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Dr. Detlef Deumlich
Dr. agr.

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0 Landscape Analysis
0 soil erosion
0 Water Erosion Modelling
0 sustainable landscape development
0 rain erosivity

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soil erosion

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Journal article
Published: 09 July 2020 in Water
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Climate change is expected to affect the occurrence of heavy rainfall. We analyzed trends of heavy rainfall days for the last decades in Germany. For all available stations with daily data, days exceeding daily thresholds (10, 20, 30 mm) were counted annually. The Mann–Kendall trend test was applied to overlapping periods of 30 years (1951–2019). This period was extended to 1901 for 111 stations. The stations were aggregated by natural regions to assess regional patterns. Impacts of data inconsistencies on the calculated trends were evaluated with the metadata and recent hourly data. Although the trend variability depended on the chosen exceedance threshold, a general long-term trend for the whole of Germany was consistently not evident. After 1951, stable positive trends occurred in the mountainous south and partly in the northern coastal region, while parts of Central Germany experienced negative trends. The frequent location shifts and the recent change in the time interval for daily rainfall could affect individual trends but were statistically insignificant for regional analyses. A case study supported that heavy rains became more erosive during the last 20 years. The results showed the merit of historical data for a better understanding of recent changes in heavy rainfall.

ACS Style

Detlef Deumlich; Andreas Gericke. Frequency Trend Analysis of Heavy Rainfall Days for Germany. Water 2020, 12, 1950 .

AMA Style

Detlef Deumlich, Andreas Gericke. Frequency Trend Analysis of Heavy Rainfall Days for Germany. Water. 2020; 12 (7):1950.

Chicago/Turabian Style

Detlef Deumlich; Andreas Gericke. 2020. "Frequency Trend Analysis of Heavy Rainfall Days for Germany." Water 12, no. 7: 1950.

Journal article
Published: 02 April 2020 in Remote Sensing
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The Normalized Difference Vegetation Index (NDVI), has been increasingly used to capture spatiotemporal variations in cover factor (C) determination for erosion prediction on a larger landscape scale. However, NDVI-based C factor (Cndvi) estimation per se is sensitive to various biophysical variables, such as soil condition, topographic features, and vegetation phenology. As a result, Cndvi often results in incorrect values that affect the quality of soil erosion prediction. The aim of this study is to multi-temporally estimate Cndvi values and compare the values with those of literature values (Clit) in order to quantify discrepancies between C values obtained via NDVI and empirical-based methods. A further aim is to quantify the effect of biophysical variables such as slope shape, erodibility, and crop growth stage variation on Cndvi and soil erosion prediction on an agricultural landscape scale. Multi-temporal Landsat 7, Landsat 8, and Sentinel 2 data, from 2013 to 2016, were used in combination with high resolution agricultural land use data of the Integrated Administrative and Control System, from the Uckermark district of north-eastern Germany. Correlations between Cndvi and Clit improved in data from spring and summer seasons (up to r = 0.93); nonetheless, the Cndvi values were generally higher compared with Clit values. Consequently, modelling erosion using Cndvi resulted in two times higher rates than modelling with Clit. The Cndvi values were found to be sensitive to soil erodibility condition and slope shape of the landscape. Higher erodibility condition was associated with higher Cndvi values. Spring and summer taken images showed significant sensitivity to heterogeneous soil condition. The Cndvi estimation also showed varying sensitivity to slope shape variation; values on convex-shaped slopes were higher compared with flat slopes. Quantifying the sensitivity of Cndvi values to biophysical variables may help improve capturing spatiotemporal variability of C factor values in similar landscapes and conditions.

ACS Style

Dawit A. Ayalew; Detlef Deumlich; Bořivoj Šarapatka; Daniel Doktor. Quantifying the Sensitivity of NDVI-Based C Factor Estimation and Potential Soil Erosion Prediction using Spaceborne Earth Observation Data. Remote Sensing 2020, 12, 1136 .

