Aggregate stability and carbon and N dymamics in macroaggregate size fractions with different soil texture

Mahtali Sbih; Zohra Bounouara; Zoubeir Bensid; Djenette Chergui; Abbes Zerari; Souhila Meziane; Antoine Karam

doi:10.18393/ejss.1494595

Eurasian Journal of Soil Science (Jul 2024)

Aggregate stability and carbon and N dymamics in macroaggregate size fractions with different soil texture

Mahtali Sbih,
Zohra Bounouara,
Zoubeir Bensid,
Djenette Chergui,
Abbes Zerari,
Souhila Meziane,
Antoine Karam

Affiliations

Mahtali Sbih: Batna 1 University, Institute of Agronomic and Veterinary Sciences, Department of Agronomy, 05000, Batna, Algeria
Zohra Bounouara: University of Skikda, Institute of Agronomic Sciences, Department of Agronomy, 21000, Skikda, Algeria
Zoubeir Bensid: Batna 1 University, Institute of Agronomic and Veterinary Sciences, Department of Agronomy, 05000, Batna, Algeria
Djenette Chergui: Batna 1 University, Institute of Agronomic and Veterinary Sciences, Department of Agronomy, 05000, Batna, Algeria
Abbes Zerari: Batna 1 University, Institute of Agronomic and Veterinary Sciences, Department of Agronomy, 05000, Batna, Algeria
Souhila Meziane: Batna 1 University, Institute of Agronomic and Veterinary Sciences, Department of Agronomy, 05000, Batna, Algeria
Antoine Karam: Laval University, Department of Soils and Agri-Food Engineering, Sainte-Foy, Quebec. G1V0A6 Canada

DOI: https://doi.org/10.18393/ejss.1494595
Journal volume & issue: Vol. 13, no. 3
pp. 273 – 283

Abstract

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Soil nutrient cycling, the distribution of soil aggregates, and their stability are directly influenced by soil texture. Different sizes of soil aggregates provide microhabitats for microorganisms and therefore influence soil carbon (C) and nitrogen (N) mineralization. The purpose of the present study was to assess the aggregate stability and dynamics of carbon and nitrogen in macroaggregate size fractions (1-8 mm) with different clay content from meadow soils. Surface soil samples (0-15 cm) were collected from 4- to 5-year-old forage crops. Four macroaggregate size classes were isolated by dry sieving and analyzed for their mass proportions: fine macroaggregates (FM) (less than 1 mm), medium-fine macroaggregates (MFM) (1-2 mm), medium-coarse macroaggregates (MCM) (2-4 mm), and large-coarse macroaggregates (LCM) (4-8 mm). The dry mean weight diameter (MWD), organic carbon (OC), total nitrogen (TN), carbon and nitrogen of microbial biomass (C-MB, N-MB) were determined. CO2 emission and net nitrogen mineralized (NM) were measured after 14 weeks of incubation. The amounts of FM were significantly lower than those of intermediate macroaggregates (MCM and MFM) and decreased markedly with increasing clay content within soil macroaggregates. In general, the amounts of macroaggregate size fractions were lowest in soils with high clay content. MWD exhibited a significant correlation with particle size distribution, OC, and MB-C. OC, TN, MB-C, and MB-N contents within macroaggregates increased with decreasing macroaggregate size and increasing clay content of macroaggregate fractions. The CO2 emission and NM content increased with increasing macroaggregate size, indicating higher organic C and N mineralization activity in larger macroaggregates. Mineralization of OC was lowest in macroaggregate fractions with the highest clay content. We conclude that clay content can increase the protection of microbial biomass in meadow soils. Small macroaggregates tend to contain more recalcitrant organic matter compared to larger macroaggregates.

Published in Eurasian Journal of Soil Science

ISSN: 2147-4249 (Online)
Publisher: Federation of Eurasian Soil Science Societies
Country of publisher: Türkiye
LCC subjects: Agriculture: Agriculture (General)
Website: http://ejss.fesss.org/

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