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Assessment of carbon storage capacity by substitution of wood in public facility

XV World Forestry Congress, 2-6 May 2022










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    Carbon storage accounting in Brazilian harvested wood products
    XV World Forestry Congress, 2-6 May 2022
    2022
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    Brazil is one of the world's leading manufacturers of forest products, and 94% of the raw material comes from cultivated forests, mainly of the Pinus and Eucalyptus genera. Harvested wood products (HWP) can be an important carbon pool, based on the estimated carbon stored in the products in use. Thus, as of 2006, the IPCC began to allow the inclusion of these estimates in national inventories of greenhouse gas emissions. However, Brazil only started to consider these removals and carbon emissions by HWP in the 2020 version of the inventory (base year 2016). The primary data of forest production used in this study were obtained from the database of FAO (FAOSTAT) and of IBGE (Brazilian Institute of Geography and Statistics). Only products manufactured with raw material from planted forests were considered. The methodology for calculating the emission and removal of carbon dioxide followed the IPCC guidelines defined in 2006. Three groups of products were considered: sawnwood; wood-based panels; and paper and cardboard. Of the three approaches commonly used to estimate carbon absorption and emission, the most advantageous calculation was the atmospheric flow method, which is based on carbon fluxes rather than stock changes. This approach benefits major wood products exporting countries, such as Brazil. To calculate the estimates, production in the last year (2016) of 13.4 million m3 of sawnwood, 9.63 million m3 of wood panels and 10.3 million tons of paper and cardboard were considered. The estimates obtained indicate that, in 2016 (considering the period 1990-2016), the annual net contribution of forest products estimated by the atmospheric flow approach was the removal of - 50,772 Gg of CO2eq. This removal corresponds to about 3.5% of Brazil's total emissions and 12.8% of LULUCF (Land Use, Land-Use Change and Forestry) activities emissions. Keywords: Climate change, Monitoring and data collection ID: 3622194
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    Carbon Storage Potential of Mangrove Forest in Quezon Province, Philippines
    XV World Forestry Congress, 2-6 May 2022
    2022
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    Tropical forests play an important role in climate change as sources and sink of carbon. Thus, mangrove forests have significant role in mitigating the climate change problem. The study aimed to measure the amount of accumulated biomass in a mangrove forest; determined the amount of carbon storage in the above-ground biomass and belowground of the area; and ssessed the potential contribution of mangrove forest to the mitigation of climate change. Results of the study showed that the mangrove area has a mean biomass carbon density of 189.53 Mg/ha where the entire amount is contributed only by tree biomass. Soil however, accounted to 51.92 Mg/ha of carbon density. Total carbon density of the area including aboveground (tree) biomass and belowground (soil) has amounted to 241.45 Mg/ha. Highest amounted was accounted by the aboveground which is 78 percent and the remaining 22 percent was in belowground.Using the results obtained in this study, the Philippine mangrove forest can store 28 M tons of carbon. This implies that mangrove can offer a great potential carbon sink. Keywords: Carbon storage, above-ground biomass, carbon density ID: 3487146
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    Volume yield, tree species diversity and carbon storage of sacred groves in Southwestern Nigeria
    XV World Forestry Congress, 2-6 May 2022
    2022
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    Recently, the role of sacred groves in biodiversity conservation and provision of ecosystem goods and services has been a subjected to scientific investigation. In this study, data were collected from four sacred groves (Osun‐Osogbo, Igbo‐Olodumare, Idanre Hills and Ogun‐Onire) in southwestern, Nigeria to investigate their volume yield, tree species diversity, biomass and carbon storage potentials. Data were collected from 32 sample plots of 20 m x 40 m, established across the four sacred groves. In each plot, all woody plants with dbh ≥10cm were identified and their growth variables (dbh and height) measured. Non‐destructive allometric equation method was adopted for the estimation of volume, biomass and carbon stock production. The number of families and tree species encountered in the groves (understory and overstory layers) ranged from 22 to 32 and 41 to 85, respectively. The four groves had high Shannon‐Wiener diversity index (2.63 ‐ 3.55). They had high volume yield (244.99 m3 ha‐1 to 343.08 m3 ha‐1), biomass production (87.8 t ha‐1 to 231.86 t ha‐1) and carbon stock (43.9 t ha‐1 to 115.9 t ha‐1), with potentials for continuous growth as evidenced by the presence of young trees in the lower canopy. Thus, besides being good biodiversity conservation method, sacred groves act as sink of atmospheric CO2 considering their high biomass and carbon accumulation. The use and protection of sacred groves by indigenous people has enhanced tree species diversity, improved carbon sequestration and production of other forests ecosystem goods and services, thereby mitigating climate change and its effects. Keywords: Biomass, Climate change, Carbon stock, Carbon sequestration, sacred forest and Traditional methods ID: 3605244

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