@misc{RaabBonhageVerschoofvanderVaartetal., author = {Raab, Thomas and Bonhage, Alexander and Verschoof-van der Vaart, Wouter and Malik, Ireneusz and Raab, Alexandra and Schneider, Anna and Chauhan, Jai Singh and Thekkethala, Jeenus Joby}, title = {Soils on mining relicts in Upper Silesia, Poland - first results from the Mala Panew River catchment and the UNESCO heritage site Tarnowskie G{\´o}ry}, series = {EGU General Assembly 2022, Vienna, Austria, 23-27 May 2022}, journal = {EGU General Assembly 2022, Vienna, Austria, 23-27 May 2022}, doi = {10.5194/egusphere-egu22-969}, abstract = {The mining region of Upper Silesia has a long tradition with international significance. In 2017, the historic silver mine in Tarnowsky Gory was recognized as a UNESCO World Heritage Site. With the mining of galena (PbS), the region developed into one of the most important industrial centers in Central Europe in the 16th century. In addition to the underground galleries, the historical mining has left thousands of mining shafts as small relief forms, which have not been systematically investigated so far. Partly the mining shafts are associated with Relict Charcoal Hearths (RCH), another small form which is a result of charcoal production. In the Mala Panew River valley, north of Tarnowsky Gory, several tens of thousands of these RCH are found, which could be mapped by LiDAR in recent years. More detailed pedological investigations, which would allow a systematic comparison with other known RCH sites, are missing so far. Within the framework of a Polish-German cooperation project, we started in 2021 to investigate the mining shafts and the RCH in Tarnowsky Gory and in the Mala Panew River valley from a pedological-sedimentological point of view. At the RCH sites on the Mala Panew River, we focused on the following questions: How was the soil stratigraphy changed by the RCH construction? What are main processes of soil development before and after RCH construction? What was the role of the pits surrounding the RCH? How do the sites differ from the RCHs at Tarnowsky Gory especially with respect to soil properties and soil genesis? In Tarnowsky Gory, where a RCH was excavated directly next to a mining shaft, the following questions were in focus: How did the mining activity change soil distribution and soil properties? What are main processes of soil development on the different parts? What is the origin of the pit infill? What is the origin of the shaft rim deposits? Our work program included the construction of excavator trenches across the mining remains, construction, description and sampling of soil profiles along the trenches, schematic drawing of the soil stratigraphy, and laboratory analyses for the determination of texture, Munsell color, pH (CaCl2, H20), CaCO3 content, Ctotal \& Ntotal and total elements by FPXRF. We present the first results of the ongoing investigations.}, language = {en} } @misc{RaabRaabBonhageetal., author = {Raab, Thomas and Raab, Alexandra and Bonhage, Alexander and Schneider, Anna and Hirsch, Florian and Birkhofer, Klaus and Drohan, Patrick J. and Wilmking, Martin and Kreyling, J{\"u}rgen and Malik, Ireneusz and Wistuba, Małgorzata and Maaten, Ernst van der and Maaten-Theunissen, Marieke van der and Urich, Tim}, title = {Do small landforms have large effects? A review on the legacies of pre-industrial charcoal burning}, series = {Geomorphology}, volume = {413}, journal = {Geomorphology}, issn = {0169-555X}, doi = {10.1016/j.geomorph.2022.108332}, pages = {16}, abstract = {Relict charcoal hearths (RCHs) are small, anthropogenic landforms resulting from past charcoal burning and reaching significant land coverage in pre-industrial mining areas. We review three coupled legacies linked by RCH development: (i) a landscape-scale geomorphic effect, (ii) a unique soil fingerprint, and (iii) an evolving novel ecosystem. The history and technique of charcoal production are described to clarify legacy effects. Applying a recently presented morpho-genetic catalogue is useful for classified mapping of RCH findings. The RCH numbers and calculated RCH densities per study region vary greatly and impose uncertainties due to insufficient methods causing over- or underestimations. Areas with high RCH densities between 50 and 500 RCH/km2 seem reasonable. Machine learning-based remote sensing techniques are promising approaches with which to better assess the full scale of charcoal burning legacies. RCH soil properties feature dark charcoal-rich technogenic substrate layers classified as Auh horizons according to the World Reference Base with significantly increased C