Modeling the Complexity of Different, Recently
Deglaciated Soil Landscapes as a Function of Map Scale
Christina M. Hupy, Randall
J. Schaetzl, Joseph P. Messina, Joseph P. Hupy, Paul Delamater, Helen Enander,
Brandi D. Hughey, Rebecca Boehm, Matthew J. Mitroka, and Michael T. Fashoway
The scale at which a soil landscape (soilscape) is viewed has a significant
impact on soil pattern and interpretations made from those patterns. Recently
deglaciated soilscapes are particularly spatially complex. In order to
understand how scale impacts pattern on complex soilscapes, we used a GIS to
examine soil maps for 13 counties in the northern United States, all affected by
Late Wisconsinan glaciation. We used an Arck macro language script to change the
map scale and, when the change was to a smaller scale, group/dissolve soil map
units based on similarities to a prescribed list of neighboring map unit
characteristics. Similarity criteria included drainage class, taxonomic great
group, parent material and slope. Soilscape complexity was measured at nine
different scales and is based on various pattern metrics: number of punctate
soil units km� 2, map unit polygons km� 2, map unit boundary length km� 2, and
boundary length polygon� 1 km� 2. Soilscape complexity as a function of scale
was then examined by regressing pattern metric data against the size of the
minimum map unit for each of the nine scales. Extrapolation of the regression
lines to 1:10,000 (a scale larger than is typically mapped) illustrated how much
additional information might accrue if these counties were to be mapped at that
larger scale. In most cases, 2–10 times more map units would have been
recognized and delineated at the two times larger map scale, but map unit
boundary lengths would have increased by only about 1.5 times. Whether this
additional information is of such a magnitude that it could justify remapping
some of these complex landscapes at larger scales is an economic decision; our
study provides much needed data on the magnitude of information gained by
mapping soilscapes at larger scales..