References
- Anderson, H., Hepburn, A. (1986). Variation of humic substances within peat profile. In: Peat and Water (pp. 177-194). C. H. Fuchsman (ed.). N. Y.: Academic Press.
- Borgmark, A. (2005a). Holocene climate variability and periodicities in south-central Sweden, as interpreted from peat humification analysis. Holocene, 15(3), 387-395.
- Borgmark, A. (2005b). The colour of climate: Changes in peat decomposition as a proxy for climate change—a study of raised bogs in South-central Sweden. PhD thesis, Stockholm: Stockholm University.
- Blackford, J. J., Chambers, F. M. (1993). Determining the degree of peat decomposition for peat-based paleoclimatic studies. Int. Peat J., 5, 7-24.
- Brown, P. A., Gill, S. A., Allen, S. J. (2000). Metal removal from wastewater using peat. Water Res., 34(16), 3907-3916.
- Caseldine, C. J., Baker, A., Charman, D. J., Hendon, D. (2000). A comparative study of optical properties of NaOH peat extracts: Implications for humification studies. Holocene, 10(5), 649-658.
- Chapman, S. J., Campbell, C. D., Fraser, A. R., Puri, G. (2001). FTIR spectroscopy of peat in and bordering Scots pine woodland: Relationship with chemical and biological properties. Soil Biol. Biochem., 33, 1193-1200.
- Chen, Y., Senesi, N., Schnitzer, M. (1977). Information provided on humic substances by E4/E6 ratios. Soil Sci. Soc. Amer. J., 41(2), 352-358.
- Cocozza, C., D'Orazio, V., Miano, T. M., Shotyk, W. (2003). Characterization of solid and aqueous phases of a peat bog profile using molecular fluorescence spectroscopy, ESR and FT-IR, and comparison with physical properties. Org. Geochem., 34, 49-60.
- Fong, S. S., Mohamed, M. (2007). Chemical characterization of humic substances occurring in the peats of Sarawak, Malaysia. Org. Geochem., 38(6), 967-976.
- Ghaly, R. A., Pyke, J. B., Ghaly, A. E., Ugursal, V. I. (1999). Remediation of diesel-oil-contaminated soil using peat. Energy Sources, A: Recovery, Utilization, and Environmental Effects, Chemosphere, 21(9), 785-799.
- Yeloff, D., Mauquoy, D. (2006). The influence of vegetation composition on peat humification: Implications for paleoclimatic studies. Boreas, 35, 662-673.
- Moore, P. D., Webb, J. A. (1978). An Illustrated Guide to Pollen Analysis. Hodder and Stought, London. 133 pp.
- Kuder, T., Kruge, M. A., Shearer, J. C., Miller, S. L. (1998). Environmental and botanical controls on peatification: A comparative study of two New Zealand restiad bogs using Py-GC/MS, petrography and fungal analysis. Int. J. Coal Geol., 37, 3-27.
- Von Post, L., Granlund, E. (1926). Södra Sveriges torvtillgångar 1 [Southern Sweden turf resources]. Sver. Geol. Unders., C335 19(2), 1-127 (in Swedish).
- Milori, D. M. B. P., Neto, L. M., Bayer, C., Mielniczuk, J., Bagnato, V. S. (2002). Humification degree of soil humic acids determined by fluorescence spectroscopy. Soil Sci., 167(11), 739-749.
- Steiner, G. M. (ed.). (2005). Moore von Siberian bis Feurland. Biologiezentrum der OÖ Landesmuseum: Linz (Austria).
- Tan, K. H., (2005). Soil Sampling, Preparation, and Analysis. Second Edition. Taylor & Francis Group, New York. 623 pp.
- Šīre, J., Kļaviņš, M., Purmalis, O., Melecis, V. (2008). Experimental study of peat humification indicators. Proc. Latv. Acad. Sci., Section B, 62(1/2), 18-27.
- Zaccone, C., Miano, T. M., Shotyk, W. (2007). Qualitative comparison between raw peat and related humic acids in an ombrotrophic bog profile. Org. Geochem., 38, 151-160.
- Zicheng, Yu., Vitt, D. H., Campbell, I. D., Apps, M. J. (2003). Understanding Holocene peat accumulation pattern of continental fens in western Canada. Can. J. Bot., 81, 267-282.
- Uyguner, C. S., Hellriegel, C., Otto, W., Larive, C. K. (2004). Characterization of humic substances: Implications for trihalomethane formation. Anal. Bioanal. Chem., 378, 1579-1586.
- Лиштван, И. И., Король, Н . Т . (1975). Основные c войства торфа и методы их определения [Basic Properties of Peat and Methods for Their Determination]. Минск: Наука и Техника. 320 с. (in Russian).
- Тюремнов С. Н. (1976). Торфяные месторождения [Peat Deposits]. Москва: Недра. 488 с. (in Russian).