Decision Analysis of Forest Management Based on Carbon Sequestration Model
DOI:
https://doi.org/10.54691/bcpbm.v22i.1209Keywords:
CASA, Net Primary Productivity, Carbon Sequestration, Forest Management.Abstract
This paper to determine how much carbon dioxide a forest and its products can be expected to sequester over time, building a CASA model to calculate Net Primary Productivity (NPP) of the forest and transfer NPP to carbon sink. Then prove that harvest trees because young forests have stronger carbon sequestration capacity than old forests. Finally, determine that the most effective forest management plan at sequestering carbon dioxide is to harvest old trees and plant new trees at the optimal time provided by model.
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Lal R. Carbon sequestration[J]. Philosophical transactions of the royal society B: Biological Sciences, 2008, 363(1492): 815-830.
Geng A, Yang H, Chen J, et al. Review of carbon storage function of harvested wood products and the potential of wood substitution in greenhouse gas mitigation[J]. Forest Policy and Economics, 2017, 85: 192-200.
Glossary. M.S. Ashton et al. Managing forest carbon in a changing climate, DOI 10.1007/978-94-007-2232-3, © Springer Science+Business Media B.V. 2012.
Du Bobo. Simulation of net primary productivity of Xilingol grassland based on CASA model[J]. Soil and Water Conservation Research, 2021, 28(05).
Field C B. Global net primary production combining ecology and remote sensing [J]. Remote Sensing of Environment,1995, 51(1): 74-88.
Stephen D P, Samuel N G. Global primary production: a remote sensing approach[J]. Journal of Biogeography, 1995, 224: 815-835.
Wangbin. Estimation of temporal and spatial changes of forest carbon sources/sinks in Heilongjiang province based on INTEC model[J]. Northeast Forestry University,2019.
Li Shuyong. Simulation of carbon storage and sink management strategies in forest ecosystems in northeast China: a remote sensing approach[D]. 2015.
Qin Zhangcai et al. Simulating carbon sequestration and GHGs emissions in abies fabric forest on the gongga mountains using a biogeochemical process model forest-DNDC[J]. Journal of Mountain Science, 2008, (03):249-256.
Kumar J K. Carbon storage and sequestration rate assessment and allometric model development in young teak plantations of tropical moist deciduous forest, India[J]. Journal of Forestry Research,2015,26(03):589-604.
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