Tropical peat debris storage in the tidal flat in northern part of the Bengkalis island, Indonesia

Currently, CO2 emissions from the peat is a global problem. Particularly, it is caused by biodegradation of dry peat or peat fire. In the northern coast of Bengkalis island, peat is flowing out due to coastal erosion, and mangrove tidal flat is formed the west coast by peat. The core samples of the...

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Bibliographic Details
Published in:MATEC web of conferences 2019, Vol.276, p.6002
Main Authors: Yamamoto, Koichi, Basir, Noerdin, Sutikno, Sigit, Kanno, Ariyo, Kagawa, Hiroki, Suzuki, Motoyuki, Akamatsu, Yoshihisa, Koyama, Atsushi
Format: Article
Language:English
Subjects:
Accumulation
Biodegradation
Carbon
Coastal erosion
Decomposition
Erosion
Mangrove trees
Organic materials
Peat soils
Tidal flats
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Summary:Currently, CO2 emissions from the peat is a global problem. Particularly, it is caused by biodegradation of dry peat or peat fire. In the northern coast of Bengkalis island, peat is flowing out due to coastal erosion, and mangrove tidal flat is formed the west coast by peat. The core samples of the mangrove have been confirmed that the clay layer and the peat layer are in mutual layers, and decomposition was inhabited because these sandwiched peat soils was an anoxic state. In the northern part of the Bengkalis island, peat is sandwiched in the clay layer. Biodegradation can be suppressed by being sandwiched, there is a possibility of suppressing the amount of peat decomposed by providing a place to store peat in tidal flats. In this research, we examined the degree of decomposition of peat accumulated in the mangrove tidal flats and confirmed that decomposition was suppressed for the peat soils in the tidal flat under mangrove trees, we call it “sandwich effect”. The peat materials in deeper layer came from originally peat swamp forest, however, the surface organic materials were thought to be come from mangrove materials. Considering the change from 1988 to 2015, the carbon fixation rate by mangrove is 1.7 × 10 3 tC km -2 yr -1 , the carbon accumulation rate by accumulation of secondary deposition of peat was 7.4×10 3 tC km -2 yr -1 .
ISSN:2261-236X
2274-7214
2261-236X
DOI:10.1051/matecconf/201927606002