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Fractions of nitrogen (including 15N) and also carbon in the soil as affected by different crop residues.

Authors :
Kalembasa, Stanisław
Siczek, Anna
Kalembasa, Dorota
Spychaj-Fabisiak, Ewa Urszula
Becher, Marcin
Gebus-Czupyt, Beata
Source :
International Agrophysics. 2023, Vol. 37 Issue 3, p265-278. 14p.
Publication Year :
2023

Abstract

Returning crop residue can increase soil organic matter content, and residue quality has an influence over the rate of their turnover. However, there is a lack of information concerning the biochemical transformations of organic compounds of N and C present in the crop residues during subsequent crop growth. In this study, the contents of organic N and C fractions in soils obtained using acid and alkaline hydrolysis under two crop rotations (faba bean vs. wheat rotation) were investigated. Black fallow served as a control. The mean total N increased in the order: black fallow, wheat rotation, faba bean rotation, total C and SOM were higher in the cropped soils than in black fallow. Hydrolysable-N (1-step acid hydrolysis) reached 83.7% total N, amino acid-N and threonine+serine-N were the highest in faba bean rotation and the lowest in black fallow, ammonia-N and aminosugar-N were lower in black fallow than in cropped soils. Hydrolysable-N (2-step sequential fractionation) reached 85.3% total N and significant differences were noted between the cropped soils and black fallow, with respect to both the N and C contents. 15N was mainly accumulated in the N soluble and easily hydrolysable N compounds, and these fractions were greater in cropped soils than in black fallow. N in the humic compounds increased from black fallow to faba bean rotation. A PCA analysis showed that crop rotation and soil sampling terms had a substantial influence over cluster formation. An ANOSIM test revealed significant dif­ferences between the crop rotation and term treatments. The results indicated that soil with faba bean rotation is richer in N compounds than soil with wheat as a forecrop and this may result in a reduction in N fertilizers for the succeeding crop. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
02368722
Volume :
37
Issue :
3
Database :
Academic Search Index
Journal :
International Agrophysics
Publication Type :
Academic Journal
Accession number :
172008823
Full Text :
https://doi.org/10.31545/intagr/166586