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地球信息科学学报 2012

L波段对不同盐类土壤的微波介电特性分析

DOI: 10.3724/SP.J.1047.2012.00376, PP. 376-381

丁艳玲,刘宝江,李洋洋

Keywords: 土壤盐度,介电常数,盐种类,微波谐振腔

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Abstract:

土壤盐碱化是世界面临的一大难题。微波遥感探测土壤具有优势,L波段对土壤含水量和含盐量较为敏感。为了分析不同盐类对土壤介电特性的影响,本文利用L波段(1.43GHz)微波谐振腔测量了我国盐碱土中普遍存在的3种盐类(NaCl,Na2SO4,NaHCO3)土壤样品的介电常数,研究了土壤介电常数与含水量、含盐量和盐种类的关系。得出结论实部主要由土壤的含水量决定,含盐量对实部的影响无明显规律;虚部值随含水量和含盐量的增加而增大;3种盐类土壤介电常数虚部随含盐量变化呈现不同的递增趋势,在含盐浓度一定的条件下,虚部值是ε″NaCI>ε″NaHCO3>ε″Na2SO4;在某一含盐量点3种盐类土壤虚部随含水量变化的斜率不同,以此能将3种盐类区分。该研究为建立含不同盐类土壤介电常数模型和微波遥感监测土壤盐碱化提供了实验的依据。

References

[1]	Metternicht G I, Zinck J A. Remote sensing of soil salinity: potentials and constraints[J]. Remote Sensing of Environment, 2003 (1): 1-20.
[2]	杨劲松. 中国盐渍土研究的发展历程与展望[J]. 土壤学报, 2008 (5): 837-845.
[3]	翁永玲,宫鹏.土壤盐渍化遥感应用研究进展[J].地理科学,2006,26(3): 369-376.
[4]	刘欢,刘荣高,刘世阳.干旱遥感监测方法及其应用发展[J]. 地球信息科学学报,2012,14(2):232-239.
[5]	Yu R H, Liu T X, XU Y P, et al. Analysis of salinization dynamics by remote sensing in Hetao Irrigation District of North China[J]. Agricultural Water Management,2010(97):1952-1960.
[6]	Rodríguez P G, González M E P, Zaballos A G. Mapping of salt-affected soils using TM images[J]. International Journal of Remote Sensing,2007,28(12):2713-2722.
[7]	陶勇剑.微波介质材料介电常数测试方法研究 .南昌大学论文,2005,4-17.
[8]	Ho W W, Hall W F. Measurements of the dielectric properties of seawater and NaCl solutions at 2.65GHz[J]. Journal of Geophysical Research,1973(78):6301-6315.
[9]	Ho W W, Love A W, Melle M J V. Measurements of the dielectric properties of sea water at 1.43GHz .NASA Contractor Report CR-2458, Dec, 1974.
[10]	Stogryn A. Equations for calculating the dielectric constant of saline water[J]. IEEE Trans, MTT-19, 1971, 733-736.
[11]	孙宇瑞.土壤含水率和盐分对土壤电导率的影响[J].中国农业大学学报,2000,5(4):39-41.
[12]	张飞,塔西甫拉提·特依拜,丁建丽.渭干河—库车河三角洲绿洲盐渍化土壤特征研究[J]. 干旱地区农业研究,2007,25(2):146-161.
[13]	张丽娜,程晓,伍吉仓,等. 基于决策树分类的张北土壤盐碱化研究[J].安徽农业科学,2009,37(25): 12103-12104.
[14]	亢庆,于嵘,张增祥,等.土壤盐碱化遥感应用研究进展[J].遥感技术与应用,2005, 20(4): 447-454.
[15]	塔西甫拉提·特依拜,吐尔逊·艾山,海米提·司马义,等.土壤盐渍化遥感监测研究进展综述[J]新疆大学学报,2008,25(1):1-7.
[16]	Metternicht G I. Analyzing the relationship between ground based reflectance and environmental indicators of salinity processes in the Cochabamba Valley (Bolivia)[J]. International Journal of Ecology and Environmental Sciences, 1998(24):359-370.
[17]	Metternicht G I, Zinck J A. Remote sensing of soil salinity: potentials and constraints[J]. Remote Sensing of Environment, 2003(85):1-20.
[18]	Newton R W. Microwave remote sensing and its application to soil moisture detection . Remote Sensing Center, Texas A&M University, College Station, TX, Tech, Rep. RSC-81,1977.
[19]	James R W, Schmugge T J. An empirical model for the complex dielectric permittivity of soils as a function of water content[J]. IEEE Trans. Geosci. Remote Sensing, 1985.GE-18(4):288-295.
[20]	Dobson M C, Ulaby F T, Hallikainen M T, et al. Microwave dielectric behavior of wet soil-Part 11: Dielectric mixing models[J]. IEEE Trans. Geosci. Remote Sensing, 1985, GE-23: 35-46.
[21]	邵芸,吕远,董庆,等.含水含盐土壤的微波介电特性分析研究[J].遥感学报,2002,6(6):416-423.
[22]	熊文成,邵芸. 氯化钠盐土壤介电虚部特性的初步研究[J].遥感学报,2006,10(2):279-286.
[23]	Aly Z, Bonn F J, Magagi R. Analysis of the backscattering coefficient of salt-affected soils using modeling and RADARSAT-1 SAR data[J]. IEEE Trans. Geosci. Remote Sensing, 2007, 45(2):332-341.

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