@misc{orgprints35361,
           pages = {224--237},
         journal = {Soil \& Tillage Research},
          volume = {191},
          author = {Evelin Pihlap and Miljenka Vuko and Maik Lucas and Markus Steffens and Michael Schloter and Doris Vetterlein and Manuel Endenich and Ingrid K{\"o}gel-Knabner},
            year = {2019},
           title = {Initial soil formation in an agriculturally reclaimed open-cast mining area - the role of management and loess parent material},
        keywords = {Soil development, Macroporosity, Soil organic carbon, Microbial abundance, Aggregation, CaCO3, tillage},
             url = {https://orgprints.org/id/eprint/35361/},
        abstract = {After reclamation of open-cast mining pits, soil formation starts from the deposited calcareous loess characterised by its basic physical and chemical properties whereas soil biology and structure need to develop to achieve a fully functional soil. In this study we used a chronosequence approach to elucidate soil formation on agriculturally reclaimed loess soils in an open-cast lignite mining area in Garzweiler (Germany). We selected six fields aged 0, 1, 3, 6, 12, and 24 years after the first seeding in order to observe the initial stage of development of soil properties and assess the role of management with conventional crop rotation in soil structure formation and soil organic carbon (SOC) accumulation. Loess parent material had a strong impact on aggregation, as CaCO3 acted as a strong cementing agent. Alfalfa cultivation in the pioneering phase was of high importance in the development of microbial biomass, as it protects microbes from N limitation. Soil macroporosity and pore connectivity increased only after compost application and ploughing during agricultural crop rotation. Soil organic matter (SOM) build-up was strongly dependent on the addition of compost, as crop residues from conventional crop rotation are not sufficient to maintain high SOC contents.}
}