Effects of fire on soil organic matter in northern Amazonian forest fragments

Silva, Libério Junio da; Dick, Deborah Pinheiro; NECKEL, Djennifer; Nóbrega, Gabriel Nuto; Rodrigues, Renato de Aragão Ribeiro; Barbosa, Reinaldo Imbrózio; Cordeiro, Renato Campello

doi:10.1590/1809-4392202100133

Cited by 2 publications

(2 citation statements)

References 56 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The aromaticity index decreased dramatically with increasing soil profile depths (F > H > A > B), which means the aromatic content increased with depths. A similar result was found by Zech et al (1989) and Silva et al (2022), showing that the content of aromaticity increased from L to B horizons. It was contrast to the finding of Ohno et al (2014) where the abundance of condensed aromaticity of SOM was much lower in subsoil under coniferous and deciduous forests due to the adsorption of aromatic compounds to the minerals present in the soil profiles.…”

Section: Soil Organic Carbon Indices Of Soil Wettability Aromaticity ...supporting

confidence: 86%

“…Furthermore, aromatic compounds were more likely adsorbed onto the soil particles than mobile in the soil solution through the soil profile (Thai et al 2022;Ohno et al 2017). Besides that, the high inputs of root lignin and cool climate in the study sites were considered as a cause of stability in the aromaticity content in the soil under spruce and in the subsoil horizons (Zech et al 1989;Silva et al 2022).…”

Section: Soil Organic Carbon Indices Of Soil Wettability Aromaticity ...mentioning

confidence: 99%

See 1 more Smart Citation

Temporal changes in soil chemical compositions in acidified mountain forest soils of Czech Republic

et al. 2023

View full text Add to dashboard Cite

The study aimed to investigate the temporal changes of pH, sorption complex, and structure of soil organic matter through the forest soil profile under beech and spruce forests located in Jizera mountains (Czech Republic) and affected by natural and anthropogenic acidification. Soil samples were collected in four different years (2008, 2013, 2015, and 2020) in each horizon: fermented horizons (F), humified horizons (H), organo-mineral horizons (A), and subsurface mineral horizons (B) (cambic or spodic). The cation exchange capacity (CEC), base saturation (BS), exchangeable element contents, pH, and soil organic carbon content (SOC) were determined. The infrared soil spectra were used to calculate indices of potential wettability, aromaticity, and decomposition. Our results showed that most nutrients and aliphatic compounds were retained in the uppermost soil layers. The aromaticity of organic matter increased with depth, while polysaccharides, regarding the decomposition compound, disappeared through the soil horizons. In a long-term observation, SOC content had constantly increased under beech, while spruce remained stable in the organic horizons. Exchangeable element contents increased in each horizon, except for Al and Fe; their content quickly decreased in F horizons and slowly decreased in H horizon under both forest tree species, while the deeper horizons remained constant, but increased in A horizon under spruce. Continuously increasing base cations concentrations in sorption complex of both forest tree species during the study period revealed the effect of forest stand types on acid deposition reduction and mitigation. The temporal changes in CEC, BS, SOC, and soil wettability are more intensive in beech than in spruce forest floor.

show abstract

Section: Soil Organic Carbon Indices Of Soil Wettability Aromaticity ...supporting

confidence: 86%