AMA Style

Dawit A. Ayalew, Detlef Deumlich, Bořivoj Šarapatka, Daniel Doktor. Quantifying the Sensitivity of NDVI-Based C Factor Estimation and Potential Soil Erosion Prediction using Spaceborne Earth Observation Data. Remote Sensing. 2020; 12 (7):1136.

Chicago/Turabian Style

Dawit A. Ayalew; Detlef Deumlich; Bořivoj Šarapatka; Daniel Doktor. 2020. "Quantifying the Sensitivity of NDVI-Based C Factor Estimation and Potential Soil Erosion Prediction using Spaceborne Earth Observation Data." Remote Sensing 12, no. 7: 1136.

Journal article
Published: 29 April 2019 in Water
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The universal soil loss equation (USLE) is widely used to identify areas of erosion risk at regional scales. In Brandenburg, USLE R factors are usually estimated from summer rainfall, based on a relationship from the 1990s. We compared estimated and calculated factors of 22 stations with 10-minutes rainfall data. To obtain more realistic estimations, we regressed the latter to three rainfall indices (total and heavy-rainfall sums). These models were applied to estimate future R factors of 188 climate stations. To assess uncertainties, we derived eight scenarios from 15 climate models and two representative concentration pathways (RCP), and compared the effects of index choice to the choices of climate model, RCP, and bias correction. The existing regression model underestimated the calculated R factors by 40%. Moreover, using heavy-rainfall sums instead of total sums explained the variability of current R factors better, increased their future changes, and reduced the model uncertainty. The impact of index choice on future R factors was similar to the other choices. Despite all uncertainties, the results indicate that average R factors will remain above past values. Instead, the extent of arable land experiencing excessive soil loss might double until the mid-century with RCP 8.5 and unchanged land management.

ACS Style

Andreas Gericke; Jens Kiesel; Detlef Deumlich; Markus Venohr. Recent and Future Changes in Rainfall Erosivity and Implications for the Soil Erosion Risk in Brandenburg, NE Germany. Water 2019, 11, 904 .

AMA Style

Andreas Gericke, Jens Kiesel, Detlef Deumlich, Markus Venohr. Recent and Future Changes in Rainfall Erosivity and Implications for the Soil Erosion Risk in Brandenburg, NE Germany. Water. 2019; 11 (5):904.

Chicago/Turabian Style

Andreas Gericke; Jens Kiesel; Detlef Deumlich; Markus Venohr. 2019. "Recent and Future Changes in Rainfall Erosivity and Implications for the Soil Erosion Risk in Brandenburg, NE Germany." Water 11, no. 5: 904.

Journal article
Published: 01 March 2018 in CATENA
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ACS Style

Detlef Deumlich; R.H. Ellerbrock; Mo. Frielinghaus. Estimating carbon stocks in young moraine soils affected by erosion. CATENA 2018, 162, 51 -60.

AMA Style

Detlef Deumlich, R.H. Ellerbrock, Mo. Frielinghaus. Estimating carbon stocks in young moraine soils affected by erosion. CATENA. 2018; 162 ():51-60.

Chicago/Turabian Style

Detlef Deumlich; R.H. Ellerbrock; Mo. Frielinghaus. 2018. "Estimating carbon stocks in young moraine soils affected by erosion." CATENA 162, no. : 51-60.

Journal article
Published: 28 June 2017 in Soil and Water Research
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Due to changing climate and irregular weather patterns, event-based soil loss and sediment yield have become important issues in the agricultural areas. Several mathematical models and prediction methodologies have been used to estimate event-based soil loss and soil redistribution based on soil types, land management, hydrology and local topography. The use of short-lived beryllium-7 as a means of estimating event-based soil erosion/deposition rates has become an alternative to the traditional soil loss measurement methods. A new erosion model taking into account the movement of 7Be in soils has been presented recently. In order to direct the attention to the potential offered by this technique (measurements and mathematical model), a two-year study was performed at the erosion plots in Müncheberg, Germany, and twelve individual erosion rates were estimated. This paper presents a systematic comparison of the non-steady state 7Be model with the process-based erosion model EROSION-3D and measured data. The results demonstrate a close consistency between the erosion rates estimated by erosion models and the estimates provided by the 7Be model and can therefore be seen as a promising contribution to validating the use of this radionuclide to document short-term soil redistribution within the plot and deposited sediment at the bottom of the plot.

