Examination of data collected from experiments on soil disturbance using fuzzy indicator approach

Authors: Torbert, Henry - Allen; KURTENER, DMITRY - European Agrophysical Institute; KRUEGER, ELENA - European Agrophysical Institute

Submitted to: European Agrophysical Journal
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: 3/25/2016
Publication Date: 3/30/2016
Citation: Torbert III, H.A., Kurtener, D., Krueger, E. 2016. Examination of data collected from experiments on soil disturbance using fuzzy indicator approach. European Agrophysical Journal. 3(1):93-102. Available: http://www.agrophysical.eu/ojs/index.php/eajournal/article/view/52. doi: dx.doi.org/10.17830/j.eaj.2016.03.025.

Interpretive Summary: Soil disturbance can have important impacts on soil quality and productivity which impact management decisions. Methods are needed to determine the level of soil disturbance from soil testing. This study examined this tool for the examination of data collected from experiments on soil disturbance in two different climatic reagions: Fort Riley, KS, and Fort Benning, GA, USA. Results for Fort Riley indicate that the best indicator of disturbance was the DFS calculated for Ni, Ca, Mg, and C while DFS calculated for Cr, Pb, Ni, and Ca was best for Fort Benning. Results also indicate that the use of DFS calculated for Cu and Ni as affected by changes in soil depth may be useful for detecting archeological sites across soil types.

Technical Abstract: Soil disturbance can have important impacts on soil quality and productivity which impact management decisions. However, the extent of potential damage to soil due to soil disturbance is not always obvious. Methods are needed to determine the level of soil disturbance from soil testing. A methodology for this problem could be found using a tool for computations of two soil disturbance indicators called “Disturbance Factor Simple (DFS)” and “Disturbance Factor Complex (DFC)”. This study examined this tool for the examination of data collected from experiments on soil disturbance in two different climatic reagions: Fort Riley, KS, and Fort Benning, GA, USA. Results for Fort Riley indicate that the best indicator of disturbance was the DFS calculated for Ni, Ca, Mg, and C while DFS calculated for Cr, Pb, Ni, and Ca was best for Fort Benning. Results also indicate that the use of DFS calculated for Cu and Ni as affected by changes in soil depth may be useful for detecting archeological sites across soil types.