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Changes in Structure and Content Humic Substances in Soil During the Laboratory Simulated Fires

–718. LARIDE, W.A. (2015): Infrared Spectra of Humic Acid and Metal Humates Precipitated from Groundwater. Journal of Water Resource and Hydraulic Engineering , 4, 1, p. 105-110. LIU, X.; RYAN, D.K. (1997): Analysis of Fulvic acids using HPLC/UV coupled to FT.IR Spectroscopy. Environmental Technology , 18. p 417-424. NAIDJA, A.; HUANG, P.M.; ANDERSON, W.; KESSEL, C. (2002): Fourier Transform Infrared, UV-Visible, and X-ray Diffraction Analyses of Organic Matter in Humin, Humic Acid, and Fulvic Acid Fractions in Soil Exposed to Elevated CO 2 and N Fertilization

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Textile Fiber Identification Using Near-Infrared Spectroscopy and Pattern Recognition

] Ji, W., Bai, L., Ji, M. (2010). A method for quantifying mixed goat cashmere and sheep wool. Forensic Science International, 208(1-3), 139-142. [11] Tang, M., Zhang, W., Zhou, H. (2014). A real-time PCR method for quantifying mixed cashmere and wool based on hair mitochondrial DNA. Textile Research Journal, 84(15), 1612-1621. [12] Molloy, J. F., Naftaly, M., Andreev, Y. M., et al. (2014). Identification of textile fiber by IR and Raman spectroscopy. International Conference on Infrared, Millimeter, and Terahertz Waves, IEEE 1-2. [13] Tong, M., Cao

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Studies of Structural Changes in PAN Fibers with Various Initial Structures under the Influence of Thermal Treatment in Media

] Fester, W. (1965). Textil – Rundsch., 20, 1. [16] Koszeliew, I. W., Sokołowskij, W. H. (1993). Fibre Chemistry, 5, 8. [17] Fimcer, E., Fros, W. (1992). Fibre Chemistry, 2, 14. [18] Sawczenko, G., Bondarenko, W. M., Azarowa, M. T. (1994). Fibre Chemistry, 6, 21. [19] Azarowa, M. T., Bondarenko, W. M., Sawczenko, G. (1995). Fibre Chemistry, 1, 10. [20] Kakida, H., Tashiro, K. (1998). Mechanism and kinetics of stabilization reactions of polyacrylonitrile and related copolymers IV. Effects of atmosphere on isothermal DSC thermograms and FT-IR

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Usage of FTIR-ATR as Non-Destructive Analysis of Selected Toxic Dyes

–367. 6. C. E. SILVA, L. P. SILVA, H. G. M. EDWARDS, L. F. C. De OLIVEIRA. 2006. Diffuse reflection FTIR spectral database of dyes and pigments. Anal. Bioanal. Chem. , 386 (7–8), pp. 2183–2191. 7. F. AHMED, R. DEWANI, M. K. PERVEZ, S. J. MAHBOOB, S. A. SOOMRO. 2016. Non-destructive FT-IR analysis of mono azo dyes . 48 (1), pp. 71–77. 8. A. K. and H. R. NAFISUR RAHMAN. 2012. Studies on the Development of Spectrophotometric Method for the Determination of. Quim. Nov. , 35 (2), pp. 392–397. 9. Z. L. YANEVA, N. V GEORGIEVA. 2012. Insights into Congo

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Impacts of thinning of a Mediterranean oak forest on soil properties influencing water infiltration

.compag.2015.09.022. Di Prima, S., Lassabatere, L., Bagarello, V., Iovino, M., Angulo-Jaramillo, R., 2016. Testing a new automated single ring infiltrometer for Beerkan infiltration experiments. Geoderma 262, 20–34. DOI: 10.1016/j.geoderma.2015.08.006. Dlapa, P., Bodí, M.B., Mataix-Solera, J., Cerdà, A., Doerr, S.H., 2013. FT-IR spectroscopy reveals that ash water repellency is highly dependent on ash chemical composition. Catena, 108, 35–43. DOI: 10.1016/j.catena.2012.02.011. Doerr, S.H., Shakesby, R.A., Walsh, R.P.D., 2000. Soil water repellency: its

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