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《江苏农业科学》[ISSN:1002-1302/CN:32-1214/S]

卷:

第45卷

期数:

2017年12期

页码:

1-6

栏目:

专论与综述

出版日期:

2017-06-20

文章信息/Info

Title:

Research progress of application of ground penetrating radar in monitoring moisture of surface soil

作者:

高胜国¹;  翁海腾²;  朱忠礼²

1.北京师范大学资源学院，北京 100875； 2.北京师范大学地理学与遥感科学学院/遥感科学国家重点实验室，北京 100875

Author(s):

Gao Shengguo; et al

关键词:

探地雷达; 土壤水分; 反射波法; 地面波法; 地表反射系数法; 测量深度; 卫星遥感; 地面验证数据

Keywords:

-

分类号:

S127

DOI:

-

文献标志码:

A

摘要:

探地雷达(ground penetrating radar，GPR)作为监测中小尺度或田块尺度地表土壤含水量的一种极有潜力的技术，在近几年来得到了快速的发展。在介绍探地雷达测量地表土壤含水量基本原理的基础上，总结探地雷达在地表土壤含水量监测中的应用进展，主要包括反射波法、地面波法和地表反射系数法。同时，结合国内外最新的研究成果，分析每种方法的特点，讨论每种方法的测量精度以及测量的代表深度。最后，对探地雷达在地表土壤含水量监测方面的应用进行展望。

Abstract:

-

参考文献/References:

