Impact of brown coal dust on the organic matter in particle-size fractions of a Mollisol
References (35)
- et al.
Structure of Chlorella fusca algaenan: relationships with ultralaminae in lacustrine kerogens; species- and environmentdependent variations in the composition of fossil ultralaminae
Org. Geochem.
(1992) - et al.
Chemical changes during natural oxidation of a high volatile bituminuos coal
Org. Geochem.
(1983) - et al.
Studies of angiospermous woods in Australian brown coals by nuclear magnetic resonance and analytical pyrolysis: new insights into early coalification
Int. J. Coal Geol.
(1989) - et al.
NMR of coals and coal products
Annual Reports on NMR Spectroscopy
(1991) - et al.
Devolatilization behaviour of naturally weathered and laboratory oxidized bituminous coals
Fuel
(1993) - et al.
Pyrolysis-gas chromatography mass spectrometry of isolated, synthetic and degraded lignins
Org. Geochem.
(1984) - et al.
Lignin pyrolysis products: their structures and their significance as biomarkers
Org. Geochem.
(1986) - et al.
Chemical characterization of recent and buried woods by analytical pyrolysis
Comparison of pyrolysis data with 13C NMR and wet chemical data
J. Anal. Appl. Pyrol.
(1987) Airborne dust and its significance to soils
Geoderma
(1995)- et al.
Chemical composition of pseudo-phlobanite precursors: implications for the presence of aliphatic biopolymers in vitrinite from coal
Org. Geochem.
(1993)
Bodenkundliche Kartieranleitung
Aspects of the chemical structure of soil organic materials as revealed by solid-state 13C NMR spectroscopy
Biogeochemistry
Die Tiefenentwicklung der natürlichen Kohlenstoff-Isotopengehalte von vollständig dünnschichtweise beprobten Parabraunerden und ihre Relation zur Dynamik der organischen Substanz in diesen Böden
Radiocarbon dating of organic matter fractions of a Chinese Mollisol
Z. Pflanzenernähr. Bodenk.
Thermal degradation relevant to structural studies of humic substances
Thermally altered coals
Carbon and nitrogen in particlesize fractions isolated from Danish arable soils by ultrasonic dispersion and gravity-sedimentation
Acta Agric. Scand.
Cited by (70)
Application of FT-NIR spectroscopy and NIR hyperspectral imaging to predict nitrogen and organic carbon contents in mine soils
2020, Measurement: Journal of the International Measurement ConfederationEstimation of total nitrogen and organic carbon contents in mine soils with NIR reflectance spectroscopy and various chemometric methods
2020, GeodermaCitation Excerpt :The mine soils on the heaps of overburden from the lignite mining may sometimes contain considerable share of so called geogenic C that comes from lignite residues in the mine soil’s parent material (Rumpel et al., 2000; Maciejewska et al., 2003). The NIR spectra of lignite differ from those of recent organic matter (Schmidt et al., 1996; Chodak et al., 2007). Hence, the NIR spectra of soils with organic matter dominated by the geogenic C may differ from those that do not contain this type of organic C (Vindušková et al., 2014).
The content and distribution of various forms of carbon in urban soils of southern Russia on the example of Rostov agglomeration
2020, Geoderma RegionalCitation Excerpt :Thus, in Halle (Germany), the soils contaminated by coal dust are significantly enriched with technogenic organic carbon: in the polluted urban soil, the organic carbon content in the upper 50 cm reaches 13.0–14.1%, whereas in the background soil, only 2.1–2.3%. In other words, about 85% of carbon is represented by the technogenic component (Schmidt et al., 1996). The exhausts of cars greatly affect the composition of the aerial depositions.
Some concepts of soil organic carbon characteristics and mineral interaction from a review of literature
2016, Soil Biology and Biochemistry