Response of Rice and Carbon Emission to Application of Ameliorant Dregs in The Peat Soil with Saturation and Unsaturation Condition
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Date
2018-02-06
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Abstract
Fertility of peat land is very poor and makes it not suitable for crop without any high input. This condition was indicated
by the very high soil acidity ( low pH), low availability of macro (N, K, Ca and P), and micro (Cu, Zn, Mn and Bo) nutriens and high
cation exchange capacity (CEC) but low base saturation (BS), the presence of toxic organic acid. The main organic acids, as a result of
lignin biodegradation and the sources of C-release, are of aromatic group consisting mainly of derivate phenolic acids. The peat soil
material was taken at depths from 0 to 30 cm, with weathering rate saprik and dregs from Indah Kiat Pulp and Paper at Perawang,
Riau. These experiments using split plot design, the main plot is the condition of the water (unsaturated and saturated) and the
subplot is ameliorant dregs consisting of 4 levels (0, 10, 15 and 20 ton ha-1), each combination was repeated 4 times. The activities
were focused on the interaction of water condition and ameliorant dregs, and its influences to growth and yield of rice, C-emission
(CO2 and CH4). The results showed that the aplication of dregs improves plant growth and increase the yield of rice (weight of dry
milled grain) compared without dreg both at unsaturated condition and saturated conditions. The Cabon-release in the forms of CO2
and CH4 fluxes in saturated conditions is smaller than unsaturated conditions. The application dreg 10 t ha-1 increase the number of
productive tillers and the weight of milled rice about 35 and 75% compared without dreg on saturated condition, whereas the
increase is greater unsaturated conditions about 63 and 80%. The application of dregs 10 t ha-1 in saturated condition can reduce
CO2 and CH4 emissions about 18.19% and 93.71% compared without dreg, otherwise the application dreg 10-20 t ha-1 increase the
production of CO2 and CH4 in unsaturated conditions
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PutRice, peat soil, ameliorant dregs, CH4 and CO2 emission, saturated, unsaturated condition