Predicting soil properties from the Australian soil visible–near infrared spectroscopic database
暂无分享,去创建一个
[1] K. Shepherd,et al. Global soil characterization with VNIR diffuse reflectance spectroscopy , 2006 .
[2] Richard Webster,et al. Discrimination of Australian soil horizons and classes from their visible–near infrared spectra , 2011 .
[3] C. Hurburgh,et al. Near-Infrared Reflectance Spectroscopy–Principal Components Regression Analyses of Soil Properties , 2001 .
[4] K. Shepherd,et al. Development of Reflectance Spectral Libraries for Characterization of Soil Properties , 2002 .
[5] Alex B. McBratney,et al. Using a legacy soil sample to develop a mid-IR spectral library , 2008 .
[6] R. Clark,et al. Reflectance spectroscopy: Quantitative analysis techniques for remote sensing applications , 1984 .
[7] R. Barnes,et al. Standard Normal Variate Transformation and De-Trending of Near-Infrared Diffuse Reflectance Spectra , 1989 .
[8] Adrian Chappell,et al. On the soil information content of visible–near infrared reflectance spectra , 2011 .
[9] R. V. Rossel,et al. Visible and near infrared spectroscopy in soil science , 2010 .
[10] L. A. Stone,et al. Computer Aided Design of Experiments , 1969 .
[11] Sabine Grunwald,et al. Spectroscopic models of soil organic carbon in Florida, USA. , 2010, Journal of environmental quality.
[12] R. M. Lark,et al. Improved analysis and modelling of soil diffuse reflectance spectra using wavelets , 2009 .
[13] R. A. Viscarra Rossel,et al. Fine-resolution multiscale mapping of clay minerals in Australian soils measured with near infrared spectra , 2011 .
[14] R. Isbell,et al. A brief history of national soil classification in Australia since the 1920s , 1992 .
[15] Charlie Chen,et al. Digitally mapping the information content of visible–near infrared spectra of surficial Australian soils , 2011 .
[16] R. Webster,et al. Discriminating between organic matter in soil from grass and forest by near‐infrared spectroscopy , 2010 .
[17] R. V. Rossel,et al. Spectral soil analysis and inference systems : A powerful combination for solving the soil data crisis , 2006 .
[18] R. V. Rossel,et al. Visible, near infrared, mid infrared or combined diffuse reflectance spectroscopy for simultaneous assessment of various soil properties , 2006 .
[19] Alex B. McBratney,et al. Soil chemical analytical accuracy and costs: implications from precision agriculture , 1998 .
[20] B. Minasny,et al. Regression rules as a tool for predicting soil properties from infrared reflectance spectroscopy , 2008 .
[21] A. Savitzky,et al. Smoothing and Differentiation of Data by Simplified Least Squares Procedures. , 1964 .
[22] James B. Reeves,et al. The potential of mid- and near-infrared diffuse reflectance spectroscopy for determining major- and trace-element concentrations in soils from a geochemical survey of North America. , 2009 .
[23] R. V. Rossel,et al. Mapping iron oxides and the color of Australian soil using visible–near‐infrared reflectance spectra , 2010 .
[24] P. Geladi,et al. Linearization and Scatter-Correction for Near-Infrared Reflectance Spectra of Meat , 1985 .
[25] R. V. Rossel,et al. Using data mining to model and interpret soil diffuse reflectance spectra. , 2010 .