the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
Temporal stability of soil moisture patterns measured by proximal ground-penetrating radar
Abstract. We analyzed the temporal stability of soil moisture patterns acquired using a proximal ground-penetrating radar (GPR) in a 2.5 ha agricultural field at five different dates over three weeks. The GPR system was mounted on a mobile platform, allowing for real-time mapping of soil moisture with a high spatial resolution (2–5 m). The spatio-temporal soil moisture patterns were in accordance with the meteorological data and with soil moisture measurements from soil core sampling. Time-stable areas showing the field-average moisture could be revealed by two methods: (1) by the computation of temporal stability indicators based on relative differences of soil moisture to the field-average and (2) by the spatial intersection of the areas showing the field-average. Locations where the mean relative difference was below 0.02 m3 m−3 extended up to 10% of the field area whereas the intersection of areas showing the field-average within a tolerance of 0.02 m3 m−3 covered 5% of the field area. Compared to most of the previous studies about temporal stability of soil moisture, time-stable areas and their spatial patterns could be revealed instead of single point locations, owing to the advanced GPR method for real-time mapping. It is believed that determining spatially coherent time-stable areas is more informative rather than determining time-stable points. Other acquisitions over larger time periods would be necessary to assert the robustness of the time-stable areas.
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RC C1109: 'Interactive comment on “Temporal stability of soil moisture patterns measured by proximal ground-penetrating radar” by J. Minet et al.', wei hu, 24 Apr 2013
- SC C1534: 'Short response to the first referee', Julien Minet, 08 May 2013
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RC C1341: 'Review of „Temporal stability of soil moisture patterns measured by proximal ground-penetrating radar “ by Minet et al.', Heye Bogena, 01 May 2013
- SC C1550: 'Short response to the second referee', Julien Minet, 08 May 2013
- EC C1751: 'Editorial assessment of the discussion', Gerrit H. de Rooij, 15 May 2013
- AC C2248: 'Response', Julien Minet, 05 Jun 2013
-
RC C1109: 'Interactive comment on “Temporal stability of soil moisture patterns measured by proximal ground-penetrating radar” by J. Minet et al.', wei hu, 24 Apr 2013
- SC C1534: 'Short response to the first referee', Julien Minet, 08 May 2013
-
RC C1341: 'Review of „Temporal stability of soil moisture patterns measured by proximal ground-penetrating radar “ by Minet et al.', Heye Bogena, 01 May 2013
- SC C1550: 'Short response to the second referee', Julien Minet, 08 May 2013
- EC C1751: 'Editorial assessment of the discussion', Gerrit H. de Rooij, 15 May 2013
- AC C2248: 'Response', Julien Minet, 05 Jun 2013
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Cited
6 citations as recorded by crossref.
- Monitoring Spatiotemporal Surface Soil Moisture Variations During Dry Seasons in Central America With Multisensor Cascade Data Fusion C. Chen et al. 10.1109/JSTARS.2014.2347313
- Assessing the time stability of soil moisture patterns using statistical and geostatistical approaches C. Landrum et al. 10.1016/j.agwat.2016.07.013
- Time-stability of soil water content (SWC) in an Atlantic Forest - Latosol site J. Junqueira et al. 10.1016/j.geoderma.2016.10.034
- Repeated geophysical measurements in dry and wet soil conditions to describe soil water content variability D. Benedetto et al. 10.1590/1678-992x-2018-0349
- Contribution of EMI and GPR proximal sensing data in soil water content assessment by using linear mixed effects models and geostatistical approaches E. Barca et al. 10.1016/j.geoderma.2019.01.030
- Uncertainty in predicting the spatial pattern of soil water temporal stability at the hillslope scale K. Liao et al. 10.1071/SR15059