ACS Style

D. Deumlich; A. Jha; G. Kirchner. Comparing measurements, 7Be radiotracer technique and process-based erosion model for estimating short-term soil loss from cultivated land in Northern Germany. Soil and Water Research 2017, 12, 177 -186.

AMA Style

D. Deumlich, A. Jha, G. Kirchner. Comparing measurements, 7Be radiotracer technique and process-based erosion model for estimating short-term soil loss from cultivated land in Northern Germany. Soil and Water Research. 2017; 12 (No. 3):177-186.

Chicago/Turabian Style

D. Deumlich; A. Jha; G. Kirchner. 2017. "Comparing measurements, 7Be radiotracer technique and process-based erosion model for estimating short-term soil loss from cultivated land in Northern Germany." Soil and Water Research 12, no. No. 3: 177-186.

Journal article
Published: 26 August 2014 in Archives of Agronomy and Soil Science
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ACS Style

Detlef Deumlich; Jürgen Thiere; Manfred Altermann. Characterization of cation exchange capacity (CEC) for agricultural land-use areas. Archives of Agronomy and Soil Science 2014, 61, 767 -784.

AMA Style

Detlef Deumlich, Jürgen Thiere, Manfred Altermann. Characterization of cation exchange capacity (CEC) for agricultural land-use areas. Archives of Agronomy and Soil Science. 2014; 61 (6):767-784.

Chicago/Turabian Style

Detlef Deumlich; Jürgen Thiere; Manfred Altermann. 2014. "Characterization of cation exchange capacity (CEC) for agricultural land-use areas." Archives of Agronomy and Soil Science 61, no. 6: 767-784.

Proceedings article
Published: 14 November 2013 in Soil Erosion
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ACS Style

R. Funk; Detlef Deumlich; J. Steidl. GIS Application to Estimate the Wind Erosion Risk in the Federal State of Brandenburg. Soil Erosion 2013, 1 .

AMA Style

R. Funk, Detlef Deumlich, J. Steidl. GIS Application to Estimate the Wind Erosion Risk in the Federal State of Brandenburg. Soil Erosion. 2013; ():1.

Chicago/Turabian Style

R. Funk; Detlef Deumlich; J. Steidl. 2013. "GIS Application to Estimate the Wind Erosion Risk in the Federal State of Brandenburg." Soil Erosion , no. : 1.

Journal article
Published: 21 December 2012 in Landscape Online
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Long-term erosion forecast can completely misinterpret in extreme events in plain regions. Flow paths are well represented in the plain using digital elevation models in the 1-m grid (DEM1). The scale of the erosion process models and the elevation models is comparable. With it instruments are available to improve the erosion simulation. Simulations, based on (R)USLE family and bigger grid width, are relevant for regional overviews, to the clarification of small scale relevant linear erosion forms, however, unsuitably. The cross-slope tillage has intensified the water erosion in the examined case with special area morphology. From historical sources furrows of the ridge and furrow system were identified as runoff ways. Historical and actual information sources allowed the clarification of especially regional erosion events. Site specific and climatic factors as well as the actual land management caused a high damage magnitude in particular with extreme rainstorms, modified by historical land use structures.

ACS Style

Detlef Deumlich. Structure and Process - Influence of Historical Agriculture of Linear Flow Paths by Extreme Rainfall in Brandenburg. Landscape Online 2012, 31, 1 -19.

AMA Style

Detlef Deumlich. Structure and Process - Influence of Historical Agriculture of Linear Flow Paths by Extreme Rainfall in Brandenburg. Landscape Online. 2012; 31 ():1-19.

