Effects of Converting Secondary Forest on Tropical Peat Soil to Oil Palm Plantation on Carbon Storage

Development of oil palm plantation on peatland was faced with hydrophobicity problem caused by over drained. Hydrophobicity could reduce water retention and nutrient availability in the peat soil. Beside of proper water management application, addition of soil ameliorant which contain iron could increase stability and improve peat soil fertility. The study was conducted to obtain the effect of steel slag on peat soil properties and hydrophobicity. In this study, peat soil was incorporated with steel slag and incubated in 60 days period. The research was employed completely randomized design (CRD) factorial 2 x 2 x 4. First factor is peat maturity consists of two levels: sapric (S) and hemic (H), while the second factor is soil moisture which also consist of two levels: field capacity (W1) and dry (under the critical water content) (W2). The third factor is steel slag dosage which consist of four levels: 0 g pot (TB0), 7.17 g pot (TB1), 14.81 g -1 -1 pot (TB2), and 22.44 g pot (TB3). The result showed that application of steel slag significantly increase of soil pH, ash content, and water retention at pF 4.2. Furthermore, application of steel slag significantly reduce time for water reabsorption (wettability) in sapric. On the other hand, there are negative corellation between water penetration and soil pH, ash content, and water retention at pF 4.2. Overall, application of steel slag could increase wettability and prevent peat soil hydrophobicity.

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Impacts of conversion of tropical peat swamp forest to oil palm plantation on peat organic chemistry, physical properties and carbon stocks

Geoderma ◽

10.1016/j.geoderma.2016.11.018 ◽

2017 ◽

Vol 289 ◽

pp. 36-45 ◽

Cited By ~ 34

Author(s):

Amanda J. Tonks ◽

Paul Aplin ◽

Darren J. Beriro ◽

Hannah Cooper ◽

Stephanie Evers ◽

...

Keyword(s):

Organic Chemistry ◽

Physical Properties ◽

Oil Palm ◽

Carbon Stocks ◽

Swamp Forest ◽

Peat Swamp Forest ◽

Tropical Peat ◽

Oil Palm Plantation ◽

Tropical Peat Swamp Forest ◽

Tropical Peat Swamp

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Carbon balance of tropical peat ecosystems in Borneo

10.5194/egusphere-egu2020-6405 ◽

2020 ◽

Author(s):

Takashi Hirano

Keyword(s):

Oil Palm ◽

Carbon Balance ◽

Peat Soil ◽

Human Disturbances ◽

Swamp Forest ◽

Tropical Peat ◽

Increased Risk ◽

Tropical Peatlands ◽

Carbon Balances ◽

Peat Fires

Tropical peat swamp forest (PSF) is a unique ecosystem rich in carbon and water, which is widely distributed in Southeast Asia&#8217;s coastal lowlands, mainly in Borneo, Sumatra and Malay Peninsular. The ecosystem has accumulated a huge amount of organic carbon in peat soil over millennia under the condition of high groundwater level. However, PSF has been reduced and degraded by logging, drainage and burning mainly because of land conversion to oil palm and pulp wood plantations during the last two decades. Such human disturbances potentially increase carbon dioxide (CO2) emissions to the atmosphere through enhanced oxidative peat decomposition and the increased risk of peat fires. Thus, it is essentail to assess the current carbon status of tropical peatlands and quantify the effects of disturbance on the carbon balance to understand the role of tropical peatlands in the regional and global carbon balances. We have continuously measured ecosystem-scale eddy fluxes and soil fluxes of CO2 and methane (CH4) in different tropical peat ecosystems, including a little drained PSF, a drained PSF, a burned ex-PSF and an oil palm plantation, in Central Kalimantan, Indonesia, and Sarawak, Malaysia, in Borneo. Based on the monitoring data, I&#8217;ll talk about the carbon balance of tropical peat ecosystems, such as its seasonal variation and its relationship with groundwwater level, and the effect of disturbance due to human activities and ENSO drought on the carbon flux and balance.

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