Evaluate dry deposition velocity of the nitrogen oxides using Noah-MP physics ensemble simulations for the Dinghushan Forest, Southern China
作者: Qi ZhangMing ChangShengzhen ZhouWeihua ChenXuemei WangWenhui LiaoJianing DaiZhiYong Wu
作者单位: 1Sun Yat-sen University
2Jinan University
刊名: Asia-Pacific Journal of Atmospheric Sciences, 2017, Vol.53 (4), pp.519-536
来源数据库: Springer Nature Journal
DOI: 10.1007/s13143-017-0055-y
关键词: Nitrogen depositionDry deposition velocityNitrogen oxidesNoah - MPWRF - Chem
原始语种摘要: There has been a rapid growth of reactive nitrogen (Nr) deposition over the world in the past decades. The Pearl River Delta region is one of the areas with high loading of nitrogen deposition. But there are still large uncertainties in the study of dry deposition because of its complex processes of physical chemistry and vegetation physiology. At present, the forest canopy parameterization scheme used in WRF-Chem model is a single-layer “big leaf” model, and the simulation of radiation transmission and energy balance in forest canopy is not detailed and accurate. Noah-MP land surface model (Noah-MP) is based on the Noah land surface model (Noah LSM) and has multiple parametric options to simulate the energy, momentum, and material interactions of the vegetation-soil-atmosphere system....
全文获取路径: Springer Nature  (合作)
影响因子:0.869 (2012)

  • deposition 沉积
  • velocity 速度
  • physics 物理学
  • nitrogen 
  • coupled 耦合
  • model 模型
  • parameters 参数
  • calculation 计算
  • simulation 模拟
  • balance 平衡