Chicago/Turabian Style

Detlef Deumlich. 2012. "Structure and Process - Influence of Historical Agriculture of Linear Flow Paths by Extreme Rainfall in Brandenburg." Landscape Online 31, no. : 1-19.

Journal article
Published: 01 December 2010 in Journal of Plant Nutrition and Soil Science
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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).

ACS Style

Detlef Deumlich; Rolf Schmidt; Michael Sommer. A multiscale soil-landform relationship in the glacial-drift area based on digital terrain analysis and soil attributes. Journal of Plant Nutrition and Soil Science 2010, 173, 843 -851.

AMA Style

Detlef Deumlich, Rolf Schmidt, Michael Sommer. A multiscale soil-landform relationship in the glacial-drift area based on digital terrain analysis and soil attributes. Journal of Plant Nutrition and Soil Science. 2010; 173 (6):843-851.

Chicago/Turabian Style

Detlef Deumlich; Rolf Schmidt; Michael Sommer. 2010. "A multiscale soil-landform relationship in the glacial-drift area based on digital terrain analysis and soil attributes." Journal of Plant Nutrition and Soil Science 173, no. 6: 843-851.

Journal article
Published: 01 August 2009 in Journal of Plant Nutrition and Soil Science
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ACS Style

Christian Böhm; Joachim Kiesel; Detlef Deumlich; Jürgen Thiere. An approach to extrapolate categorical agricultural soil data to nonmapped areas using majority vote. Journal of Plant Nutrition and Soil Science 2009, 172, 467 -476.

AMA Style

Christian Böhm, Joachim Kiesel, Detlef Deumlich, Jürgen Thiere. An approach to extrapolate categorical agricultural soil data to nonmapped areas using majority vote. Journal of Plant Nutrition and Soil Science. 2009; 172 (4):467-476.

Chicago/Turabian Style

Christian Böhm; Joachim Kiesel; Detlef Deumlich; Jürgen Thiere. 2009. "An approach to extrapolate categorical agricultural soil data to nonmapped areas using majority vote." Journal of Plant Nutrition and Soil Science 172, no. 4: 467-476.

Journal article
Published: 15 June 2008 in Geoderma
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Here we present a scheme for modelling soil landscape development in hummocky agricultural landscapes of formerly glaciated terrains. Soil landscape development is regarded as discontinuous over time. Long-term progressive soil development during the Holocene was replaced abruptly by an intense period of regressive pedogenesis during the last 50 years, which is deduced from published 137Cs data and catchment scale mass balances. Consequently, our primary working hypothesis is that the recent soil pattern is mainly a result of human influence during the last 50 years. The paradigm behind our approach is that we have to couple geological–historical information with recent dynamics of relevant processes to understand soil landscape development. Spatially-distributed erosion and sedimentation are the most important processes during that period. The intensity and extent of these processes is, however, also a function of the spatial pattern of soils (erodibility), which evolved in the progressive period. Therefore we developed a “time split” modelling approach. For the progressive period relevant pedogenic processes (de-/carbonatization, silicate weathering, clay translocation) have to be quantified by a spatially-distributed, coupled water flow and solute transport model based on reconstructed initial and upper boundary conditions (geomorphic units, climate history). Relevant outputs, e.g., topsoil textural properties, are used as a spatially-distributed input for the model of the regressive period. For the latter we use a modified version of the dynamic, physically based EROSION-3D model [Schmidt, J., von Werner, M., Michael, A., 1996. EROSION 2D/3D — a computer model to simulate water erosion (in German). Sächsische Landesanstalt für Landwirtschaft, Dresden.], which allows spatially-distributed modelling of water-related soil erosion and deposition. Relevant topsoil properties are iteratively adapted to the rates of spatially-distributed erosion and deposition. Preliminary results suggest that a coupling with tillage erosion plays an important role in our landscapes. Explicit analyses of the soil pattern using digital soil mapping techniques will be applied for model validation.

