Effect of species grouping and site variables on aboveground biomass models for lowland tropical forests of the Indo-Malay region |
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| Authors: | Solichin Manuri Cris Brack Teddy Rusolono Fatmi Noor’an Louis Verchot Sandhi I. Maulana Wahyu C . Adinugroho Hery Kurniawan Dian Wulansih Sukisno Gita Ardia Kusuma Arif Budiman Rahmad Supri Anggono Chairil Anwar Siregar Onrizal Onrizal Dhany Yuniati Emma Soraya |
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| Affiliation: | 1.Fenner School of Environment and Society,The Australian National University,ACT,Australia;2.MAP Institute,Bogor,Indonesia;3.Faculty of Forestry,Bogor Agricultural University,Bogor,Indonesia;4.Dipterocarps Research Center,Forest Research Development and Innovation Agency,Samarinda,Indonesia;5.Center for International Forestry Research (CIFOR),Bogor,Indonesia;6.Forestry Research Institute Manokwari,Ministry of Environment and Forestry,Manokwari,Indonesia;7.Forest Research and Development Agency,Ministry of Environment and Forestry,Bogor,Indonesia;8.Forestry Research Institute Kupang,Ministry of Environment and Forestry,Nusa Tenggara Timur,Indonesia;9.Implementing Agency for Agricultural Extension and Food Security,Empat Lawang District,Indonesia;10.Ministry of Environment and Forestry,Jakarta,Indonesia;11.Sustainable Palm Oil Initiative Project-UNDP,Jakarta Pusat,Indonesia;12.Alba Community Forest,Semarang,Indonesia;13.Forestry Science Department, Faculty of Agriculture,North Sumatra University,Medan,Indonesia;14.Faculty of Forestry,Gadjah Mada University,Jogjakarta,Indonesia |
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| Abstract: | Key messageThis study assessed the effect of ecological variables on tree allometry and provides more accurate aboveground biomass (AGB) models through the involvement of large samples representing major islands, biogeographical zones and various succession and degradation levels of natural lowland forests in the Indo-Malay region. The only additional variable that significantly and largely contributed to explaining AGB variation is grouping based on wood-density classes.ContextThere is a need for an AGB equation at tree level for the lowland tropical forests of the Indo-Malay region. In this respect, the influence of geographical, climatic and ecological gradients needs to be assessed.AimsThe overall aim of this research is to provide a regional-scale analysis of allometric models for tree AGB of lowland tropical forests in the Indo-Malay region.MethodsA dataset of 1300 harvested trees (5 cm ≤ trunk diameter ≤ 172 cm) was collected from a wide range of succession and degradation levels of natural lowland forests through direct measurement and an intensive literature search of principally grey publications. We performed ANCOVA to assess possible irregular datasets from the 43 study sites. After ANCOVA, a 1201-tree dataset was selected for the development of allometric equations. We tested whether the variables related to climate, geographical region and species grouping affected tree allometry in the lowland forest of the Indo-Malay region.ResultsClimatic and major taxon-based variables were not significant in explaining AGB variations. Biogeographical zone was a significant variable explaining AGB variation, but it made only a minor contribution on the accuracy of AGB models. The biogeographical effect on AGB variation is more indirect than its effect on species and stand characteristics. In contrast, the integration of wood-density classes improved the models significantly.ConclusionOur AGB models outperformed existing local models and will be useful for improving the accuracy on the estimation of greenhouse gas emissions from deforestation and forest degradation in tropical forests. However, more samples of large trees are required to improve our understanding of biomass distribution across various forest types and along geographical and elevation gradients. |
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