 cm. Lower groundwater levels will lead to the loss of dissolved salts from the rooting zone and higher levels to increasing dilution with fresh rainwater. The easy-to-handle conductivity probe is an appropriate tool for salinity monitoring. Using this probe with regressions adjusted for sandy and organic substrates (peat and organic gyttja) additional influences on bulk conductivity (e.g. cation exchange capacity, water content) can be compensated for and the correlation between salinity and electrical conductivity is high.

Published

2018

9. Classification of pedogenic cementation in Podzols by pocket penetrometry

Author

Albrecht Bauriegel, Thomas Raab, Florian Hirsch, and Sebastian Heller

Subjects

Soil map, 010504 meteorology & atmospheric sciences, Soil Science, Soil morphology, Soil science, 04 agricultural and veterinary sciences, Plant Science, Cementation (geology), 01 natural sciences, Podzol, Pedogenesis, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Soil horizon, Geology, 0105 earth and related environmental sciences, USDA soil taxonomy

Abstract

According to the German Soil Taxonomy, the formation of cemented horizons in Podzols is restricted to the precipitation of iron oxides. However, in iron-poor sandy substrates, also illuviation of only organic compounds can form cemented horizons with penetration resistances of up to 14 kg cm−2. We present a reproducible field test for classifying pedogenic cementation in Podzols and suggest considering cemented horizons (Bmh and Bhm) in the upcoming edition of the Guidelines for Soil Mapping.

Published

2017

10. Estimating vulnerability of agriculturally used peatlands in north-east Germany to carbon loss based on multi-temporal subsidence data analysis

Author

Holger Fell, Jutta Zeitz, Niko Roßkopf, and Albrecht Bauriegel

Subjects

Hydrology, geography, Peat, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Land management, chemistry.chemical_element, Subsidence, 04 agricultural and veterinary sciences, 01 natural sciences, Grassland, chemistry, Soil retrogression and degradation, Soil water, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Arable land, Carbon, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Agriculturally used peatlands are prone to carbon loss and soil degradation. The intensity of the underlying processes differs locally with respect to land management practices as well as hydro-geomorphic setting and soil conditions. A reliable assessment of the site specific vulnerability to carbon loss is important information to enable effective and precise agricultural and environmental policy. In the frame of a research project to derive an updated map of peatland soils for the Federal State of Brandenburg, located in the North-East of Germany, 7725 soil investigations on peatland sites were carried out thereof 3729 were suitable for peatland subsidence analyses. These data, together with extensive legacy data consisting of approx. 246,650 soil profiles, allow for robust carbon loss estimations based on peatland subsidence records. Observed carbon losses amount to 0.234 kg/m 2 ∗ yr at (presently) uncultivated sites, 0.562 kg/m 2 ∗ yr for grassland and 0.645 kg/m 2 ∗ yr for arable land. These figures agree well with recently published data for similar landscapes and land management practices. Taking into account additional information on the initial peat thickness, the type of underlying substrate and the presence or absence of a mineral top layer, a robust site-specific assessment of vulnerability to carbon loss for agriculturally used peatlands has been done. It is shown that > 50% of agriculturally used peatlands in Brandenburg are characterized by medium or high vulnerability to carbon loss.

Published

2016

11. Multi-scale analysis of electrical conductivity of peatlands for the assessment of peat properties

Author

C. Richter, J. Walter, Erika Lück, Jutta Zeitz, and Albrecht Bauriegel

Subjects

Scale analysis (statistics), Peat, chemistry, Soil organic matter, Cation-exchange capacity, Soil Science, Mineralogy, chemistry.chemical_element, Conductivity, Water content, Carbon, Bulk density

