Measuring and predicting soil moisture conditions for trafficability |
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| Authors: | Endla Reintam Kersti Vennik Liia Kukk Siiri Kade Kadri Krebstein Mihkel Are |
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| Institution: | 1. Institute of Agricultural and Environmental Sciences, Estonian University of Life Sciences, Tartu, Estoniaendla.reintam@emu.ee;3. Institute of Agricultural and Environmental Sciences, Estonian University of Life Sciences, Tartu, Estonia |
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| Abstract: | ABSTRACTThe main cause of loss of soil structural stability is vehicle operation on unpaved wet surfaces. Unfortunately, there is a lack of continuous soil moisture data in predicting trafficable conditions. To measure changes in soil moisture conditions in real time, Percostation (Adek) sensors were installed in sandy loam Stagnosol soil at different depths. Problems with soil trafficability can be expected at the plastic limit, and the soil is unable to support vehicle operations at the liquid limit in such soils. The maximum water-holding capacity of the soil is 32%, the field capacity is 25%, the plastic limit is 22%, and the liquid limit is 30%. With rainfall of more than 10?mm d?1, the moisture content reached the plastic limit in the upper 25?cm of soil. The average increase in the soil moisture content after more than 10?mm of rain was 1–2.5% in a time frame of 2–3 hours. After rain, the previous soil moisture level was obtained within 2 to 3 days in the vegetation period. Measurements also allowed soil water balance and evapotranspiration modelling data to predict soil moisture conditions with an accuracy of one day but failed to predict in a shorter period. |
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| Keywords: | Dielectric constant evapotranspiration plastic limit precipitation soil water balance |
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