Texture and organic carbon contents do not impact amount of carbon protected in Malagasy soils

Razafimbelo, Tantely; Chevallier, Tiphaine; Albrecht, Alain; Chapuis‐Lardy, Lydie; Rakotondrasolo, Fela Nirina; Michellon, Roger; Rabeharisoa, Lilia; Bernoux, Martial

doi:10.1590/s0103-90162013000300009

Cited by 19 publications

(13 citation statements)

References 23 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In this sense, it is worth mentioning excess moisture and very low temperatures (BALDOCK; NELSON, 2000), as well as the physical protection within soil microaggregates (CAMBARDELLA; ELLIOTT, 1993;FELLER, 2000;SIX et al, 2000) and chemical protection by bonds between organic and clay mineral compounds (PARFITT et al, 1997). However, in this study, the soil clay content was not the preponderant factor for OC accumulation, as reported elsewhere by Razafimbelo et al (2013). Therefore, the pine trees were decisive for soil TOC accumulation, as also shown by the negative correlation between the TOC and clay contents, and because the TOC levels and their POC and MAC fractions were highest precisely in the soil with the lowest proportion of this particle-size fraction.…”

Section: Total Particulate and Mineral-associated Organic Carbon Consupporting

confidence: 68%

Alterações no carbono orgânico do solo de campo natural submetido ao plantio de <i>Pinus taeda</i> em três idades

Cassol

Fachini²,

Mafra

et al. 2019

Ciênc. Florest.

View full text Add to dashboard Cite

O plantio de pinus em áreas de campo natural (NG) pode alterar as formas e estoques de carbono orgânico (CO) do solo. Visando quantificar essas alterações, foram determinados os teores e estoques de CO total (TOC) e das frações particulada (POC) e associadas aos minerais (CAM) em cinco camadas, entre 0,0 e 0,4 m de profundidade, do solo sob usos com NG e plantios de pinus aos cinco (P5), 16 (P16) e 21 (P21) anos. O estudo foi realizado em áreas de Cambissolo Húmico na região do planalto sul de Santa Catarina. O teor de TOC, nas diferentes camadas e usos, variou entre 15 e 45 g kg-1 e seu estoque, na soma das camadas, entre 86 e 144 Mg ha-1. O teor de POC variou entre 2 a 23 g kg-1 e seu estoque, entre 7,5 e 22 Mg ha-1, enquanto o teor de CAM variou entre 12 e 24 g kg-1 e seu estoque, entre 78 e 122 Mg ha-1. Em geral, os teores e estoques de TOC e das frações CAM e POC do solo aumentam com a idade dos plantios de pinus até 21 anos. Os teores de TOC e POC e o estoque dessa fração, em geral diminuem com a profundidade do solo sob NG e P5 e P21, mas o teor de CAM e os estoques dessa fração e do TOC geralmente não variam entre as camadas até 0,40 m de profundidade.

show abstract

Section: Total Particulate and Mineral-associated Organic Carbon Consupporting

confidence: 68%

Alterações no carbono orgânico do solo de campo natural submetido ao plantio de <i>Pinus taeda</i> em três idades

Cassol

Fachini²,

Mafra

et al. 2019

Ciênc. Florest.

View full text Add to dashboard Cite

show abstract

“…This accumulation and binding process is driven predominantly by the organic carbon content of the fractions (Tan et al, 2007;Guimara et al, 2013;Razafimbelo et al, 2013). The degrading microbes of PAHs were also distributed un-evenly through out the soil particles with different sizes (Razafimbelo et al, 2013). The collaboration of organic matter in soil for building aggregates in several land use managements had, variety of influences on the fate of PAHs, reported by Xiao et al (2014).…”

