标量浓度和通量的简单三维冠层-行星边界层模拟模型

IF 2.3 4区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES Tellus Series B-Chemical and Physical Meteorology Pub Date : 2002-11-01 DOI:10.1034/J.1600-0889.2002.201353.X
A. Sogachev, G. Menzhulin, M. Heimann, J. Lloyd
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引用次数: 113

摘要

我们提出了一个能够计算植物冠层和行星边界层(PBL)内物理过程的数值模型,由于减少了计算需求,提供了广泛适用性的潜在优势。该模型名为SCADIS(标量分布),综合了关于边界层和表层湍流以及表层植被过程的现有知识,并使用来自俄罗斯欧洲部分和西伯利亚的几组数据集进行了测试,这些数据集是欧洲西伯利亚CARBONFLUX项目的一部分。尽管为了模拟自然过程而进行了必要的简化,但本文提出的第一个模型版本表明,对于不同的地表特征和天气条件,模拟数据和观测数据之间的一致性令人满意。例如,该模式成功地预测了夏季大气边界层和植物冠层内部CO2浓度、水汽和潜在温度的日变化。此外,还说明了沼泽和森林的表面能特征对对流边界层(CBL)结构和发展的不同影响。该模型被用于评估非均匀植物冠层上涡动相关测量的有效足迹,这里的案例研究是俄罗斯欧洲的混合云杉林。该模型还表明,在以常绿针叶林为主的林分中,由于落叶阔叶林斑块的存在,冠层上湍流和表层通量可能发生变化。
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A simple three-dimensional canopy - planetary boundary layer simulation model for scalar concentrations and fluxes
We present a numerical model capable of computing the physical processes within both plant canopy and planetary boundary layer (PBL), offering the potential benefit of wide applicability due to reduced computational requirements. The model, named SCADIS (scalar distribution), synthesizes existing knowledge of boundary and surface layer turbulence and surface layer vegetative processes and was tested using several data sets from the European part of Russia and Siberia obtained as part of the EUROSIBERIAN CARBONFLUX project. Despite simplifications which were necessary in order to simulate the natural processes, the first version of the model presented here demonstrated a satisfactory agreement between modelled and observed data for different surface features and weather conditions. For example, the model successfully predicted the diurnal patterns of concentration profiles of CO2, water vapour and potential temperature profiles both within the summer atmospheric boundary layer and within the plant canopy itself. The very different effects of the surface energy characteristics of bog versus forest on convective boundary layer (CBL) structure and development are also illustrated. The model was applied to evaluate the effective footprints for eddy covariance measurements above non-uniform plant canopies, the case study here being a mixed spruce forest in European Russia. The model also demonstrates the likely variations in the above-canopy turbulence and surface layer fluxes as dependent on the presence of patches of deciduous broadleaf forest within a predominantly evergreen coniferous stand.
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期刊介绍: Tellus B: Chemical and Physical Meteorology along with its sister journal Tellus A: Dynamic Meteorology and Oceanography, are the international, peer-reviewed journals of the International Meteorological Institute in Stockholm, an independent non-for-profit body integrated into the Department of Meteorology at the Faculty of Sciences of Stockholm University, Sweden. Aiming to promote the exchange of knowledge about meteorology from across a range of scientific sub-disciplines, the two journals serve an international community of researchers, policy makers, managers, media and the general public.
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