地球与行星物理论评(中英文)2026,Vol.57Issue(2):210-224,15.DOI:10.19975/j.dqyxx.2025-025
基于多频段GPR早期信号的绿洲盐渍土水分反演
Soil moisture inversion of oasis saline soil based on early-time signals of multi-frequency GPR
摘要
Abstract
Oasis agriculture in arid regions persistently faces dual challenges of water scarcity and secondary soil salinization,making accurate acquisition of spatiotemporal soil moisture distribution characteristics critical for sustaining agricultural development.Geophysical detection methods such as ground penetrating radar(GPR)have become viable approaches for mesoscale soil moisture monitoring.However,conventional GPR methods suffer performance degradation in high-conductivity saline soils due to electromagnetic wave attenuation and scattering.Additionally,existing GPR early-time signal studies are predominantly limited to homogeneous or low-loss media,lacking systematic validation in oasis farmland environments characterized by high salinity and spatial heterogen-eity,which severely constrains the widespread application of this method in saline soil moisture inversion.This study constructs a multi-scale saline soil model based on elliptical random media,integrating forward simulations with field experiments in Xinjiang oasis cotton fields to quantitatively compare the performance of antenna fre-quencies(250 MHz and 1000 MHz)and early-time signal indices including carrier frequency amplitude(CFA)and average envelope amplitude(AEA)in saline soil moisture inversion.The results demonstrate that:(1)Both early-time signal methods maintain stable inversion accuracy(R2>0.60)in saline soils with conductivities up to 0.36 S/m,confirming the feasibility of GPR early-time signal methods for quantitative soil moisture inversion in highly saline environments;(2)The accuracy of saline soil moisture inversion based on early-time signals is highly sensitive to antenna frequency and medium heterogeneity,with the 250 MHz low-frequency antenna exhibiting su-perior depth adaptability and anti-interference capability for monitoring the 0-30 cm plough layer,while the 1000 MHz antenna shows heightened sensitivity to scattering effects from small-scale surface heterogeneities;(3)The CFA index demonstrates higher sensitivity to dielectric constant variations under low soil moisture condi-tions(<15%),whereas the AEA index exhibits enhanced stability in high moisture environments(>20%).This study proposes an optimized strategy for GPR early-time signal saline soil moisture inversion indices tailored to different degrees of soil heterogeneity and moisture conditions,and validates through field experiments the practi-cal applicability of 250 MHz antennas combined with CFA and AEA indices in oasis farmland environments,providing innovative technical support for precision water-salt management in arid oasis agriculture.关键词
探地雷达/早期信号/盐渍土/水分反演/随机介质/绿洲农田Key words
ground penetrating radar/early-time signal/saline soil/moisture inversion/random media/oasis farmland分类
天文与地球科学引用本文复制引用
黄天宝,张金珠,谭霄,崔喜红,侯斐斐,许航,王振华,郭立..基于多频段GPR早期信号的绿洲盐渍土水分反演[J].地球与行星物理论评(中英文),2026,57(2):210-224,15.基金项目
国家重点研发计划(2023YFD1901203)Supported by the National Key Research and Development Program of China(Grant No.2023YFD1901203) (2023YFD1901203)
