Time-series maps of aboveground biomass in dipterocarps forests of Malaysia from PALSAR and PALSAR-2 polarimetric data

Omar, Hamdan; Misman, Muhamad Afizzul

doi:10.1186/s13021-018-0108-2

Cited by 7 publications

(1 citation statement)

References 26 publications

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“…S1 in Supplementary material) was accurate with a RMSE value of ± 62.70 Mg ha -1 and a mean absolute percentage error (MAPE) of 18.5%. This accuracy was considered sufficient for the present study (Omar & Misman 2018). The aboveground biomass at the forest site was 3.5 folds relatively higher compared to the mixed crop site (Tab.…”

Section: Resultsmentioning

confidence: 77%

Temporal patterns control carbon balance in forest and agricultural tropical peatlands in North Selangor, Malaysia

Vijayanathan¹,

Ishak²,

Parlan³

et al. 2021

iForest

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Tropical peat swamp forests can sequester significant amount of carbon (C). However, there is dearth of understanding on the tropical soils' C stocks and emissions because of the changes in peatland use, land use policies, and micro-climate. The objective of this study was to determine the C stocks and fluxes of two peat swamp forests and a peatland under mixed cropping in Selangor, Malaysia. Standard procedures were used to determine aboveground biomass, belowground biomass, selected peat soil physical, chemical, and biological properties, and environmental variables that are related to peat soil respirations. The mean C stocks for the peat swamp forest and mixed cropping sites were 1788.79 Mg C ha -1 and 1023.57 Mg C ha -1 , respectively. The carbon dioxide emission rates of peat swamp forest and mixed cropping sites ranged from 7.20 to 73.13 tCO2 ha -1 year -1 and 26.50 to 43.43 tCO2 ha -1 year -1 , respectively. These emissions are related to seasonal changes because the relative humidity, soil temperature, and ground water of the experimental sites had significant effects on soil respiration. Unlike the mixed cropping sites, the fluxes of the peat swamp forest were significantly higher in the dry season compared with the wet season. These findings suggest that peat soil respiration is controlled by relative humidity, temperature, and the changes in ground water table. Continued monitoring and conservation efforts to preserve stored C in peatlands are essential.

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Section: Resultsmentioning

confidence: 77%