哈尔滨市绿色空间碳储量多情景模拟
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F301.2,X171.1

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黑龙江省自然科学基金联合引导性项目“黑龙江省绿色空间碳储量与景观格局适应性调控路径研究”(LH2022E001);国家自然科学基金项目“寒地城市森林水平与垂直结构季相变异的冷岛机制研究”(42171246)


Multi-scenario Simulation on Carbon Storage of Green Space in Harbin City
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    摘要:

    [目的] 预测黑龙江省哈尔滨市未来绿色空间格局碳储量,分析绿色空间变化对碳储量的影响,为双碳政策下哈尔滨市绿色空间规划提供决策依据。[方法] 基于2010,2020年哈尔滨市绿色空间土地覆盖数据,将双碳产业驱动因子引入FLUS模型预测2030年不同情景的绿色空间土地覆盖变化,利用InVEST模型测算2010,2020,2030年碳储量,比较分析碳储量时空变化规律,探讨绿色空间对碳储量的影响。[结果] ①将双碳产业因子引入FLUS模型后,较原模型的kappa系数提高了1.30%,均方根误差减少了0.21%,改进后的模型模拟精度更高。②2010—2020年,碳储量呈下降趋势,共减少了5.14×106 t,耕地的减少是造成碳储量损失的主要因素。地上生物量碳库和土壤碳库碳储量最多,占总碳储量的88.52%。③2030年自然发展、生态保护和经济发展情景下的碳储量分别为2.58×109,2.58×109,2.58×109 t,同2020年相比均呈下降趋势,其中生态保护情景的下降速率最慢,是自然发展情景下的0.12倍。[结论] 未来应加强生态保护修复措施,减少耕地和林地面积流失,控制非绿色空间的扩张,提高哈尔滨市域碳储量。

    Abstract:

    [Objective] The carbon storage of the future green space patterns was predicted, and the impact of green space changes on carbon storage was analyzed in order to provide a basis for green space planning in Harbin City, Heilongjiang Province under the dual-carbon policy.[Methods] Based on the green space land cover data of Harbin City in 2010 and 2020, the dual-carbon industry driving factors were introduced into the FLUS model, and the changes in green space land cover under different scenarios in 2030 were predicted. The carbon storage values in 2010, 2020, and 2030 were calculated using the InVEST model. The spatial-temporal variation of carbon storage was compared and analyzed, and the influence of green space on carbon storage was discussed.[Results] ① After the dual-carbon industry factors were introduced into the FLUS model, the kappa coefficient increased by 1.30%, and the root mean square error decreased by 0.21% compared with the original model, indicating increased simulation accuracy of the improved model. ② From 2010 to 2020, carbon storage decreased by 5.14×106 t, primarily as result of decreased cultivated land. Carbon was primarily stored in the aboveground biomass carbon pool and the soil carbon pool, accounting for 88.52% of the total carbon reserves. ③ Carbon storage under natural development, ecological protection, and economic development scenarios in 2030 were 2.58×109, 2.58×109, and 2.58×109 t, respectively, showing a downward trend from 2020. The decline rate in the ecological protection scenario was the slowest of the three scenarios, and was 0.12 times the rate observed for the natural development scenario.[Conclusion] In the future, ecological protection and restoration measures should be strengthened to reduce the loss of cultivated land and forest land, and the expansion of non-green space should be controlled in order to improve carbon storage in Harbin City.

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李雪,李文,石淞,曲琛.哈尔滨市绿色空间碳储量多情景模拟[J].水土保持通报,2023,43(3):320-329

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  • 收稿日期:2022-10-25
  • 最后修改日期:2023-01-10
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  • 在线发布日期: 2023-08-16
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