Historical charcoal additions alter water extractable, particulate and bulk soil C composition and stabilization

Historical charcoal additions alter water extractable, particulate and bulk soil C composition and stabilization

The objective of this work was to investigate the chemical composition and the quantitative changes in soil organic matter (SOM) fractions in response to multiple historical inputs of charcoal that ceased > 60 years ago. The topsoil (0–5 cm) and subsoil (5–20 cm) samples of charcoal enriched soil...

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Bibliographic Details
Published in:Journal of plant nutrition and soil science Vol. 181; no. 6; pp. 809 - 817
Main Authors: Abdelrahman, Hamada, Hofmann, Diana, Berns, Anne E., Meyer, Nele, Bol, Roland, Borchard, Nils
Format: Journal Article
Language:English
Published: Weinheim Wiley Subscription Services, Inc 01-12-2018
Subjects:
Aromaticity
Charcoal
Chemical composition
Cyclotron resonance
ESI‐FT‐ICR‐MS
Fourier transforms
Lignin
Mass spectrometry
Mass spectroscopy
NMR
Nuclear magnetic resonance
Organic chemistry
Organic matter
Organic soils
Particulate organic matter
Porosity
Resonance
Soil investigations
Soil organic matter
Soil porosity
Soil stabilization
Soils
Solid phases
stabilization
Subsoils
Topsoil
WEOC
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Summary:The objective of this work was to investigate the chemical composition and the quantitative changes in soil organic matter (SOM) fractions in response to multiple historical inputs of charcoal that ceased > 60 years ago. The topsoil (0–5 cm) and subsoil (5–20 cm) samples of charcoal enriched soils and the unamended reference soils were assessed for C and N contents in bulk soil, particulate organic matter (POM) fractions and water extractable organic matter (WEOM). The SOM molecular characteristics were investigated in the solid phase by nuclear magnetic resonance (NMR) and in the WEOM by Fourier transform ion cyclotron resonance mass spectrometry (FT‐ICR‐MS). Formerly added charcoal additions reduced the extracted amount of WEOM and altered POM pattern: an increased proportion of C and N stored in coarse, intermediate, and fine POM relative to corresponding total C and N was found in subsoils. In contrast, C and N stored in the residual fraction (< 20 µm) decreased. NMR results revealed a higher aromaticity of SOM in charcoal enriched soils, while the FT‐ICR‐MS results indicated an increased presence of lignin‐ and tannin‐like compounds in the WEOM of these soils. Former charcoal additions enhanced soils capacity to retain and stabilize C and N. Particularly, the presence of charcoal particles elevated C and N stored in large POM fractions > 20 µm, which presumably increases soil porosity and thus the soils' capacity to retain water.
ISSN:1436-8730
1522-2624
DOI:10.1002/jpln.201800261