Steffen Schlüter
Helmholtz Centre for Environmental Research - UFZ
114 Papers
156 Citations
Steffen Schlüter is an academic researcher from Helmholtz Centre for Environmental Research - UFZ. The author has contributed to research in topics: Soil structure & Soil water. The author has an hindex of 28, co-authored 83 publications. Previous affiliations of Steffen Schlüter include German Center for Neurodegenerative Diseases & Oregon State University.
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Papers
Maize root-induced biopores do not influence root growth of subsequently grown maize plants in well aerated, fertilized and repacked soil columns
Maxime Phalempin,Magdalena Landl,Gi-Mick Wu,Andreas Schnepf,Doris Vetterlein,Steffen Schlüter +5 more
TL;DR: In this article , the authors developed a method based on the analysis of X-ray CT 3D images which enabled them to characterize the degree of biopore recycling for root-induced biopores down to 60 µm of diameter.
An Open Soil Structure Library based on X-ray CT data
Ulrich Weller,Lukas Albrecht,Steffen Schlüter,Hans-Jörg Vogel,Hans-Jörg Vogel +4 more
- 20 Sep 2021
TL;DR: An open access Soil Structure Library is introduced which offers well-defined soil structure analyses for X-ray CT data sets uploaded by interested scientists and can be harnessed towards data mining and development of soil structure based pedotransfer functions.
Moderate effects of distance to air-filled macropores on denitrification potentials in soils
Hester van Dijk,Maik Geers-Lucas,S. Henjes,Lena Rohe,H.-J. Vogel,Marcus A. Horn,Steffen Schlüter +6 more
Selective transport and retention of organic matter and bacteria shapes initial pedogenesis in artificial soil - A two-layer column study
Katharina Lehmann,Sabine Schaefer,Doreen Babin,John Maximilian Köhne,Steffen Schlüter,Kornelia Smalla,Hans-Jörg Vogel,Kai Uwe Totsche +7 more
TL;DR: In this article, the authors studied the interplay of the multitude of processes that control the mobilization, transport, and retention of organic matter (MOM) in a young, unstructured soil with defined initial composition.
Macroaggregates of loam in sandy soil show little influence on maize growth, due to local adaptations of root architecture to soil heterogeneity
TL;DR: In this paper , the effect of heterogeneity on root system architecture of maize in response to the presence of loamy macroaggregates, which come along with both, increased penetration resistance and nutrient availability, is investigated.