Firstly, the status quo of Hulunbuir Grassland degradation was introduced, and then the main reasons for the degradation were discussed, such as overgrazing, excessively mining mineral resources and so forth. Finally ...Firstly, the status quo of Hulunbuir Grassland degradation was introduced, and then the main reasons for the degradation were discussed, such as overgrazing, excessively mining mineral resources and so forth. Finally some targeted countermeasures, like improving grassland legislation and policy as well as grassland ecological compensation system, actively implementing ecological animal husbandry and reasonably exploiting mineral resources, were put forward to restore the ecological environment of Hulunbuir Grassland.展开更多
草地净初级生产力(net primary productivity,NPP)作为评估生态系统结构和功能以及植被质量的重要指标,其精准估算对于草地生态系统保护有着重要作用。陆面过程模型可对大范围NPP进行时序模拟,但受限于对植被生理生化特性的认知,应用于...草地净初级生产力(net primary productivity,NPP)作为评估生态系统结构和功能以及植被质量的重要指标,其精准估算对于草地生态系统保护有着重要作用。陆面过程模型可对大范围NPP进行时序模拟,但受限于对植被生理生化特性的认知,应用于目标区域时,模型参数的默认设定会引起模拟偏差。为了使模型适用于呼伦贝尔草地生产力模拟,该研究基于CESM(community earth system model)框架下的最新陆面过程模型CLM5.0(the community land model 5.0)开展模型参数敏感性分析,并采用DREAM(differential evolution adaptive metropolis)算法对最敏感的10个参数进行优化调整,最后将参数优化后的模型应用于呼伦贝尔草地NPP模拟。结果表明:1)对草地NPP模拟最敏感的是呼吸作用类参数,如冠层叶顶维持呼吸基率的截距参数、凋落池到土壤有机质池转移的呼吸分数,其次是碳循环类参数,如叶片碳氮比、细根碳氮比。2)叶片碳氮比与气孔导度参数优化后的后验概率分布为高斯分布,表明该优化为良性约束,反映了碳氮关联参数与呼吸作用参数对于优化模型模拟的有效性。3)参数针对性优化有效提升了CLM5.0对呼伦贝尔草地生产力的模拟性能,NPP年总量相对误差由33.82%降低至10.97%,且应用于在不同类型草地NPP模拟时,其相对误差分别降低了5.62%、8.06%、9.03%。该研究结果可为CLM5.0应用于呼伦贝尔地区的草地生产力模拟提供参考,对合理评估草地生态系统碳循环研究具有积极作用。展开更多
基金Supported by Bid Project for Key Study Base of Humanities and Social Sciences of Jiangxi Higher Education (No.[2008]5)
文摘Firstly, the status quo of Hulunbuir Grassland degradation was introduced, and then the main reasons for the degradation were discussed, such as overgrazing, excessively mining mineral resources and so forth. Finally some targeted countermeasures, like improving grassland legislation and policy as well as grassland ecological compensation system, actively implementing ecological animal husbandry and reasonably exploiting mineral resources, were put forward to restore the ecological environment of Hulunbuir Grassland.
文摘草地净初级生产力(net primary productivity,NPP)作为评估生态系统结构和功能以及植被质量的重要指标,其精准估算对于草地生态系统保护有着重要作用。陆面过程模型可对大范围NPP进行时序模拟,但受限于对植被生理生化特性的认知,应用于目标区域时,模型参数的默认设定会引起模拟偏差。为了使模型适用于呼伦贝尔草地生产力模拟,该研究基于CESM(community earth system model)框架下的最新陆面过程模型CLM5.0(the community land model 5.0)开展模型参数敏感性分析,并采用DREAM(differential evolution adaptive metropolis)算法对最敏感的10个参数进行优化调整,最后将参数优化后的模型应用于呼伦贝尔草地NPP模拟。结果表明:1)对草地NPP模拟最敏感的是呼吸作用类参数,如冠层叶顶维持呼吸基率的截距参数、凋落池到土壤有机质池转移的呼吸分数,其次是碳循环类参数,如叶片碳氮比、细根碳氮比。2)叶片碳氮比与气孔导度参数优化后的后验概率分布为高斯分布,表明该优化为良性约束,反映了碳氮关联参数与呼吸作用参数对于优化模型模拟的有效性。3)参数针对性优化有效提升了CLM5.0对呼伦贝尔草地生产力的模拟性能,NPP年总量相对误差由33.82%降低至10.97%,且应用于在不同类型草地NPP模拟时,其相对误差分别降低了5.62%、8.06%、9.03%。该研究结果可为CLM5.0应用于呼伦贝尔地区的草地生产力模拟提供参考,对合理评估草地生态系统碳循环研究具有积极作用。