Statistical description of seedbed cloddiness by structuring objects using digital elevation models

In this paper the selected approach to analyze seedbed roughness is to study soil surface structural elements, such as aggregates and clods lying on the soil substrate. Recently their identification has been made possible on millimetric resolution digital elevation models (DEMs) by new developed seg...

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Bibliographic Details
Published in:Computers & geosciences 2013-10, Vol.60, p.117-125
Main Authors: Taconet, O., Dusséaux, R., Vannier, E., Chimi-Chiadjeu, O.
Format: Article
Language:English
Subjects:
Aggregates
algorithms
Amplitudes
Clod feature
clods
Compressing
Computer Science
computers
data collection
DEM
digital elevation models
Earth Sciences
Ellipses
Engineering Sciences
Environmental Sciences
Geophysics
Global Changes
Horizontal
Mathematical models
Physics
Probability distribution functions
Roughness
Sciences of the Universe
Seedbed
seedbeds
Signal and Image processing
Size distribution
Soil surface roughness
Structuring object
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Summary:In this paper the selected approach to analyze seedbed roughness is to study soil surface structural elements, such as aggregates and clods lying on the soil substrate. Recently their identification has been made possible on millimetric resolution digital elevation models (DEMs) by new developed segmentation algorithms relying on contour-based procedure. Here we consider two DEMs of 30cm and 40cm by 90cm recorded on a freshly tilled seedbed of moderate roughness and build up a dataset of several hundreds of clods and large aggregates (sizes greater than 7mm). We show that these irregular shaped objects can be represented by simple approached forms: an ellipse for the base and a half-cosine function for the height. Values of areal (and volume) overlap rates indicate that half of clods bases are matched with very good rates greater than 0.74 up to 0.89 (respectively 0.70 up to 0.87). The set of detected objects enables to derive the statistical distributions characterizing the ellipse variables (orientation angle, major and minor axis lengths) and the half-cosine amplitude. Because of interdependence of lengths of major and minor axes, we introduce the horizontal compression factor which measures the ellipse flattening. We show plausible independence of the major axis length with the horizontal compression factor and we find that the major axis length minus its minimum is well fitted by the Gamma distribution and the normalized horizontal compression factor by the Beta distribution. We propose to infer the value of the minor axis length from the values of the two preceding variables knowing their statistical occurrences. Same reasoning is handled for inference of the half-cosine amplitude from the major axis length and the normalized vertical compression factor, which is also well fitted by the Beta distribution. •Seedbed roughness is analyzed through structural elements, as clods, lying on the soil.•On millimetric DEMs clods are segmented by contours hierarchy.•These irregular shaped objects are modeled adequately by simple geometric forms.•Qualification of the approach is made using areal and volume overlap rates.•Statistical distributions of the variables parameterizing the structuring objects are studied.
ISSN:0098-3004
1873-7803
DOI:10.1016/j.cageo.2013.07.001