Section: Phytoremediation Of Hc and Soil Structurementioning

confidence: 99%

“…In an experiment referring to the interaction between soil aggregation and hydrocarbon contamination Amellal et al (2001) indicated that, more PAHs were found in the smaller size fractions (clay < 2 µm and fine silt 2 to 20 µm) compared to the sand and coarse silt. This accumulation and binding process is driven predominantly by the organic carbon content of the fractions (Tan et al, 2007;Guimara et al, 2013;Razafimbelo et al, 2013). The degrading microbes of PAHs were also distributed un-evenly through out the soil particles with different sizes (Razafimbelo et al, 2013).…”

Section: Phytoremediation Of Hc and Soil Structurementioning

confidence: 99%

“…Commonly these agents could be very simple plant residues (different organic materials) with low density and when incorporated with soil it lowers the bulk density and increase porosity and oxygen diffusion and further help building water-stable soil aggregates. These materials include vermiculite (inorganically), and saw dust, wheat bran, hay and other grass residues organically enhance jointing soil particle together and consequently increase aeration, microbial activity and thus hydrocarbon degradation (Razafimbelo et al, 2013). In respect to soil aggregation and remediation processes some other complexities like root growth and functions, soil water status and chemical properties (i.e.…”

Section: Phytoremediation Of Hc and Soil Structurementioning

confidence: 99%

“…In another experiment, Kaimi et al (2007), by cultivating twelve plant species measured the changes in total petroleum hydrocarbon concentration, soil dehydrogenase activity and the number of aerobic bacteria and concluded that TPH concentration was more dependent to the soil dehydrogenase activity than to the aerobic bacterial number. Several experiments (Metay et al, 2007;Razafimbelo et al, 2013) showed that crushing soil aggregates would enhance respiration (higher CO 2 ), which results in additional carbon mineralization as SOC pool, physically protected in soil aggregation. In cases when oxygen is absent or limited, biodegradation can occur anaerobically.…”

Section: Phytoremediation Of Hc and Soil Air Statusmentioning

confidence: 99%

See 2 more Smart Citations

Importance of soil physical characteristics for petroleum hydrocarbons phytoremediation: A review

Hajabbasi¹

2016

Afr. J. Environ. Sci. Technol.

View full text Add to dashboard Cite

Petroleum and petrochemical hydrocarbons for some places are serious sources of environmental pollutants. To remediate these contaminants, phytoremediation, a relatively low cost and an environmental friendly technique is recommended more widely, now more than ever. Successful and effective applying of hydrocarbons phytoremediation depends mainly on the soil and plant types and conditions and microbial activities and the interactions between these three factors. Although for the last several decades, various plant and organism's species for the phytoremediation processes have been extensively studied, evaluating and characterizing soil properties, as an important objective for sustainable remediation and land use management, which had negligible considerations. An ideal soil for phytoremediation should have proper physical, chemical and biological characteristics to let the plant grow well and produce biomass as high as possible. It also should provide favorable conditions for microbial activities to perform efficient remediation. Soil physical characteristics such as texture, structure, water status and aeration are important factors affecting the microbial activities and consequently the degree of remediation potential. A better understanding of soil physical properties in conjunction with proper soil-plant-microbe management could be exploited to enhance the remediation of hydrocarbon contaminated soils and thus sustainable healthy environment.

show abstract

Effect of Land Cover on Soil Particle Size and Organic Carbon in the Plough Layer

Roy¹,

Sreekesh

2016

Geostatistical and Geospatial Approaches for the Characterization of Natural Resources in the Environment

View full text Add to dashboard Cite

Texture and organic carbon contents do not impact amount of carbon protected in Malagasy soils

Cited by 19 publications

References 23 publications

Alterações no carbono orgânico do solo de campo natural submetido ao plantio de <i>Pinus taeda</i> em três idades

Alterações no carbono orgânico do solo de campo natural submetido ao plantio de <i>Pinus taeda</i> em três idades

Importance of soil physical characteristics for petroleum hydrocarbons phytoremediation: A review

Effect of Land Cover on Soil Particle Size and Organic Carbon in the Plough Layer

Contact Info

Product

Resources

About