Application of Ground-Penetrating Radar and a Combined Penetrometer–Moisture Probe for Evaluating Spatial Distribution of Soil Moisture and Soil Hardness in Coastal and Inland Windbreaks

The development of a method to easily investigate the spatial distribution of soil moisture and soil hardness in tree windbreaks is necessary because these windbreaks often decline due to inappropriate soil moisture condition and soil compaction. This research examined the applicability of ground-pe...

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Main Authors: Kenta Iwasaki, Makoto Tamura, Hirokazu Sato, Kazuhiko Masaka, Daisuke Oka, Yosuke Yamakawa, Ken’ichirou Kosugi
Format: Article
Language:English
Published: MDPI AG 2020-06-01
Series:Geosciences
Subjects:
Online Access:https://www.mdpi.com/2076-3263/10/6/238
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spelling doaj-545360a9ee644d3e84c93f42597517272020-11-25T03:23:05ZengMDPI AGGeosciences2076-32632020-06-011023823810.3390/geosciences10060238Application of Ground-Penetrating Radar and a Combined Penetrometer–Moisture Probe for Evaluating Spatial Distribution of Soil Moisture and Soil Hardness in Coastal and Inland WindbreaksKenta Iwasaki0Makoto Tamura1Hirokazu Sato2Kazuhiko Masaka3Daisuke Oka4Yosuke Yamakawa5Ken’ichirou Kosugi6Doto Station, Forestry Research Institute, Hokkaido Research Organization, Nishi2-sen, Shintoku, Hokkaido 081-0038, JapanResearch Institute of Energy, Environment and Geology, Hokkaido Research Organization, Kita19-jo Nishi11-chome, Kita-ku, Sapporo, Hokkaido 060-0819, JapanForestry Research Institute, Hokkaido Research Organization, Higashiyama, Koshunai, Bibai, Hokkaido 079-0198, JapanFaculty of Agriculture, Iwate University, 3-18-8 Ueda, Morioka, Iwate 020-8550, JapanResearch Institute of Energy, Environment and Geology, Hokkaido Research Organization, Kita19-jo Nishi11-chome, Kita-ku, Sapporo, Hokkaido 060-0819, JapanIkawa Forest, Agricultural and Forestry Research Center, University of Tsukuba, 1621-2 Ikawa, Aoi, Shizuoka 428-0504, JapanGraduate School of Agriculture, Kyoto University, Kitashirakawa Oiwake, Sakyo, Kyoto 606-8502, JapanThe development of a method to easily investigate the spatial distribution of soil moisture and soil hardness in tree windbreaks is necessary because these windbreaks often decline due to inappropriate soil moisture condition and soil compaction. This research examined the applicability of ground-penetrating radar (GPR) and a combined penetrometer–moisture probe (CPMP) for evaluating the spatial distribution of soil moisture and soil hardness in four windbreaks with different soil characteristics. A GPR-reflecting interface was observed at a less permeable layer in a coastal windbreak and at a depth affected by soil compaction in an inland windbreak with andosol. The spatial distribution of the groundwater table could also be evaluated by examining the attenuation of GPR reflection in a coastal windbreak. In contrast, GPR was not applicable in an inland windbreak with peat because of high soil water content near the soil surface. The CPMP could detect vertical distributions of soil hardness and soil water content regardless of soil type. The CPMP was useful for interpreting GPR profiles, and GPR was useful for interpolating the information about the horizontal distribution of soil moisture and soil hardness between survey points made with the CPMP. Thus, the combination of GPR and a CPMP is ideal for examining the two-dimensional spatial distribution of soil moisture and soil hardness at windbreaks with soils for which both methods are applicable.https://www.mdpi.com/2076-3263/10/6/238soil water contentsoil compactioncoastal forestgrowth basegroundwater table
collection DOAJ
language English
format Article
sources DOAJ
author Kenta Iwasaki
Makoto Tamura
Hirokazu Sato
Kazuhiko Masaka
Daisuke Oka
Yosuke Yamakawa
Ken’ichirou Kosugi
spellingShingle Kenta Iwasaki
Makoto Tamura
Hirokazu Sato
Kazuhiko Masaka
Daisuke Oka
Yosuke Yamakawa
Ken’ichirou Kosugi
Application of Ground-Penetrating Radar and a Combined Penetrometer–Moisture Probe for Evaluating Spatial Distribution of Soil Moisture and Soil Hardness in Coastal and Inland Windbreaks
Geosciences
soil water content
soil compaction
coastal forest
growth base
groundwater table
author_facet Kenta Iwasaki
Makoto Tamura
Hirokazu Sato
Kazuhiko Masaka
Daisuke Oka
Yosuke Yamakawa
Ken’ichirou Kosugi
author_sort Kenta Iwasaki
title Application of Ground-Penetrating Radar and a Combined Penetrometer–Moisture Probe for Evaluating Spatial Distribution of Soil Moisture and Soil Hardness in Coastal and Inland Windbreaks
title_short Application of Ground-Penetrating Radar and a Combined Penetrometer–Moisture Probe for Evaluating Spatial Distribution of Soil Moisture and Soil Hardness in Coastal and Inland Windbreaks
title_full Application of Ground-Penetrating Radar and a Combined Penetrometer–Moisture Probe for Evaluating Spatial Distribution of Soil Moisture and Soil Hardness in Coastal and Inland Windbreaks
title_fullStr Application of Ground-Penetrating Radar and a Combined Penetrometer–Moisture Probe for Evaluating Spatial Distribution of Soil Moisture and Soil Hardness in Coastal and Inland Windbreaks
title_full_unstemmed Application of Ground-Penetrating Radar and a Combined Penetrometer–Moisture Probe for Evaluating Spatial Distribution of Soil Moisture and Soil Hardness in Coastal and Inland Windbreaks
title_sort application of ground-penetrating radar and a combined penetrometer–moisture probe for evaluating spatial distribution of soil moisture and soil hardness in coastal and inland windbreaks
publisher MDPI AG
series Geosciences
issn 2076-3263
publishDate 2020-06-01
description The development of a method to easily investigate the spatial distribution of soil moisture and soil hardness in tree windbreaks is necessary because these windbreaks often decline due to inappropriate soil moisture condition and soil compaction. This research examined the applicability of ground-penetrating radar (GPR) and a combined penetrometer–moisture probe (CPMP) for evaluating the spatial distribution of soil moisture and soil hardness in four windbreaks with different soil characteristics. A GPR-reflecting interface was observed at a less permeable layer in a coastal windbreak and at a depth affected by soil compaction in an inland windbreak with andosol. The spatial distribution of the groundwater table could also be evaluated by examining the attenuation of GPR reflection in a coastal windbreak. In contrast, GPR was not applicable in an inland windbreak with peat because of high soil water content near the soil surface. The CPMP could detect vertical distributions of soil hardness and soil water content regardless of soil type. The CPMP was useful for interpreting GPR profiles, and GPR was useful for interpolating the information about the horizontal distribution of soil moisture and soil hardness between survey points made with the CPMP. Thus, the combination of GPR and a CPMP is ideal for examining the two-dimensional spatial distribution of soil moisture and soil hardness at windbreaks with soils for which both methods are applicable.
topic soil water content
soil compaction
coastal forest
growth base
groundwater table
url https://www.mdpi.com/2076-3263/10/6/238
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