Beijing Forest Carbon Storage Potential Capacity

Észak-magyarországi stratégiai füzetek Pub Date : 2024-07-04 DOI:10.32976/stratfuz.2024.14

Jiqin Ren, Xiangyu Qi, Sijia Yang, Jingjing Li, Guoliang Liu, Jianghong Feng

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Abstract

Forests serve as a crucial carbon reservoir. Therefore, optimizing forest carbon storage is a pathway towards achieving carbon neutrality. In this study, the Forest Simulation Optimization System (FSOS) was used to simulate the carbon storage in Beijing forests over 250 years (2018-2268). It was found that under the no management scenario, carbon storage fluctuates with the natural growth and death of trees, with peaks of more than 90 million tons. It proves that forests have a strong capacity of carbon storage. In the management scenario, harvest trees and make them into furniture, total carbon storage is high and maintains a stable level of 108 million tons. This is almost 1.6 times higher than in the no management scenario on average. In addition, the growth rate of carbon storage is fastest in the middle-aged forest and the near-mature forest. Therefore, in order to optimize the carbon sequestration benefits of forests, the forestry sector must pay attention to the age structure of forests in the future. Based on the results of this study, recommendations were made to optimize carbon storage in Beijing forests and to integrate forest managements of Beijing forests into regional economic and environmental planning.

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北京森林碳储存潜力

森林是重要的碳库。因此，优化森林碳储量是实现碳中和的途径之一。本研究利用森林模拟优化系统（FSOS）模拟了北京森林 250 年（2018-2268 年）的碳储量。结果发现，在无管理情景下，碳储量随着树木的自然生长和死亡而波动，峰值超过 9000 万吨。这证明森林具有很强的碳储存能力。在管理情景下，采伐树木并将其制成家具，碳储存总量较高，并保持在 1.08 亿吨的稳定水平。这比无管理情景平均高出近 1.6 倍。此外，中龄林和近熟林的碳储量增长速度最快。因此，为了优化森林的固碳效益，林业部门必须关注未来森林的龄级结构。根据本研究的结果，提出了优化北京森林碳储量的建议，并将北京森林管理纳入区域经济和环境规划。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Észak-magyarországi stratégiai füzetek

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