ACS Style

M. Sommer; H.H. Gerke; D. Deumlich. Modelling soil landscape genesis — A “time split” approach for hummocky agricultural landscapes. Geoderma 2008, 145, 480 -493.

AMA Style

M. Sommer, H.H. Gerke, D. Deumlich. Modelling soil landscape genesis — A “time split” approach for hummocky agricultural landscapes. Geoderma. 2008; 145 (3-4):480-493.

Chicago/Turabian Style

M. Sommer; H.H. Gerke; D. Deumlich. 2008. "Modelling soil landscape genesis — A “time split” approach for hummocky agricultural landscapes." Geoderma 145, no. 3-4: 480-493.

Journal article
Published: 31 December 2006 in CATENA
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ACS Style

Detlef Deumlich; J. Kiesel; J. Thiere; Hannes Isaak Reuter; L. Völker; Roger Funk. Application of the SIte COmparison Method (SICOM) to assess the potential erosion risk — a basis for the evaluation of spatial equivalence of agri-environmental measures. CATENA 2006, 68, 141 -152.

AMA Style

Detlef Deumlich, J. Kiesel, J. Thiere, Hannes Isaak Reuter, L. Völker, Roger Funk. Application of the SIte COmparison Method (SICOM) to assess the potential erosion risk — a basis for the evaluation of spatial equivalence of agri-environmental measures. CATENA. 2006; 68 (2-3):141-152.

Chicago/Turabian Style

Detlef Deumlich; J. Kiesel; J. Thiere; Hannes Isaak Reuter; L. Völker; Roger Funk. 2006. "Application of the SIte COmparison Method (SICOM) to assess the potential erosion risk — a basis for the evaluation of spatial equivalence of agri-environmental measures." CATENA 68, no. 2-3: 141-152.

Journal article
Published: 01 June 2006 in Journal of Plant Nutrition and Soil Science
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ACS Style

Detlef Deumlich; Roger Funk; Monika Frielinghaus; Walter-Alexander Schmidt; Olaf Nitzsche. Basics of effective erosion control in German agriculture. Journal of Plant Nutrition and Soil Science 2006, 169, 370 -381.

AMA Style

Detlef Deumlich, Roger Funk, Monika Frielinghaus, Walter-Alexander Schmidt, Olaf Nitzsche. Basics of effective erosion control in German agriculture. Journal of Plant Nutrition and Soil Science. 2006; 169 (3):370-381.

Chicago/Turabian Style

Detlef Deumlich; Roger Funk; Monika Frielinghaus; Walter-Alexander Schmidt; Olaf Nitzsche. 2006. "Basics of effective erosion control in German agriculture." Journal of Plant Nutrition and Soil Science 169, no. 3: 370-381.

Journal article
Published: 01 January 2006 in Ecological Informatics
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ACS Style

Wilfried Mirschel; Ralf Wieland; Marion Voss; Igbekele Ajibefun; Detlef Deumlich. Spatial Analysis and Modeling Tool (SAMT). Ecological Informatics 2006, 1, 77 -85.

AMA Style

Wilfried Mirschel, Ralf Wieland, Marion Voss, Igbekele Ajibefun, Detlef Deumlich. Spatial Analysis and Modeling Tool (SAMT). Ecological Informatics. 2006; 1 (1):77-85.

Chicago/Turabian Style

Wilfried Mirschel; Ralf Wieland; Marion Voss; Igbekele Ajibefun; Detlef Deumlich. 2006. "Spatial Analysis and Modeling Tool (SAMT)." Ecological Informatics 1, no. 1: 77-85.

