Litcius/Paper detail

Effects of Improved Simulation of Precipitation on Evapotranspiration and Its Partitioning Over Land

Zeyu Cui, Yong Wang, Guang J. Zhang, Mengmiao Yang, Jane Liu, Linyi Wei

2022Geophysical Research Letters30 citationsDOIOpen Access PDF

Abstract

Abstract Evapotranspiration (ET) is a key component of the global hydrological cycle, which is strongly modulated by the occurrence of different rainfall intensities. Global climate models (GCMs) commonly suffer from “too much light rain” and a negative bias in the ratio of transpiration (T) to ET (T/ET). It is unclear whether these biases are related. Here we show that with the improved simulation of probability density functions of rainfall intensity by suppressing light‐rain occurrence using a stochastic convection parameterization in the NCAR CESM1.2, the canopy T increases in tropical forests while evaporation from canopy interception and bare soil decreases. The simulated T/ET is increased by 2.5% globally and up to 8% regionally, primarily attributable to reduced fraction of wet leaves due to less frequent light rain despite its weak intensity. These results imply that excessive light rain is an important cause of the negative T/ET bias in GCMs.

Topics & Concepts

EvapotranspirationEnvironmental scienceAtmospheric sciencesPrecipitationWater cycleTranspirationEvaporationCanopy interceptionClimatologyMeteorologySoil waterSoil scienceGeologyThroughfallGeographyBotanyEcologyBiologyPhotosynthesisPlant Water Relations and Carbon DynamicsClimate variability and modelsHydrology and Watershed Management Studies
Effects of Improved Simulation of Precipitation on Evapotranspiration and Its Partitioning Over Land | Litcius