西北矿区不同植物配置模式的碳汇潜力评估OA
Carbon sink potential assessment of different vegetation configuration patterns in mining areas of northwestern China
[目的]探究西北干旱半干旱区不同植物配置模式下的碳汇潜力,为当地生态环境改善及碳汇功能提升提供科学依据.[方法]基于前期试验筛选出来的抗旱增碳汇的灌草植物,依据生态位互补和功能协同原则,设计 6 种不同的植物配置模式,并在矿区排土场开展植物群落构建试验,研究植物配置的碳储量及增汇效果.[结果](1)不同植物配置的生物量碳储量为 2.63~3.24 t/hm2,分别是对照样地的 1.56~1.93 倍.土壤碳密度为 5.98~8.67 t/hm2,较对照显著提升(P<0.05).(2)生态系统有机碳储量较高的 3 种植物配置依次是柠条锦鸡儿+沙打旺+紫花苜蓿+高冰草+狗尾草、紫穗槐+柠条锦鸡儿+胡枝子+草木樨+高冰草+狗尾草、胡枝子+柠条锦鸡儿+沙打旺+紫花苜蓿+披碱草+狗尾草.其有机碳储量分别为 11.62、11.32和 10.68 t/hm2,比对照样地有机碳储量平均增加 56.95%.(3)不同植物配置的生态系统均表现为碳汇,碳汇强度 1.41~2.20 t/hm2,所有处理平均增加碳汇 51.38%.[结论]生态修复过程中,基于科学植物配置充分利用生态位,能够有效提升土壤有机碳密度,增强生态系统的碳汇功能,实现生态修复与碳固持双重目标.
[Objective]To explore the ecosystem carbon storage under different plant configurations,and provide scientific basis for improving the ecological environment and enhancing carbon sink potential in the arid and semi-arid regions of northwestern China.[Method]Based on drought-resistant and carbon sequestering shrubs and herbs screened from preliminary experiments,six different plant configuration modes were designed using the principles of niche complementarity and functional synergy.A plant community construction experiment was conducted in a mining dump site to investigate the carbon storage and carbon sequestration effects of these configurations.[Result](1)The biomass carbon storage of different plant configurations ranged from 2.63 to 3.24 t/ha,which was 1.56-1.93 times that of the control plots.The soil carbon density significantly increased(5.98-8.67 t/ha,P<0.05).(2)The three plant configurations with the highest ecosystem soil organic carbon(SOC)storage were Caragana korshinskii+Astragalus laxmannii+Medicago sativa+Agropyron elongatum+Setaria viridis;Amorpha fruticosa+Caragana korshinskii+Lespedeza bicolor+Melilotus officinalis+Agropyron elongatum+Setaria viridis;and Lespedeza bicolor+Caragana korshinskii+Astragalus laxmannii+Medicago sativa+Elymus dahuricus+Setaria viridis,with values of 11.62,11.32,and 10.68 t/ha,respectively,representing an average increase of 56.95%compared to the control plot organic carbon stock.(3)All plant configurations functioned as carbon sinks,with sequestration intensities ranging from 1.41 to 2.20 t/ha.On average,carbon sequestration increased by 51.38%across all treatments.[Conclusion]During ecological restoration,scientifically designed plant configurations based on niche utilization can effectively enhance SOC density and strengthen the carbon sequestration capacity of ecosystems,achieving the dual goals of ecological restoration and carbon fixation.
刘慧辉;刘斌;栗峰;周润霖;邢友;王春梅
国家能源集团陕西神延煤炭有限责任公司,陕西 榆林 719315国能水务环保有限公司,北京 100039国家能源集团陕西神延煤炭有限责任公司,陕西 榆林 719315国能水务环保有限公司,北京 100039国家能源集团陕西神延煤炭有限责任公司,陕西 榆林 719315北京林业大学环境科学与工程学院,北京 100083
农业科技
植物配置碳储量生态系统生物量土壤西北矿区
plant species combinationscarbon storageecosystembiomasssoilmining areas of northwestern China
《北京林业大学学报》 2026 (4)
64-71,8
国家能源集团科技创新项目(GJNY-22-134).
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