Original articles
Published: 01 August 2005 in Archives of Agronomy and Soil Science
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A methodology is presented for identifying and assessing source areas of sediment, phosphorus and nitrate emissions into surface waters and river systems of the South Baltic unconsolidated rock region by water erosion. This task is included into the characterization of the pressures and impacts in river basins as an important milestone in implementing the EC Water Framework Directive set out by 2004. The Nutrient Input Into River Systems (NIIRS) approach has been developed and tested in the Odra river basin in Poland, Czech Republic and Germany. Mesoscale distributed analyses are facilitated for identifying erosion risk areas with non-point phosphorus and nitrate inputs into water bodies via surface flow. Using statistical information and available geodata, analyses are based on empirical (NIIRS), but preferably process-oriented modelling (EROSION-3D). Thus, besides better understanding the system behaviour, detailed quantitative knowledge of spatial nutrient export rates from potential source areas will be acquired. The application of the distributed approaches is demonstrated in the entire Odra River basin and its sub-catchment Uecker River. Additionally spatial effects are shown for the field scale transfer of eroded material in the Uecker sub-catchment by using the physically based model EROSION-3D. Scenario calculations incorporated into a Geographical Information System (GIS) environment are feasible for estimating the development of erosion risk as well as N and P loads entering water bodies. Supplemented by impact analyses of land use changes, the methodology can serve as physical precondition for the cost-benefit oriented allocation of mitigation strategies.

ACS Style

Detlef Deumlich; Waldemar Mioduszewski; Ireneusz Kajewski; M Tippl; Ralf Dannowski. GIS-based risk assessment for identifying source areas of non-point nutrient emissions by water erosion (Odra Basin and sub catchment Uecker). Archives of Agronomy and Soil Science 2005, 51, 447 -458.

AMA Style

Detlef Deumlich, Waldemar Mioduszewski, Ireneusz Kajewski, M Tippl, Ralf Dannowski. GIS-based risk assessment for identifying source areas of non-point nutrient emissions by water erosion (Odra Basin and sub catchment Uecker). Archives of Agronomy and Soil Science. 2005; 51 (4):447-458.

Chicago/Turabian Style

Detlef Deumlich; Waldemar Mioduszewski; Ireneusz Kajewski; M Tippl; Ralf Dannowski. 2005. "GIS-based risk assessment for identifying source areas of non-point nutrient emissions by water erosion (Odra Basin and sub catchment Uecker)." Archives of Agronomy and Soil Science 51, no. 4: 447-458.

Original articles
Published: 01 June 2004 in Archives of Agronomy and Soil Science
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Two generalization principles can be differentiated in soil geography: (1) point-to-area-generalization using different geostatistical methods and (2) soil survey in the landscape scale using soil catenae or soil landscape modelling. The point-to-area-generalization demands high investigation costs, however they are the base for investigations considering the spatial distribution of soil landscapes as well as for the determination of pedodiversity for practical use, e.g. precision farming. The deduction of soil catenae and/or soil associations considers the development of soil in combination with the landscape. Soil landscapes can be segregated and defined by comparable criteria. This is a prerequisite to account and regionalize soil present state, soil property changes and soil stress in a landscape context. Relationships between different scales are generalized using rules of aggregation (bottom-up principle) or disaggregation (top-down principle). Aggregation algorithm are useable in soil mapping as well as for soil management decisions. Examples for different applications, especially in respect to soil erosion research, are given.

ACS Style

Rolf Schmidt; Detlef Deumlich; Hannes Isaak Reuter. Vom punkt zur fläche und in die landschaft—räumliche verallgemeinerung als gegenstand der bodenlandschaftsforschung: From point over regions to the landscape—spatial generalization in the soil landscape research. Archives of Agronomy and Soil Science 2004, 50, 241 -257.

AMA Style

Rolf Schmidt, Detlef Deumlich, Hannes Isaak Reuter. Vom punkt zur fläche und in die landschaft—räumliche verallgemeinerung als gegenstand der bodenlandschaftsforschung: From point over regions to the landscape—spatial generalization in the soil landscape research. Archives of Agronomy and Soil Science. 2004; 50 (3):241-257.

