Soil carbon dioxide emissions from a rubber plantation on tropical peat

Soil carbon dioxide emissions from a rubber plantation on tropical peat

Land-use change in tropical peatland potentially results in a large amount of carbon dioxide (CO2) emissions owing to drainage, which lowers groundwater level (GWL) and consequently enhances oxidative peat decomposition. However, field information on carbon balance is lacking for rubber plantations,...

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Veröffentlicht in:The Science of the total environment 2017-03, Vol.581-582, p.857-865
Hauptverfasser: Wakhid, Nur, Hirano, Takashi, Okimoto, Yosuke, Nurzakiah, Siti, Nursyamsi, Dedi
Format: Artikel
Sprache:eng
Schlagworte:
Chamber method
Groundwater level
Oxidative peat decomposition
Soil respiration
Subsidence
Trenching
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Zusammenfassung:Land-use change in tropical peatland potentially results in a large amount of carbon dioxide (CO2) emissions owing to drainage, which lowers groundwater level (GWL) and consequently enhances oxidative peat decomposition. However, field information on carbon balance is lacking for rubber plantations, which are expanding into Indonesia's peatlands. To assess soil CO2 emissions from an eight-year-old rubber plantation established on peat after compaction, soil CO2 efflux was measured monthly using a closed chamber system from December 2014 to December 2015, in which a strong El Niño event occurred, and consequently GWL lowered deeply. Total soil respiration (SR) and oxidative peat decomposition (PD) were separately quantified by trenching. In addition, peat surface elevation was measured to determine annual subsidence along with GWL. With GWL, SR showed a negative logarithmic relationship (p
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2017.01.035