Rolf Schmidt scite author profile

Understanding the linkages between structure and processes in soil landscapes involves analyses across several spatial and temporal scales. The transfer of information between scales requires the (1) identification of respective scale levels and (2) procedures for regionalization. Here, we present a multiparameter delineation of landform units and their attribution with typical Reference Soil Groups (RSG) of a landscape of NE Germany which is representative of young moraine regions. Data sources are a digital elevation model (DEM, 5 m × 5 m), a reference data set from sections of an intensively augered landscape, and expert knowledge. A conceptual digital soil map was constructed in the scale 1:5000 based on the Topographic Position Index (TPI). The methodology is applicable for multiscale analyses. Results are (1) the landform unit classified by digital terrain analysis of a DEM, (2) the attribution of RSG, and (3) the evaluation of the classification. Accuracy of the method was 57% overall, with 70% accuracy on typical erosional sites. The developed method allows identification of terrain‐related soil pattern with high spatial resolution in glacial‐drift areas. The high resolution of soil information can be used for delineation of management zones in precision farming, or as input for process studies and models requiring a translation of typological soil information into relevant soil properties (e.g., by pedotransfer functions).

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The effect of surface films on the air–sea gas exchange in the Baltic Sea

Schmidt

Schneider

2011

Marine Chemistry

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Forest cover changes in the Prignitz region (NE Germany) between 1790 and 1960 in relation to soils and other driving forces

Wulf

Sommer

Schmidt³

2009

Landscape Ecol

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Potential nitrate pollution of groundwater in Germany: A supraregional differentiated model

Wendland¹,

Albert

Bach

et al. 1994

Env Geol

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Zur Transitivit�t der normalen Flachheit

Herrmann¹,

Schmidt

1975

Invent Math

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Rolf Schmidt

A multiscale soil–landform relationship in the glacial‐drift area based on digital terrain analysis and soil attributes

The effect of surface films on the air–sea gas exchange in the Baltic Sea

Forest cover changes in the Prignitz region (NE Germany) between 1790 and 1960 in relation to soils and other driving forces

Potential nitrate pollution of groundwater in Germany: A supraregional differentiated model

Zur Transitivit�t der normalen Flachheit

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