Inicio  /  Atmosphere  /  Vol: 9 Núm: 5 Par: May (2018)  /  Artículo
ARTÍCULO
TITULO

A Simulation Study of Global Evapotranspiration Components Using the Community Land Model

Minghao Yang    
Ruiting Zuo    
Liqiong Wang and Xiong Chen    

Resumen

The Qian atmospheric forcing dataset is used to drive the Community Land Model, version 4.0 and 4.5 (CLM4 and CLM4.5) in off-line simulation tests. Based on flux network (FLUXNET) data and reanalysis data provided by National Oceanic and Atmospheric Administration (NOAA) and Climate Forecast System Reanalysis (CFSR), the simulation results of CLM4.5 on the global evaporation of intercepted water from the vegetation canopy (Ec), vegetation transpiration (Et), evaporation of soil (Es) and latent heat flux are evaluated. Subsequently, the improvement in the simulation results of CLM4.5 compared with CLM4.0 is tested and analyzed. The results show that the simulated spatial distribution of Ec, Et and latent heat flux in CLM4.5 are closer to the reanalysis data than Es. The simulated annual means of Et, Es and latent heat flux in CLM4.5 are larger than the reanalysis data, but Ec is smaller. The spatial distribution of the simulation bias of latent heat flux in CLM4.5 is mainly determined by the bias distribution of Es. There is a significant difference in the simulation of Et, Es and latent heat flux between CLM4.5 and CLM4.0. These differences are mainly present near the equator and in the middle and high latitudes in the Northern Hemisphere. In general, compared with CLM4.0, the simulation bias of Et, Es, and latent heat flux have been reduced in CLM4.5, and the simulated means are more consistent with the reanalysis data. Although there is a significant improvement in the simulation of the spatial distribution of Et and Es in CLM4.5 compared with CLM4.0, the ability of CLM4.5 to simulate the spatial distribution of global latent heat flux shows little improvement relative to CLM4.0.

 Artículos similares

       
 
Antonio Couce-Casanova, Juan de Dios Rodríguez-García, María Isabel Lamas and José A. Orosa    
In order to obtain reliable energy simulation results, it is essential to have accurate climate files corresponding to specific geographical locations. The present work describes a selection process of the Typical Meteorological Months (TMM) that will ge... ver más
Revista: Climate

 
Mirce Ivón Morales-Velázquez,Graciela del Socorro Herrera,Javier Aparicio,Arezoo Rafieeinasab,René Lobato-Sánchez     Pág. 189 - 206
Accurate precipitation data is essential for any hydrometeorological study, particularly for calibration and simulation of hydrological models. In this paper, we evaluate the precipitation of two different reanalysis products (the ERA5 and GLDAS), and tw... ver más
Revista: Atmósfera

 
Lourdes Milagros Mendoza Villavicencio,David Mendes,Felipe Ferreira Monteiro,Lara de Melo Barbosa Andrade,Cássia Monalisa dos Santos Silva    
This study was carried out in the Sibinacocha lake watershed in the Peruvian Andes. In this region the long-term meteorological data are scarce and there are few studies of flow forecasts. Based on this evidence, in this study we present the monthly flow... ver más

 
Héctor Navarro-Barboza,Aldo Moya-Álvarez,Ana Luna,Octavio Fashé-Raymundo     Pág. 71 - 86
This study assesses the influence of PM10 on the optical thickness of aerosols in the central Andes of Peru, in addition to analyzing and establishing their circulation patterns from July to October 2017. This particular period is considered herein becau... ver más
Revista: Atmósfera

 
Georgia Lazoglou, George Zittis, Christina Anagnostopoulou, Panos Hadjinicolaou and Jos Lelieveld    
Numerical models are being used for the simulation of recent climate conditions as well as future projections. Due to the complexity of the Earth?s climate system and processes occurring at sub-grid scales, model results often diverge from the observed v... ver más
Revista: Climate