contents. These Auh horizons can also exhibit specific physical and chemical properties, such as relatively low bulk density, high porosity, high plant available water content, low thermal conductivity and differences in cation exchange capacity or nutrient status. However, relevant studies are rare, and thus, the effects may differ by study region. Regarding vegetation, there seem to be four main effects: changes in forest structure, species composition, recruitment pattern and productivity. The number of studies on this issue is, however, also very limited. Even fewer studies have examined the soil fauna in RCHs; thus, the reported effects cannot be used to draw general conclusions. Notably, RCH research has made considerable progress in the last five years, especially in the Light Detection and Ranging-based mapping of these small landforms and identification of RCH-specific soil properties, but ecological legacies are not well understood; thus, more interdisciplinary and integrative studies are needed.}, language = {en} } @misc{MalikBohrWistubaetal., author = {Malik, Ireneusz and Bohr, Marcin and Wistuba, Małgorzata and Raab, Thomas and Bonhage, Alexander and Verschoof-van der Vaart, Wouter and Raab, Alexandra and Woskowicz-Ślęzak, Beata}, title = {Multi-Period Ore Exploitation in Upper Silesia, Central Europe}, series = {Journal of Field Archaeology}, volume = {48}, journal = {Journal of Field Archaeology}, number = {5}, issn = {0093-4690}, doi = {10.1080/00934690.2023.2200583}, pages = {366 -- 379}, language = {en} } @misc{RaabBonhageSchneideretal., author = {Raab, Thomas and Bonhage, Alexander and Schneider, Anna and Raab, Alexandra and Verschoof-van der Vaart, Wouter and Malik, Ireneusz and Chauhan, Jai Singh and Thekkethala, Jeenus Joby}, title = {Soil distribution and properties on mining relicts in Upper Silesia, Poland - first results from the Mala Panew River catchment and the UNESCO heritage site Tarnowskie G{\´o}ry}, series = {Jahrestagung der Deutschen Bodenkundlichen Gesellschaft, Einladung und Programm Halle (Saale), 2.-8. September 2023}, journal = {Jahrestagung der Deutschen Bodenkundlichen Gesellschaft, Einladung und Programm Halle (Saale), 2.-8. September 2023}, language = {en} } @misc{RaabRaabBonhageetal., author = {Raab, Thomas and Raab, Alexandra and Bonhage, Alexander and Schneider, Anna and Drohan, Patrick J. and Wistuba, Małgorzata and Malik, Ireneusz and Verschoof-van der Vaart, Wouter}, title = {Small anthropogenic landforms from past land use - what have we (already) learned and what do we (still) want to know}, series = {DGGM Meeting 2023 Conference proceedings 04.-06.10.2023, RWTH Aachen}, journal = {DGGM Meeting 2023 Conference proceedings 04.-06.10.2023, RWTH Aachen}, pages = {S. 61}, language = {de} } @misc{BonhageRaabRaabetal., author = {Bonhage, Alexander and Raab, Thomas and Raab, Alexandra and Schneider, Anna and Malik, Ireneusz and Wistuba, Malgorzata and Verschoof-van der Vaart, Wouter}, title = {Land use legacy landforms at the UNESCO Heritage Site Tarnowskie G{\´o}ry, Upper Silesia, Poland : stratigraphy, soils and age}, series = {Geoarchaeology}, volume = {40}, journal = {Geoarchaeology}, number = {1}, publisher = {Wiley}, issn = {1520-6548}, doi = {https://doi.org/10.1002/gea.22028}, pages = {1 -- 8}, abstract = {Metallurgy in Upper Silesia (Poland) has a long tradition of international significance, which was emphasized in 2017 when the historic silver mine in Tarnowskie G{\´o}ry was inscribed as a UNESCO World Heritage site. The area consists of various anthropogenic landforms, the stratigraphy of which has hardly been studied so far. In this study, we describe five main morphological units: Unit I (RCH) and Unit II (RCH pit), resulting from charcoal production; Unit III (shaft) and Unit IV (shaft heap), resulting from mining; and Unit V (reference forest soil). The first four units are a variation of a Technosol with inherently different properties from the reference forest soil. Unit I exhibits typical properties of a relict charcoal hearth (RCH), whereas Unit II resembles a pit. Unit III consists of a mostly infilled mining shaft remain (MSR), characterized by relocated subsoil. Unit IV consists of material from the adjacent Unit III that has been dumped directly aside. The studied RCH was used no earlier than during the second half of the 17th century, probably between 1725 and 1813. The studied MSR was used most likely between the 3rd and 5th centuries, which is much older than described so far. Together, the units reflect the characteristic heterogeneity of soils in shaft mining and RCH areas.}, language = {en} }