Chicago/Turabian Style

Rolf Schmidt; Detlef Deumlich; Hannes Isaak Reuter. 2004. "Vom punkt zur fläche und in die landschaft—räumliche verallgemeinerung als gegenstand der bodenlandschaftsforschung: From point over regions to the landscape—spatial generalization in the soil landscape research." Archives of Agronomy and Soil Science 50, no. 3: 241-257.

Original articles
Published: 01 June 2004 in Archives of Agronomy and Soil Science
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This paper presents a comparative method (VERMOST) to evaluate complex site conditions at the level of a federal state (Brandenburg) and at different areal units. The methodology uses primary site conditions and provides the possibility to objectively compare and judge different ecological questions. Objects with heterogeneous content are pooled in comparison groups. Considering the main site characteristics allows a goal-oriented allocation of subsidies. The use of VERMOST is demonstrated for the wind and water erosion risk assessment across different scales from a federal state down to a parcel of land. The ‘parcel’ aggregation-level proves to be useful to assess the erosion risk. Larger scales are less useful in the assessment of subsidies policy with regard to erosion risk. A moving-window-technique combined with VERMOST is demonstrated to be suitable for comparing and assessing regional aspects more objectively compared with data administratively linked.

ACS Style

Detlef Deumlich; R Funk; J Kiesel; Hi Reuter; J Thiere; L Völker. anwendung der „vergleichsmethode standort (vermost)” zur bewertung der erosionsgefährdungspotenziale als datenbasis für förderinstrumente am beispiel des landes Brandenburg: Application of the site comparison method (vermost) to assess the potential erosion risk as a basis to examine instruments of environmental policy – the example of Brandenburg. Archives of Agronomy and Soil Science 2004, 50, 259 -271.

AMA Style

Detlef Deumlich, R Funk, J Kiesel, Hi Reuter, J Thiere, L Völker. anwendung der „vergleichsmethode standort (vermost)” zur bewertung der erosionsgefährdungspotenziale als datenbasis für förderinstrumente am beispiel des landes Brandenburg: Application of the site comparison method (vermost) to assess the potential erosion risk as a basis to examine instruments of environmental policy – the example of Brandenburg. Archives of Agronomy and Soil Science. 2004; 50 (3):259-271.

Chicago/Turabian Style

Detlef Deumlich; R Funk; J Kiesel; Hi Reuter; J Thiere; L Völker. 2004. "anwendung der „vergleichsmethode standort (vermost)” zur bewertung der erosionsgefährdungspotenziale als datenbasis für förderinstrumente am beispiel des landes Brandenburg: Application of the site comparison method (vermost) to assess the potential erosion risk as a basis to examine instruments of environmental policy – the example of Brandenburg." Archives of Agronomy and Soil Science 50, no. 3: 259-271.

Miscellany
Published: 01 June 2004 in Archives of Agronomy and Soil Science
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ACS Style

Detlef Deumlich. Zum 65. Geburtstag von Professor Dr. Habil. Monika Frielinghaus: Ad Gratulationem. Monika Frielinghaus turned 65. Archives of Agronomy and Soil Science 2004, 50, 237 -239.

AMA Style

Detlef Deumlich. Zum 65. Geburtstag von Professor Dr. Habil. Monika Frielinghaus: Ad Gratulationem. Monika Frielinghaus turned 65. Archives of Agronomy and Soil Science. 2004; 50 (3):237-239.

Chicago/Turabian Style

Detlef Deumlich. 2004. "Zum 65. Geburtstag von Professor Dr. Habil. Monika Frielinghaus: Ad Gratulationem. Monika Frielinghaus turned 65." Archives of Agronomy and Soil Science 50, no. 3: 237-239.

