Influence of Vegetation on Simulation of the Water Balance and Hydrological Response to El Nino-Southern Oscillation in Western Tropical South America

Recalde-Coronel G. Cristina; Zaitchik Benjamin; Pan WilliamGetirana Augusto

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Influence of Vegetation on Simulation of the Water Balance and Hydrological Response to El Nino-Southern Oscillation in Western Tropical South America

机译：Influence of Vegetation on Simulation of the Water Balance and Hydrological Response to El Nino-Southern Oscillation in Western Tropical South America

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Land surface models (LSMs) rely on vegetation parameters for use in hydrological and energy balance analysis, monitoring, and forecasting. This study examines the influence that vegetation representation in the Noah-Multiparameterization (Noah-MP) LSM has on hydrological simulations across the diverse climate zones of western tropical South America (WTSA), with specific consideration of hydrological variability associated with El Nino-Southern Oscillation (ENSO). The influence of model representation of vegetation on simulated hydrology is evaluated through three simulation experiments that use 1) satellite-derived constant MODIS; 2) satellite-derived time-varying MODIS; and 3) the Noah-MP dynamic leaf model. We find substantial differences in vegetation fields between these simulations, with the Noah-MP dynamic leaf model diverging significantly from satellite-derived vegetation fields in many ecoregions. Impacts on simulated hydrology were, however, found to be modest across climate zones, except for select extreme events. Also, although impacts on hydrology under ENSO-induced variability were small, we find that the Noah-MP dynamic leaf model simulates a positive relationship between rainfall and vegetation in humid ecoregions of WTSA, where satellite observations may indicate the opposite. The relatively small sensitivity of simulated hydrology to vegetation scheme suggests that the performance of hydrological monitoring and forecasting in WTSA that uses Noah-MP is largely unaffected by the choice of vegetation scheme, such that using a simple climatological default is generally no worse than adopting more complicated options. The presence of some differences between the time-varying and constant MODIS simulations for hydrologic extremes, however, indicates that time-varying MODIS configuration might be more suitable for hydrological hazards applications.

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《Journal of hydrometeorology》 |2022年第11期|1737-1757|共21页
作者
Recalde-Coronel G. Cristina; Zaitchik Benjamin; Pan WilliamGetirana Augusto;
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作者单位

Johns Hopkins Univ;

Duke Univ;

NASA Goddard Space Flight Ctr;

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原文格式 PDF
正文语种英语
中图分类水文循环与水文气象;
关键词
South America; Tropics; ENSO; Hydrometeorology; Land surface model; Interannual variability; LAND-SURFACE MODEL; GROUNDWATER SCHEME; SOIL-MOISTURE; AMAZON BASIN; ASSIMILATION; ENERGY; PRECIPITATION; CLIMATE; CARBON; EVAPOTRANSPIRATION;

Influence of Vegetation on Simulation of the Water Balance and Hydrological Response to El Nino-Southern Oscillation in Western Tropical South America

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