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光谱技术在草地土壤检测中的应用和展望 被引量:11

Advance and Prospect of Spectroscopy Applied in Grassland Soil Inspection
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摘要 光谱技术检测具有、省时、成本低、可以无损伤、直接分析等特点,可以同时检测多种土壤成分、在野外检测具有实时性。文章对光谱技术应用于检测草地土壤水分含量、土壤有机质、各种营养元素、土壤质地等方面进行了总结,使用该技术可以及时快捷获取各种土壤数据,有效提高草地管理水平。当前需要解决的问题是对草地植物地下生物量的检测,这对于预测牧草生长状况具有重要作用。另外,能够应用于野外检测草地土壤的光谱仪器还不多,需要开发更多便携式、可野外使用的实时检测仪器。 Infrared spectroscopic measurement, especially near infrared spectroscopy, was widely used in grassland soil inspec- tion. Recently, visible and ultraviolet diffuse reflectance spectroscopic techniques also were used in this field. Spectroscopy method is a rapid, timely, less expensive, non-destructive, straightforward analytic method. Furthermore, a single spectrum allows for simultaneous characterization of various soil properties and the techniques are adaptable for "on-the-go" field use. In the present paper, the authors reviewed the use of the techniques to inspect the water content, organic matter, nitrate content, available phosphorus, exchangeable potassium and soil texture classes of soil. The thermal infrared remote sensing assisted method for monitoring soil water content mainly includes thermal infrared method, thermal inertia method and temperature/vegetation index metho& The content of organic material is strongly correlative with absorption features of soil spectrum in ultraviolet wave band (around 376, 795 nm), visible radiation wave band (around 616, 506 nm), and infrared wave band (around 724, 975 nm). Mid-infrared Fourier transform infrared attenuated mine nitrate concentration in soil pastes. When visible (Vis) total reflectance (FTIR-ATR) spectroscopy could be used to deter(400-700 nm), near infrared (NIR) (700-2 500 nm) and mid infra-red (MIR) (2 500-25 000 nm) were used to predict a number of different soil properties, more accurate predictions were obtained using the MIR for available phosphorus and electrical conductivity and the NIR produced more accurate predictions for exchangeable A1 and K. Vis-NIR-FDA (the factorial discriminant analysis) is an efficient technique to classify soil into three main groups, sandy (light soils), loamy (medium soils), and clayey (heavy soils), and the classification models could be used for an on-the-go measurement system of soil properties. A standard penetrometer cone was modified to collect near-infrared reflectance and estimate soil moisture, density, and clay content. Because the techology can get useful soil datum, it can effectively improve grassland management. Nowaday a question that needs to be answered is how to examine the belowground biomass by the technique, so the authors can base on the data to forecast the grass growth. It is also needed to to invent more portable and "on-the-go" field use spectroscopy apparatus.
作者 孙跃春 王堃
出处 《光谱学与光谱分析》 SCIE EI CAS CSCD 北大核心 2007年第10期2017-2021,共5页 Spectroscopy and Spectral Analysis
基金 国家"863"计划项目(2006AA10Z250)资助
关键词 光谱 草地 土壤 检测 Spectroscopy Grassland Soil Inspection
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