Organic Carbon and Physical Properties in Sandy Soil after Conversion from Degraded Pasture to Eucalyptus in the Brazilian Cerrado

Sena, Karla Nascimento; Maltoni, Kátia Luciene; Faria, Gláucia Amorim; Cassiolato, Ana Maria Rodrigues

doi:10.1590/18069657rbcs20150505

Cited by 11 publications

(14 citation statements)

References 54 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…The TOC and CS content found in the uppermost soil layer (Table 1) is related to the input of residual phytomass from eucalyptus harvest, a recurrent response frequently reported in the literature (Costa Jr et al, 2012;Guan et al, 2015;Jesus et al, 2015;Marques et al, 2016;Sena et al, 2017). Below the surface, the increases observed in TOC and CS in deeper layers (0.20-0.60 m -Table 1) for the CTL and B coincide with the layer of greatest abundance of the root system in eucalyptus.…”

Section: Discussionsupporting

confidence: 56%

“…In a study on sandy soil, Soares et al (2017) found changes of greater magnitude in carbon stocks in the organic matter fractions in the 0.00-0.10 m soil layer due to the large contribution of the eucalyptus residual phytomass. The organic fraction of the soils do not have the same stability as the mineral fraction under agricultural use; thus, intensive use of the soil can contribute to its degradation (Six and Paustian, 2014;Sena et al, 2017), compromising the stability of its aggregates. Consequently, losses of TOC occur, which increases soil bulk density and reduces total porosity.…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Forest harvest management systems and residual phytomass affecting physical properties of a sandy soil

Sena¹,

Maltoni²,

Troleis³

et al. 2021

Revista Brasileira De Ciência Do Solo

Self Cite

View full text Add to dashboard Cite

Section: Discussionsupporting

confidence: 56%

Section: Discussionmentioning

confidence: 99%

Forest harvest management systems and residual phytomass affecting physical properties of a sandy soil

Sena¹,

Maltoni²,

Troleis³

et al. 2021

Revista Brasileira De Ciência Do Solo

Self Cite

View full text Add to dashboard Cite

“…Manejos não-conservacionistas do solo, sob áreas de pastagem, podem promover a degradação da estrutura física, permitir a erosão, reduzir a macroporosidade e a infiltração de água, aumentar a resistência do solo à penetração de raízes, reduzir o volume total de poros do solo e promover erosão laminar (Byrnes et al, 2018;Brizzi et al, 2019). Estes processos acarretam no aumento da densidade do solo (Ds) e no menor desenvolvimento de macroagregados, culminando em uma contínua diminuição da produtividade (Sena et al, 2017). Entretanto, sistemas de manejo conservacionistas podem reverter este processo e melhorar os atributos físicos do solo, tais como a agregação e a Ds (Comin et al, 2016;Martinkoski et al, 2017).…”

Section: Introductionunclassified

Atributos Físicos Do Solo Em Um Sistema Silvipastoril Com Núcleos Arbóreos No Estado De Santa Catarina

Battisti

Filho

Loss

et al. 2020

HOLOS

View full text Add to dashboard Cite

Sistemas silvipastoris e o pastoreio racional voisin (PRV) podem elevar a qualidade dos atributos físicos de solos pastoris degradados, aumentando a biodiversidade e a produtividade agrícola. A partir disto, este trabalho teve como objetivo avaliar os efeitos da implantação do sistema silvipastoril com quatro anos com núcleos arbóreos de diversidade (SSPnúcleos) sob os atributos físicos do solo, comparando com pastagens desprovidas de sombra natural (PDS), floresta primária (F1) e floresta secundária (F2). Foram avaliados os seguintes indicadores de qualidade do solo: densidade do solo (Ds) e os índices de agregação do solo: diâmetro médio geométrico (DMG) e o índice de sensibilidade do DMG (ISDMG). Os resultados evidenciaram que os sistemas SSPnúcleos e PDS apresentaram valores superiores de Ds em relação à F1, mas estes valores são inferiores ao valor crítico para desenvolvimento de raízes. A pesquisa demonstrou o potencial dos tratamentos SSPnúcleos e PDS para a promoção da estruturação física do solo, apresentando valores de DMG e ISDMG superiores à F1, que representa a condição original do solo. Além disso, observou-se que a presença de árvores não influenciou negativamente, tão pouco positivamente nos atributos físicos do solo na região sombreada no entorno dos núcleos, onde os animais se concentram. Dessa forma, foi possível inferir que os manejos agroecológicos (PRV e o SSPnúcleos) promovem o processo de agregação do solo de forma mais eficiente em comparação às áreas de floresta, com destaque para a floresta secundária, evidenciando sua capacidade de restauração da estrutura física do solo.

