2019
DOI: 10.3389/ffgc.2019.00037
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Carbon Emissions From Oil Palm Plantations on Peat Soil

Abstract: Southeast Asian peatlands have undergone recent land use change with an increase in industrial agricultural plantations, including oil palm. Cultivating peatlands requires creating drainage ditches and other surface microforms (i.e., harvest paths, frond piles, cover plants, and next to the palm). However, it is currently unclear how these management actions affect rates of carbon losses from the peat. Here we report carbon fluxes from each of the different surface microforms measured monthly (soil CO 2 [total… Show more

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Cited by 43 publications
(80 citation statements)
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References 66 publications
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“…However, our measurements over the Acacia plantation do not show a diurnal variation in NEE‐CH 4 , and this may confirm that the root system remained above the GWL. Finally, it is likely that a substantial fraction of CH 4 emission from the Acacia plantation area could be occurring from the open water surface of the ditch and canal network (Evans, Renou‐Wilson, & Strack, ; Jauhiainen & Silvennoinen, ; Manning et al, ), and therefore subject to different environmental controls (Deshmukh et al, ). The CH 4 uptake rates in the Acacia plantation are similar to those previously reported over tropical peatlands during the dry season (Sakabe et al, ).…”
Section: Discussionmentioning
confidence: 99%
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“…However, our measurements over the Acacia plantation do not show a diurnal variation in NEE‐CH 4 , and this may confirm that the root system remained above the GWL. Finally, it is likely that a substantial fraction of CH 4 emission from the Acacia plantation area could be occurring from the open water surface of the ditch and canal network (Evans, Renou‐Wilson, & Strack, ; Jauhiainen & Silvennoinen, ; Manning et al, ), and therefore subject to different environmental controls (Deshmukh et al, ). The CH 4 uptake rates in the Acacia plantation are similar to those previously reported over tropical peatlands during the dry season (Sakabe et al, ).…”
Section: Discussionmentioning
confidence: 99%
“…Thus, GWL seems to be the key indirect control on CH 4 emissions via diffusion from soil surfaces (Winton, Flanagan, & Richardson, ). Overall, the lack of a difference between nighttime NEE‐CH 4 over the natural forest and the Acacia plantation can be attributed to the high GWL at the natural forest and to the potential presence of emissions from the water surfaces of ditches and canals in the Acacia plantation (Jauhiainen & Silvennoinen, ; Manning, Kho, Hill, Cornulier, & Teh, ). In addition, the higher soil temperature at the Acacia plantation might have increased CH 4 production (Sjögersten et al, ), while the higher peat bulk density and the absence of a hollow‐hummock microtopography at the Acacia plantation might have lowered CH 4 oxidation by increasing soil moisture content and lowering oxygen diffusion in the peat (Estop‐Aragones, Knorr, & Blodau, ).…”
Section: Discussionmentioning
confidence: 99%
“…However, CH 4 emissions in intercropping sites are still lower than 2 mg m −2 hr −1 fluxes observed in primary peat swamp forest in Peninsular Malaysia (Dhandapani et al, 2019c). Considering these agricultural peatlands are drained, with oil palm monocropping having more severe drainage, there is a potential for greater methane emissions from drainage canals (Manning et al, 2019).…”
Section: Impacts Of Oil Palm On Peat Properties-amelioration Of Peat mentioning
confidence: 94%
“…Plantation establishment exposes soil and can make it vulnerable to compaction, erosion, and leaching (as described for land immediately after logging, in Clarke and Walsh, 2006). In peat soils there are also high levels of subsidence and peat oxidation when soils are exposed (Hooijer et al, 2012;Manning et al, 2019). In addition, chemical fertilisers and pesticides are frequently applied during the cultivation process (Corley and Tinker, 2003a).…”
Section: Introductionmentioning
confidence: 99%