Abstract

Summary Peatlands store large amounts of carbon. This storage function has been reduced through intensive drainage, which leads to the decomposition of peat, resulting in a loss of carbon. Measurements of the real (σ′) and imaginary part (σ″) of electrical conductivity can deliver information on peat properties, such as the pore fluid conductivity (σw), cation exchange capacity (CEC), bulk density (ρb), water content (WC) and soil organic matter (SOM) content. These properties change with the peat's degree of decomposition (DD). To explore the relationships between the peat properties, σ′, σ″ and DD, we focused on three different types of survey and scales. First, point measurements were made with a conductivity probe at various locations over a large area of northeast Germany to determine the degree of correlation between σ′ and DD. Second, nine of these locations were selected for sampling to determine which of the properties σw, CEC, ρb, WC and SOM predominantly influence σ′ and σ″. This multisite dataset includes the entire range of DD and was analysed in the laboratory. Third, one site was selected for a survey of σ′ including sampling, to identify which properties mainly control σ′ in a single-site approach. Statistical analysis revealed that for the multisite laboratory dataset, σw has the strongest effect on σ′, followed by CEC, whereas σ″ is mainly determined by CEC. In a single-site approach, WC followed by CEC had a dominant effect on σ′. No clear correlation could be observed between (i) DD and peat properties and (ii) DD and σ′ or σ″. This is because of the complex changes in properties with increasing DD.

Published

2015

12. Opencast mines in South Brandenburg (Germany)—archives of Late Quaternary landscape development and human-induced land use changes

Author

Alexander Nicolay, Horst Rösler, Florian Hirsch, Albrecht Bauriegel, Thomas Raab, Melanie Takla, and Alexandra Raab

Subjects

010506 paleontology, Archeology, Land use, Geoarchaeology, business.industry, Outcrop, 04 agricultural and veterinary sciences, Woodland, 01 natural sciences, Archaeology, Geography, Agriculture, Anthropology, visual_art, 040103 agronomy & agriculture, visual_art.visual_art_medium, 0401 agriculture, forestry, and fisheries, Quaternary, Landscape history, Charcoal, business, 0105 earth and related environmental sciences

Abstract

This study outlines the opportunities for geoarchaeological research in active opencast lignite mines in southern Brandenburg (Germany). Studies on extensive outcrops that address both archaeology and soil geomorphology, combined with a geographical information system (GIS) approach, provide unique insights into human-induced environmental changes in Lower Lusatia and generally improve our understanding of landscape dynamics. We present the most recent results from three case studies and review important findings from the last several years. Studies conducted in opencast mines of Cottbus-Nord and Janschwalde focus on (i) Late Quaternary geomorphodynamics and soil development and (ii) past land use and the legacy of agriculture and woodland use. Our results are similar to those in other regions in Central Europe, but we also observe regional differences caused by the local setting, e.g. intensification of soil erosion coinciding with the expansion of farming of cultivated lands in the Slavic Middle Ages. Our research reveals the largest archaeologically investigated area of historical charcoal production in the Northern European Lowland (NEL). We are clearly only beginning to understand the massive dimensions of charcoal production in the region.

Published

2015

13. Distribution and genesis of Fahlerden (Albeluvisols) in Germany

Author

Peter Kühn, Dieter Kühn, Konrad Billwitz, Wolf Eckelmann, and Albrecht Bauriegel

Subjects

geography, geography.geographical_feature_category, Feature (archaeology), Geochemistry, Soil Science, Soil classification, Soil science, Plant Science, Albeluvisols, Vegetation, Humus, Pedogenesis, Moraine, Glacial period, Geology

Abstract

Fahlerden dominate large areas of the young and old moraine landscapes of N and E Germany. Fahlerden (part of Fahlerden corresponds to Albeluvisols) and their transitional subtypes are supposed to have a higher intensity of clay illuviation than Parabraunerden (Luvisols). Besides this macroscopic feature reflecting periglacial influence, micromorphological features such as lenticular platy microstructure, vesicles, and fragments of clay coatings in Bt streaks document the initiation of Fahlerde genesis, which began in the Late Glacial. A model of Fahlerde genesis chronologically connects sedimentological and periglacial processes, vegetation development, and soil-forming processes like decalcification, clay illuviation, and humification. The classification criterion of larger differences in clay contents between E and Bt horizons to distinguish Fahlerden from Parabraunerden needs to be reconsidered, because most Fahlerden have developed in stratified parent material in periglacially influenced landscapes. The interpretation of a soil data base listing data of both soil types distributed in Brandenburg demonstrates that the difference in clay contents between E and Bt horizons may even be smaller in Fahlerden than in Parabraunerden.

Published

2006