Physically protected carbon stocks in a Brazilian Oxisol under homogeneous forest systems

The soil organic carbon (SOC) stock and its occlusion within aggregates is at the center of discussions regarding climate change and global warming, as it is one of the mechanisms capable of mitigating the effects of these phenomena. Despite this, studies on the topic in tropical soils under native...

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Published inGeoderma Regional Vol. 40; p. e00915
Main Authors Silva, Maicon dos Santos da, Barreto-Garcia, Patrícia Anjos Bittencourt, Monroe, Paulo Henrique Marques, Pereira, Marcos Gervasio, Pinto, Luiz Alberto da Silva Rodrigues, Nunes, Marcio Renato
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2025
Subjects
Aggregation
Brazil
Carbon stabilization
climate change
Eucalyptus urophylla
forests
fractionation
microaggregates
Nitrogen-fixing legumes
oxidation
Oxisols
Pterogyne
Pterogyne nitens
soil organic carbon
species
Brazil
Aggregation
Eucalyptus urophylla
Nitrogen-fixing legumes
Pterogyne nitens
Carbon stabilization
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Abstract The soil organic carbon (SOC) stock and its occlusion within aggregates is at the center of discussions regarding climate change and global warming, as it is one of the mechanisms capable of mitigating the effects of these phenomena. Despite this, studies on the topic in tropical soils under native forest species plantations are still scarce. Therefore, we developed this study asking how SOC and occluded carbon stocks in aggregates respond to homogeneous Pterogyne nitens (N-fixing species) and Eucalyptus urophylla plantations when compared to a native forest? The study was conducted in Oxisol under three forest systems: two homogeneous plantations (P. nitens and E. urophylla) and a native forest (NF), located in the State of Bahia, Brazil. Litter and soil samples were collected up to a meter deep. The soil samples were subjected to physical fractionation by wet sieving, obtaining three size classes of water-stable aggregates: macroaggegates (2000–250 μm), microaggregates (250–53 μm) silt+clay (< 53 μm). The macroaggegates and microaggegates were sonicated to separate free and occluded particulate carbon. The carbon in whole soil and occluded in the aggregates were determined by the wet acidified oxidation method. The SOC stock (depth 100 cm) showed a reduction in the P. nitens plantation (123.1 Mg ha−1) and maintenance in the E. urophylla plantation (194.4 Mg ha−1) when compared to the NF (240.9 Mg ha−1). Occluded carbon showed a lower value in plantations compared to NF, representing an average of 5.8 % of the SOC. The P. nitens plantation negatively impacted SOC stock as a result of lower litter amounts and higher litter decomposition rates. In contrast, the E. urophylla plantation maintained SOC stocks close to those found in the NF due to the large amounts of litter and its high recalcitrance. Both forest plantations affect carbon occlusion in the aggregates, and therefore the SOC is poorly protected physically. [Display omitted]
AbstractList The soil organic carbon (SOC) stock and its occlusion within aggregates is at the center of discussions regarding climate change and global warming, as it is one of the mechanisms capable of mitigating the effects of these phenomena. Despite this, studies on the topic in tropical soils under native forest species plantations are still scarce. Therefore, we developed this study asking how SOC and occluded carbon stocks in aggregates respond to homogeneous Pterogyne nitens (N-fixing species) and Eucalyptus urophylla plantations when compared to a native forest? The study was conducted in Oxisol under three forest systems: two homogeneous plantations (P. nitens and E. urophylla) and a native forest (NF), located in the State of Bahia, Brazil. Litter and soil samples were collected up to a meter deep. The soil samples were subjected to physical fractionation by wet sieving, obtaining three size classes of water-stable aggregates: macroaggegates (2000–250 μm), microaggregates (250–53 μm) silt+clay (< 53 μm). The macroaggegates and microaggegates were sonicated to separate free and occluded particulate carbon. The carbon in whole soil and occluded in the aggregates were determined by the wet acidified oxidation method. The SOC stock (depth 100 cm) showed a reduction in the P. nitens plantation (123.1 Mg ha−1) and maintenance in the E. urophylla plantation (194.4 Mg ha−1) when compared to the NF (240.9 Mg ha−1). Occluded carbon showed a lower value in plantations compared to NF, representing an average of 5.8 % of the SOC. The P. nitens plantation negatively impacted SOC stock as a result of lower litter amounts and higher litter decomposition rates. In contrast, the E. urophylla plantation maintained SOC stocks close to those found in the NF due to the large amounts of litter and its high recalcitrance. Both forest plantations affect carbon occlusion in the aggregates, and therefore the SOC is poorly protected physically. [Display omitted]
