Skip to the main content

Preliminary communication

https://doi.org/10.5552/crojfe.2021.762

Influence of Saturated Organic Matter on the Accuracy of In-Situ Measurements Recorded with a Nuclear Moisture and Density Gauge

Eric R. Labelle ; Université Laval Department of Wood and Forest Sciences 2405 Rue de la Terrasse Québec G1V 0A6 CANADA
Dirk Jaeger ; Georg-August-Universität Göttingen Faculty of Forest Sciences and Forest Ecology Burckhardt- Institute Department of Forest Work Science and Engineering Büsgenweg 4 37077 Göttingen GERMANY


Full text: english pdf 1.383 Kb

page 357-367

downloads: 488

cite


Abstract

The impact of machines on forest soils is regularly assessed and quantified using absolute bulk density, which is most frequently obtained by soil cores. However, to allow for repeated measurements at the exact same locations, non-destructive devices are increasingly being used to determine soil bulk density and moisture content in field studies. An example of such a device is a nuclear moisture and density gauge (NMDG), originally designed as a control measurement for soil bulk density and moisture content in geotechnical applications. Unlike road construction or foundation projects that use mineral soil or gravel, forest soils have complex structures and the presence of organic matter, which can skew moisture and density readings from a NMDG. To gain further knowledge in this respect, we performed controlled tests in a sandbox to quantify the influence of varying amounts of saturated organic matter (3, 5, 10, and 15%) mixed with mineral soil in different layers (0–5, 0–10, 0–20 and 0–40 cm) on the accuracy of soil moisture content obtained by a NMDG and soil theta probe at varying depths. Main results illustrated that the presence of saturated organic matter per se was not problematic but moisture content overestimations and related underestimation of dry bulk density occurred when the tested measurement depth was below the created organic layer. Since forest soils often exhibit higher organic matter contents in the upper horizon, correction factors are suggested to minimize the moisture content variations between NMDG and reference method. With the use of correction factors, NMDG can present a non-destructive, fast, and accurate method of measuring soil moisture and bulk density in forestry applications.

Keywords

forest soils, soil bulk density, machine traffic, theta probe, soil cores, non-destructive measurements, soil monitoring

Hrčak ID:

255273

URI

https://hrcak.srce.hr/255273

Publication date:

6.4.2021.

Visits: 1.036 *