［1］邵明安，王全九，黄明斌. 土壤物理学［M］. 北京：高等教育出版社，2006：57-61.
［2］Evett S R，Parkin G W. Advances in soil water content sensing［J］. Vadose Zone Journal，2005，4(4)：986-991.
［3］Topp G P. Measuring soil water content［J］. Encyclopedia of Hydrological Sciences，2006，5(2)：1077-1089.
［4］Robinson D A，Campbell C S，Hopmans J W，et al. Soil moisture measurement for ecological and hydrological watershed-scale observatories：a review［J］. Vadose Zone Journal，2008，7(1)：358-389.
［5］仝兆远，张万昌. 土壤水分遥感监测的研究进展［J］. 水土保持通报，2007，27(4)：107-113.
［6］雷少刚，卞正富. 探地雷达测定土壤含水率研究综述［J］. 土壤通报，2008，39(5)：1179-1183.
［7］Schmalz B，Lennartz B. Analyses of soil water content variations and GPR attribute distributions［J］. Journal of Hydrology，2002，267(3/4)：217-226.
［8］Sperl C. Determination of spatial and temporal variation of the soil water content in an agro-ecosystem with ground-penetrating radar［D］. Munich：Technische Universitat München，1999.
［9］Benedetto A. Water content evaluation in unsaturated soil using GPR signal analysis in the frequency domain［J］. Journal of Applied Geophysics，2010，71(1)：26-35.
［10］曾昭发，刘四新，王者江，等. 探地雷达方法原理及应用［M］. 北京：科学出版社，2006：36-49.
［11］粟毅，黄春林，雷文太. 探地雷达理论语应用［M］. 北京：科学出版社，2006：23-29.
［12］Topp G C，Davis J L，Annan A P. Electromagnetic determination of soil water content：Measurements in coaxial transmission lines［J］. Water Resources Research，1980，16(3)：574-582.
［13］Causse E，Senechal P. Model-based automatic dense velocity analysis of GPR field data for the estimation of soil properties［J］. Journal of Geophysics and Engineering，2006，3(2)：169-176.
［14］Stoffregen H，Zenker T. Wessolek G. Accuracy of soil water content measurements using ground penetrating radar：comparison of ground penetrating radar and lysimeter data［J］. Journal of Hydrology，2002，267(3/4)：201-206.
［15］Lunt I A，Hubbard S S，Rubin Y.Soil moisture content estimation using ground-penetrating radar reflection data［J］. Journal of Hydrology，2005，307(1/2/3/4)：254-269.
［16］Gao S G，Zhu Z L，Jiao Q S，et al. Application of GPR surface reflection method for estimating soil water content of bare soil［C］.14th International Conference on Ground Penetrating Radar，2012：639-645.
［17］Grote K，Hubbard S，Rubin Y. Field-scale estimation of volumetric water content using ground-penetrating radar ground wave techniques［J］. Water Resources Research，2003，39(11)：1321.
［18］Huisman J A，Sperl C，Bouten W，et al. Soil water content measurements at different scales：accuracy of time domain reflectometry and ground-penetrating radar［J］. Journal of Hydrology，2001，245(1/2/3/4)：48-58.
［19］Huisman J A，Bouten W. Accuracy and reproducibility of measuring soil water content with the ground wave of ground penetrating radar［J］. Geophys，2003，8：65-73.
［20］Du S. Determination of water content in the subsurface with the ground wave of ground penetrating radar［D］. Munich：Ludwig Maximilians Universitat，1996.
［21］Galagedara L W，Parkin G D. An analysis of the ground-penetrating radar direct ground wave method for soil water content measurement［J］. Hydrological Processes，2003，17(18)：3615-3628.
［22］朱安宁，吉丽青. 基于探地雷达的土壤水分测定方法研究进展［J］. 中国生态农业学报，2009，17(5)：1039-1044.
［23］Oden C P，Olhoeft G R，Wright D L，et al. Measuring the electrical properties of soil using a calibrated ground-coupled GPR system［J］. Vadose Zone Journal，2008，7(1)：171-183.
［24］Charlton M B. Principles of ground-penetrationg radar for soil moisture assessment ［M/OL］. 2008：http：//www.publication.mbcharlton.com/ResearchNote.html.
［25］Redman D G L，Parkin G. Measuring soil water content with the ground penetrating radar surface reflectivity method：effects of spatial variability［J］. ASAE Meeting Paper NO.032276，2003.
［26］Lambot S，Weihermüller L，Huisman J A，et al. Analysis of air-launched ground-penetrating radar techniques to measure the soil surface water content［J］. Water Resources Research，2006，42(11)：2526-2528.
［27］Huisman J A，Hubbard S S，Redman J D，et al. Measuring soil water content with ground penetrating radar：a review［J］. Vadose Zone Journal，2003，2(4)：476-491.
［28］Weihermueller L，Huisman J A，Lambot S，et al. Mapping the spatial variation of soil water content at the field scale with different ground penetrating radar techniques［J］. Journal of Hydrology，2007，340(3/4)：205-216.
［29］Redman J D，Davis J L，Galagedara L W，et al. Field studies of GPR air launched surface reflectivity measurements of soil water content［C］. Ninth International ConferenceonGroundPenetrating Radar，2002：156-161.
［30］Cosenza P，Marmet E，Rejiba F，et al. Correlations between geotechnical and electrical data：a case study at Garchy in France［J］. Journal of Applied Geophysics，2006，60(3/4)：165-178.
［31］Galagedara L W，Parkin G W，Redman J D，et al. Field studies of the GPR ground wave method for estimating soil water content during irrigation and drainage［J］. Journal of Hydrology，2005，301(14)：182-197.
［32］Galagedara L W，Redman J D，Parkin G W，et al. Numerical modeling of GPR to determine the direct ground wave sampling depth［J］. Vadose Zone Journal，2005，4(4)：1096-1106.
［33］Grote K，Crist T，Nickel C. Experimental estimation of the GPR groundwave sampling depth［J］.Water Resources Research，2010，46(10)：103-112.
［34］Bian Z F，Lei S G，Inyang H I，et al. Integrated method of RS and GPR for monitoring the changes in the soil moisture and groundwater environment due to underground coal mining［J］. Environmental Geology，2009，57(1)：131-142.
［35］何亮，王旭东，杨放. 探地雷达测定土壤含水量的研究进展［J］. 地球物理学进展，2007，22(5)：1673-1679.

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备注/Memo

备注/Memo:

收稿日期：2016-03-09
基金项目：国家自然科学基金(编号：41071225)；国家自然科学基金重点项目(编号：91125002)。
作者简介：高胜国(1986—)，男，山西忻州人，博士，研究方向为农业遥感。E-mail：cugbgaoshengguo@126.com。
通信作者：朱忠礼，博士，讲师，研究方向为遥感水文。E-mail：zhuzl@bnu.edu.cn。

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更新日期/Last Update: 2017-06-20