The soil organic carbon (SOC) stock and its occlusion within aggregates is at the center of discussions regarding climate change and global warming, as it is one of the mechanisms capable of mitigating the effects of these phenomena. Despite this, studies on the topic in tropical soils under native forest species plantations are still scarce. Therefore, we developed this study asking how SOC and occluded carbon stocks in aggregates respond to homogeneous Pterogyne nitens (N-fixing species) and Eucalyptus urophylla plantations when compared to a native forest? The study was conducted in Oxisol under three forest systems: two homogeneous plantations (P. nitens and E. urophylla) and a native forest (NF), located in the State of Bahia, Brazil. Litter and soil samples were collected up to a meter deep. The soil samples were subjected to physical fractionation by wet sieving, obtaining three size classes of water-stable aggregates: macroaggegates (2000–250 μm), microaggregates (250–53 μm) silt+clay (< 53 μm). The macroaggegates and microaggegates were sonicated to separate free and occluded particulate carbon. The carbon in whole soil and occluded in the aggregates were determined by the wet acidified oxidation method. The SOC stock (depth 100 cm) showed a reduction in the P. nitens plantation (123.1 Mg ha⁻¹) and maintenance in the E. urophylla plantation (194.4 Mg ha⁻¹) when compared to the NF (240.9 Mg ha⁻¹). Occluded carbon showed a lower value in plantations compared to NF, representing an average of 5.8 % of the SOC. The P. nitens plantation negatively impacted SOC stock as a result of lower litter amounts and higher litter decomposition rates. In contrast, the E. urophylla plantation maintained SOC stocks close to those found in the NF due to the large amounts of litter and its high recalcitrance. Both forest plantations affect carbon occlusion in the aggregates, and therefore the SOC is poorly protected physically.
ArticleNumber e00915
Author Silva, Maicon dos Santos da
Monroe, Paulo Henrique Marques
Pinto, Luiz Alberto da Silva Rodrigues
Barreto-Garcia, Patrícia Anjos Bittencourt
Pereira, Marcos Gervasio
Nunes, Marcio Renato
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  fullname: Barreto-Garcia, Patrícia Anjos Bittencourt
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  organization: State University of Southwest Bahia, Department of Agricultural Engineering and Soil, Vitória da Conquista, Bahia 45031-900, Brazil
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  givenname: Paulo Henrique Marques
  surname: Monroe
  fullname: Monroe, Paulo Henrique Marques
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  surname: Pinto
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  organization: Federal Rural University of Rio de Janeiro, Soil Department, Seropédica, Rio de Janeiro 23897-970, Brazil
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  givenname: Marcio Renato
  surname: Nunes
  fullname: Nunes, Marcio Renato
  organization: University of Florida, Soil, Water and Ecosystem Sciences Department, Gainesville 32611, FL, United States
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Eucalyptus urophylla
Nitrogen-fixing legumes
Pterogyne nitens
Carbon stabilization
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Snippet The soil organic carbon (SOC) stock and its occlusion within aggregates is at the center of discussions regarding climate change and global warming, as it is...
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SubjectTerms Aggregation
Brazil
Carbon stabilization
climate change
Eucalyptus urophylla
forests
fractionation
microaggregates
Nitrogen-fixing legumes
oxidation
Oxisols
Pterogyne
Pterogyne nitens
soil organic carbon
species
Title Physically protected carbon stocks in a Brazilian Oxisol under homogeneous forest systems
URI https://dx.doi.org/10.1016/j.geodrs.2024.e00915
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