Original articles
Published: 01 November 1997 in Archives of Agronomy and Soil Science
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Im Agraratlas des Landes Sachsen‐Anhalt werden für raumstrukturelle Entscheidungen natürliche und ökonomische Faktoren und Bewertungen in ihrer regionalen Anordnung dargestellt. Der vorliegende Beitrag bezieht sich auf den Teilkomplex “Gemeindebezogene Standortinformationen”; und beinhaltet methodisches Vorgehen und Ergebnisse zu den thematischen Karten: Geologische Substratherkünfte, Hangneigungsverhältnisse, Hydromorphieverhältnisse, Steinigkeit, Bodenbedingte Anbaueignung, Substratbedingte Bewirtschaftungseignung und Potentielle Gefährdung für Wasser‐ und Winderosion. Zu den Karteninhalten werden tabellarisch gemeindebezogene Häufigkeiten von Legendeneinheiten und Flächenangaben zum Vorkommen von Merkmals‐ und Beurteilungsklassen mitgeteilt.

ACS Style

Jürgen Thiere; Detlef Deumlich; Lidia Völker. Gemeindebezogene standortinformationen im agraratlas sachsen‐anhalt. Archives of Agronomy and Soil Science 1997, 42, 79 -95.

AMA Style

Jürgen Thiere, Detlef Deumlich, Lidia Völker. Gemeindebezogene standortinformationen im agraratlas sachsen‐anhalt. Archives of Agronomy and Soil Science. 1997; 42 (2):79-95.

Chicago/Turabian Style

Jürgen Thiere; Detlef Deumlich; Lidia Völker. 1997. "Gemeindebezogene standortinformationen im agraratlas sachsen‐anhalt." Archives of Agronomy and Soil Science 42, no. 2: 79-95.

Original articles
Published: 01 December 1996 in Archives of Agronomy and Soil Science
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Eine Karte der potentiellen Wassererosionsgefährdung für die östlichen Bundesländer wurde auf der Grundlage gemeindebezogener Datensätze mit Ergebnissen der Mittelmaßstäbigen landwirtschaftlichen Standortkartierung (MMK) erarbeitet. Die Karte enthält das Resultat einer vergleichenden Beurteilung der landwirtschaftlich genutzten Böden hinsichtlich der potentiellen Gefährdung durch Wassererosion auf der Grundlage von Kartierungseinheiten der MMK. Die potentielle Wassererosionsgefährdung wird nach Substrat‐ und Hangneigungsflächentypen eingeschätzt. Auf der Grundlage der gemeindebezogen digitalisierten Kartierungseinheiten der MMK wird der Flächenanteil der auf der landwirtschaftlichen Nutzfläche der einzelnen Gemeinden vorkommenden Gefährdungsklassen berechnet. Die Beurteilungskenngrößen können zum Vergleich erosionsrelevanter Grunddaten naturräumlicher und administrativer Gebietseinheiten dienen. Werden detailliertere Informationen benötigt, sind darüberhinaus konturenund schlagbezogene Bewertungen möglich. Nach entsprechender Interpretation ist es möglich, Daten zur überschlägigen Abschätzung potentieller Bodenund Schadstoffeinträge in Flußeinzugsgebiete bereitzustellen.

ACS Style

Detlef Deumlich; Jürgen Thiere. Einschätzung der potentiellen wassererosionsgefährdung für gemeinden und regionen der bundesländer Mecklenburg‐Vorpommern, brandenburg, Sachsen‐Anhalt und der freistaaten Thüringen und Sachsen. Archives of Agronomy and Soil Science 1996, 40, 335 -343.

AMA Style

Detlef Deumlich, Jürgen Thiere. Einschätzung der potentiellen wassererosionsgefährdung für gemeinden und regionen der bundesländer Mecklenburg‐Vorpommern, brandenburg, Sachsen‐Anhalt und der freistaaten Thüringen und Sachsen. Archives of Agronomy and Soil Science. 1996; 40 (5):335-343.

Chicago/Turabian Style

Detlef Deumlich; Jürgen Thiere. 1996. "Einschätzung der potentiellen wassererosionsgefährdung für gemeinden und regionen der bundesländer Mecklenburg‐Vorpommern, brandenburg, Sachsen‐Anhalt und der freistaaten Thüringen und Sachsen." Archives of Agronomy and Soil Science 40, no. 5: 335-343.