Short‐term soil carbon sink potential of oil palm plantations

Smith, Daniel R.; Townsend, Toby J.; Choy, Kwang‐Leong; Hardy, Ian C.W.; Sjögersten, Sofie

doi:10.1111/j.1757-1707.2012.01168.x

Cited by 31 publications

(32 citation statements)

References 61 publications

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“…Em sistemas jovens, a ocupação do solo pelas raízes finas ainda é localizada e, consequentemente, os impactos sobre carbono do solo e respiração microbiana ainda são pequenos, tendendo a aumentar a medida que o sistema amadurece, quando a ocupação do solo e da parte Variação temporal do efluxo de CO 2 do solo em sistemas agroflorestais com palma de óleo na Amazônia Oriental ACTA AMAZONICA aérea é mais homogênea. Por exemplo, Smith et al (2012) observaram aumento da quantidade de raízes em plantios mais velhos (34 anos) de palma de óleo em relação aos mais novos (11 anos) e Almeida et al (2010) relataram aumento do estoque de carbono do solo de acordo com o aumento da idade de plantios de teca (Tectona grandis) no Mato Grosso.…”

Section: Correlação Entre As Variáveisunclassified

Variação temporal do efluxo de CO2do solo em sistemas agroflorestais com palma de óleo na Amazônia Oriental

et al. 2016

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A dinâmica do efluxo de dióxido de carbono (CO 2 ) do solo e seus fatores controladores em sistemas agroflorestais da Amazônia são pouco compreendidas. O objetivo deste estudo foi avaliar a variação temporal do efluxo de CO 2 do solo em sistemas agroflorestais onde a palma de óleo é a cultura principal e sua relação com fatores bióticos (carbono microbiano do solo, carbono total do solo, respiração microbiana do solo, raízes finas do solo, indivíduos componentes dos sistemas agroflorestais (SAFs) ) e abióticos (umidade e temperatura do solo). As medições foram realizadas nos períodos menos chuvoso (dezembro de 2010) e chuvoso (maio de 2011). O efluxo de CO 2 do solo foi mais alto no período chuvoso, provavelmente, devido à maior atividade microbiana nesse período influenciada por fatores climáticos aliados a fatores bióticos. O efluxo de CO 2 do solo se correlacionou positivamente com umidade do solo e carbono da biomassa microbiana e negativamente com temperatura do solo e quociente metabólico, porém as correlações foram fracas. O efluxo de CO 2 do solo foi sensível ao tipo de sistema agroflorestal e a sazonalidade da precipitação. PALAVRAS-CHAVE: Efeito estufa, biomassa microbiana do solo, respiração do solo, umidade do solo, temperatura do solo. Temporal variation of soil CO 2 efflux in oil palm-based agroforestry systems in eastern Amazon ABSTRACTThe soil carbon dioxide (CO 2 ) efflux dynamics and its controlling factors of Amazonian agroforestry systems are poorly understood. The objective of this study was to evaluate the temporal variation of soil CO 2 efflux in oil palm-based agroforestry systems and the relation between efflux and biotic (microbial and total soil carbon, microbial respiration, fine roots, individual components of agroforestry systems (AFS)) and abiotic factors (soil moisture and temperature). The measurements were taken during the less rainy (December 2010) and rainy (May 2011) periods. The soil CO 2 efflux was highest during the rainy season, probably due to increased microbial activity influenced by climatic factors coupled with biotic factors. The soil CO 2 efflux correlated positively with soil moisture and microbial biomass carbon and negatively with soil temperature and metabolic quotient, but these correlations were weak. The soil CO 2 efflux was sensitive to the type of agroforestry system and to rainfall seasonality.

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Section: Correlação Entre As Variáveisunclassified

Variação temporal do efluxo de CO2do solo em sistemas agroflorestais com palma de óleo na Amazônia Oriental

et al. 2016

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“…Mature oil palm and acacia plantations may reach high biomass, but the intensive management practices (i.e. weeding, and harvesting) lead to lowered litter deposition, and therefore these plantations do not support peat accumulation (Smith et al 2012). As the litter input rate depends on vegetation type, it is unlikely that the current vegetation types on managed lands have sufficient volume and litter production capacity to maintain peat production (Hertel et al 2009;Smith et al 2012).…”

Section: Peat Formation and Decomposition And The Effects Of Land-usementioning

confidence: 99%

“…weeding, and harvesting) lead to lowered litter deposition, and therefore these plantations do not support peat accumulation (Smith et al 2012). As the litter input rate depends on vegetation type, it is unlikely that the current vegetation types on managed lands have sufficient volume and litter production capacity to maintain peat production (Hertel et al 2009;Smith et al 2012). Progressing decomposition will therefore take place after deforestation in existing peat depositions, and will alter the properties of the peat formed prior to land-use change.…”

Section: Peat Formation and Decomposition And The Effects Of Land-usementioning

confidence: 99%

“…Additionally, in cultivated sites either the vegetation does not provide sufficient litter input to support peat accumulation or management practices prevent the accumulation of litter as peat (Hertel et al 2009;Smith et al 2012;Jauhiainen et al, 2016MP). This study observed this phenomenon indirectly as a decreased concentration of labile carbohydrates at the intensively altered sites, where litter production does not sufficiently support peat production.…”

Section: Implications Of Findings To Management Of Peatlandsmentioning

confidence: 99%

“…The decrease in CO2 emissions is very likely related to peat decomposability, which was seen to decrease with land management intensity in this study (I, II, III). Therefore, the highest measured CO2 emissions from high biomass oil palm and acacia plantations (IPCC 2014) are likely explained by the availability of labile carbohydrates and nitrogen-based fertilizers (Smith et al 2012). Yet, intensive management practices, e.g.…”

Section: Implications Of Findings To Management Of Peatlandsmentioning

confidence: 99%

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