J. Mao, N. Chen, and X. Cao, Characterization of humic substances by advanced solid state 361 NMR spectroscopy: Demonstration of a systematic approach, Organic Geochemistry, vol.362, issue.8, pp.42-891, 2011.

J. Zhong, R. L. Sleighter, E. Salmon, G. A. Mckee, and P. G. Hatcher, Combining 364 advanced NMR techniques with ultrahigh resolution mass spectrometry: A new 365 strategy for molecular scale characterization of macromolecular components of soil 366 and sedimentary organic matter, Organic Geochemistry, issue.8, pp.42-903, 2011.

F. V. Schindler, E. J. Mercer, and J. A. Rice, Chemical characteristics of glomalin-related soil 368 protein (GRSP) extracted from soils of varying organic matter content, Soil Biology Biochemistry, vol.369, issue.391, pp.320-329, 2007.

A. N. Fernandes, F. Girardello, V. I. Esteves, ;. M. Sierra, and M. Giovanela, Structure 371 and Properties of Subtropical Brazilian Peat Samples In Peat: Formation, Uses and 372 Biological Effects

S. S. Fong and M. Mohamed, Chemical characterization of humic substances occurring in the 375 peats of Sarawak, Malaysia. Organic Geochemistry, pp.967-976, 2007.

T. Viraraghavan and A. Ayyaswami, Use of peat in water pollution control: a review, Canadian Journal of Civil Engineering, vol.14, issue.2
DOI : 10.1139/l87-035

P. A. Brown, S. A. Gill, and S. J. Allen, Metal removal from wastewater using peat. Water 379 Research, pp.3907-3916, 2000.

I. Gaubeur, Peat as a natural solid-phase for copper preconcentration and

J. Madejová and P. Komadel, Baseline Studies of the Clay Minerals Society Source Clays: Infrared Methods, Clays and Clay Minerals, vol.49, issue.5, pp.410-432, 2011.
DOI : 10.1346/CCMN.2001.0490508

J. A. Pedersen, M. A. Simpson, J. G. Bockheim, and K. Kumar, Characterization of soil 469 organic carbon in drained thaw-lake basins of Arctic Alaska using NMR and FTIR 470 photoacoustic spectroscopy, Organic Geochemistry, issue.8, pp.42-947, 2011.

E. J. Soriano-sierra, Structural description of humic substances from subtropical 473 coastal environments using elemental analysis, FTIR and 13 C-solid state NMR data, Journal of Coastal Research, vol.42, pp.370-382, 2005.

H. Knicker, Solid state CPMAS 13 C and 15 N NMR spectroscopy in organic geochemistry 476 and how spin dynamics can either aggravate or improve spectra interpretation. Organic 477 Geochemistry, pp.42-867, 2011.

M. F. Dignac and H. Knicker, Kögel-Knaber, I. Effect of N content and soil texture on the 479 decomposition of organic matter in forest soils as revealed by solid-state CPMAS 480 NMR spectroscopy, Organic Geochemistry, issue.12, pp.33-1715, 2002.