ABSTRACT
Nowadays, the global climate crisis is becoming increasingly serious. Carbon sequestration [1] is a solution for mitigating climate change in addition to reducing carbon emissions. However, how to balance ecology and economy is a problem that people face. Therefore, we propose a method for determining forest carbon sequestration capacity and making management recommendations to forest management agencies. First, we designed the Maximum Carbon Sequestration Volume Model (MCSV) model, which can more accurately measure the carbon sequestration capacity of forests. Second, we propose the Forest Management Decision Model (FMD) evaluation model, which uses the Forest Management Index (FMI) to guide the implementation of measures by forest management departments. We comprehensively consider the influence of six indicators in the three factors of environment, economy and policy, and set different thresholds according to the actual development level of the country, and give suggestions suitable for the national conditions. At the end of this paper, the model is applied to forest management in India, and a reasonable and feasible optimal forest management plan is given.
- Shi Yan, Ge Ying, Jin Hexian, Ren Yuan, Qu Zelong, Bao Zhiyi, Chang Jie. Research progress on carbon sequestration in urban vegetation [J]. Forestry Science, 2016,52(06):122-129.Google Scholar
- Xu Ming & Xue Zhu.(2021). Research on technologies and measures to improve the carbon sequestration capacity of vegetation in carbon neutral service areas. Transportation Energy Conservation and Environmental Protection (05), 10-13.Google Scholar
- The carbon dioxide consumed by trees is not enough to prevent climate change [J]. Shanghai Energy Conservation, 2019(12):1030.Google Scholar
- Liu Zhen. Microbial pathways of atmospheric carbon dioxide fixation in Mu Us sandy soil [D]. Beijing Forestry University, 2019. DOI: 10.26949/d.cnki.gblyu.2019.000042.Google ScholarCross Ref
- Ma Qiongfang, Yan Hong, Li Wei, Zhao Xinsheng, Chen Ling, Zhang Chaofan & Li Jieling. (2021). Analysis of carbon sequestration and oxygen release service functions of wetland ecosystems in Jilin Province. Journal of Ecological Environment (12), 2351-2359. doi:10.16258 /j.cnki.1674-5906.2021.12.010.Google Scholar
- LY/T 3128-2019, Forest vegetation classification, survey and mapping specification [S].Google Scholar
- Pu Ying. Analysis of changes in the carbon sequestration capacity of forest resources in Shizhu County in the Three Gorges Reservoir Area in the past 20 years [J]. Central South Forestry Survey and Planning, 2020,39(03):31-35.DOI:10.16166/j.cnki.cn43 -1095.2020.03.008.Google ScholarCross Ref
- Lv Mingzhi. Comparative study on soil organic carbon content and carbon sequestration rate in typical marsh wetlands in China [D]. Northeast Normal University, 2016.Google Scholar
- Mei Jianwei, Wu Jialian. Research on the value and ecological benefits of 3 generations of Chinese fir forest products in different stands [J]. East China Forest Manager, 2019, 33(04): 15-17.Google Scholar
- Zhang Tian, Yan Hongcan. Optimization and application of multi-attribute decision-making algorithm based on entropy weight method [J]. Journal of North China University of Technology (Natural Science Edition), 2022, 44(01): 82-88.Google Scholar
- Wang Shengchang, Fu Di, Chen Juanjuan, Cai Fengtian, Zhang Xuewen. Weight determination method of subjective evaluation index of vehicle dynamic performance based on entropy method [J]. Highway Traffic Science and Technology, 2015, 32(07): 153-158.Google Scholar
- Forest Resources Assessment. https://fra-data.fao.org/COD/fra2020/home/Google Scholar
- Wang Meng, Li Guicai, Wang Junbang, Sun Xiaofang, Guo Zhaodi. Spatial-temporal variability of net primary productivity of vegetation in India and its influencing factors [J]. Journal of Earth Information Science, 2015, 17(11): 1355-1361.Google Scholar
Index Terms
- Research on the Optimal Forest Management Plan Based on Entropy Weight Method
Recommendations
Forest Management Based on Carbon Sequestration
Advances in Swarm IntelligenceAbstractThe greenhouse gases have exacerbated global warming. We modeled carbon sequestration, annual growth, and expected cutting profits to mitigate climate change to determine appropriate and sustainable forest management. Initially, we established a ...
Research on the Optimal Management Plan of Forests
Advances in Swarm IntelligenceAbstractThis paper studied a method for selecting the optimal management plan for forests based on AHP. First, the paper used the control variable method to determine that the scope of application of the forest management plan is North America, Eurasia (...
Cost-efficient climate policies for interdependent carbon pools
AbstractThe purpose of this paper is to investigate cost-effective climate policy instruments for bioenergy and timber, adapted to the impacts on interdependent forest carbon pools, and applied in the EU climate policy to 2050. We develop a ...
Highlights- We model forest carbon sequestration in EU climate policy from 2010 to 2050.
- We ...
Comments