Litcius/Paper detail

Management of plantation forests for bioenergy generation, timber production, carbon emission reductions, and removals

Yadanar Yè Myint, Nophea Sasaki, Avishek Datta, Takuji W. Tsusaka

2021Cleaner Environmental Systems21 citationsDOIOpen Access PDF

Abstract

Management of plantation forests for multiple purposes is critically important in the fight against climate change and loss of natural forests. This study aims to assess bioenergy generation, timber production, carbon emission reductions, carbon removals, and related carbon revenues through the management of plantation forests in Myanmar. We used the latest data from the forest resource assessment to develop the forest land use and growing stocks models for fast-growing and slow-growing plantation forests between 2000 and 2040. We found that natural forests lost 2.6% annually but only 0.02% was converted to plantation forests. Total growing stocks for both forest types increased from just 8.9 million m 3 in 2000 to 39.8 million m 3 in 2040. Total carbon removals were 1.2 Tg CO 2 yr −1 between 2000 and 2040 and 1.3 Tg CO 2 yr −1 during the Paris Agreement timeframe. The use of thinned wood and wood biomasses to substitute the fossil combustion could reduce 12.7 Tg CO 2 yr −1 of carbon emissions. If combined, total emission reductions from bioenergy generation and carbon removals accounts for 82% of Myanmar's total emissions in energy sector. This study concludes that management of plantation forest could contribute to climate change mitigation while reducing timber demand from natural forests.

Topics & Concepts

BioenergyEnvironmental scienceProduction (economics)AgroforestryCarbon fibersForestryBiofuelWaste managementEngineeringGeographyMathematicsEconomicsMacroeconomicsComposite numberAlgorithmEnvironmental Impact and SustainabilityEnergy and Environment ImpactsForest Management and Policy
Management of plantation forests for bioenergy generation, timber production, carbon emission reductions, and removals | Litcius