show abstract

“…Changes in soil use, from natural forest to agricultural use, frequently generate modifications in the soil organic carbon content. This affects the aggregates and soil stability directly, which leads to soil productivity loss (Sena et al, 2017). According to Lozano et al (1997), the soil structure and stability of aggregates are the most deteriorated physical properties in agricultural tropical soils that are exposed to intense conventional tillage.…”

Section: Introductionmentioning

confidence: 99%

Impact of soil use on aggregate stability and its relationship with soil organic carbon at two different altitudes in the Colombian Andes

Visconti-Moreno¹,

Valenzuela-Balcázar²

2019

Agron. colomb.

View full text Add to dashboard Cite

The stability of soil aggregates depends on the organic matter, and the soil use and management can affect the soil organicmatter (SOM) content. Therefore, it is necessary to know therelationship between aggregate stability and the content of SOMin different types of soil use at two different altitudes of theColombian Andes. This study examined the conditions of soilaggregate stability expressed as a distribution of the size classes of stable aggregates (SA) and of the mean weighted diameter of the stable aggregates (MWD). To correlate these characteristics with the soil organic carbon (OC), we measured the particulate organic matter pool (POC), the OC associated with the mineral organic matter pool (HOC), the total organic carbon content (TOC), and the humification rate (HR). Soils were sampled at two altitudes: 1) Humic Dystrudepts in a cold tropical climate (CC) with three plots: tropical mountain rainforest, pastures, and crops; 2) Fluvaquentic Dystrudepts in a warm tropical climate (WC) with three plots: tropical rainforest, an association of oil palm and pastures, and irrigated rice. Soils were sampled at three depths: 0-5, 5-10 and 10-20 cm. The physical properties, mineral particle size distribution, and bulk density were measured. The content of SA with size>2.36 mm was higher in the CC soil (51.48%) than in the WC soil (9.23%). The SA with size 1.18-2.36 mm was also higher in the CC soil (7.78%) than in the WC soil (0.62%). The SA with size 0.60-1.18 mm resulted indifferent. The SA with size between 0.30 and 0.60 mm were higher in the WC soil (13.95%) than in the CC soil (4.67%). The SA<0.30 mm was higher in the WC soil (72.56%) than in the CC soil (32.15%). It was observed that MWD and the SA>2.36 mm increased linearly with a higher POC, but decreased linearly with a higher HR. For the SA<0.30 mm, a linear decrease was observed at a higher POC, while it increased at a higher HR.

show abstract

Organic Carbon and Physical Properties in Sandy Soil after Conversion from Degraded Pasture to Eucalyptus in the Brazilian Cerrado

Cited by 11 publications

References 54 publications

Forest harvest management systems and residual phytomass affecting physical properties of a sandy soil

Forest harvest management systems and residual phytomass affecting physical properties of a sandy soil

Atributos Físicos Do Solo Em Um Sistema Silvipastoril Com Núcleos Arbóreos No Estado De Santa Catarina

Impact of soil use on aggregate stability and its relationship with soil organic carbon at two different altitudes in the Colombian Andes

Contact Info

Product

Resources

About