Upscaling instantaneous to daily evapotranspiration using modelled daily shortwave radiation for remote sensing applications: An artificial neural network approach

Wandera, Loise; Mallick, Kaniska; Kiely, Gerard; Roupsard, Olivier; Peichl, Matthias; Magliulo, Vincenzo

doi:10.5194/hess-21-197-2017

Title: Upscaling instantaneous to daily evapotranspiration using modelled daily shortwave radiation for remote sensing applications: An artificial neural network approach

Journal Article · Wed Jan 11 00:00:00 EST 2017 · Hydrology and Earth System Sciences (Online)

DOI:https://doi.org/10.5194/hess-21-197-2017· OSTI ID:1362030

^[1]; Mallick, Kaniska ^[2]; Kiely, Gerard ^[3]; Roupsard, Olivier ^[4]; Peichl, Matthias ^[5];

^[6]

Luxembourg Institute of Science and Technology, Belvaux (Luxembourg); Univ. of Twente, Enschede (The Netherlands)
Luxembourg Institute of Science and Technology, Belvaux (Luxembourg)
Univ. College Cork, Cork (Ireland)
CIRAD, Montpellier (France); Centro Agronomico Tropical de Investigacion y Ensenanza, Cartago (Costa Rica)
Swedish Univ. of Agricultural Sciences, Umea (Sweden)
Consiglio Nazionale delle Ricerche, Naples (Italy)

Upscaling instantaneous evapotranspiration retrieved at any specific time-of-day (ET_i) to daily evapotranspiration (ET_d) is a key challenge in mapping regional ET using polar orbiting sensors. Various studies have unanimously cited the shortwave incoming radiation (R_S) to be the most robust reference variable explaining the ratio between ET_d and ET_i. This study aims to contribute in ET_i upscaling for global studies using the ratio between daily and instantaneous incoming shortwave radiation (R_Sd/R_Si) as a factor for converting ET_i to ET_d. This paper proposes an artificial neural network (ANN) machine-learning algorithm first to predict R_Sd from R_Si followed by using the R_Sd/R_Si ratio to convert ET_i to ET_d across different terrestrial ecosystems. Using R_Si and R_Sd observations from multiple sub-networks of the FLUXNET database spread across different climates and biomes (to represent inputs that would typically be obtainable from remote sensors during the overpass time) in conjunction with some astronomical variables (e.g. solar zenith angle, day length, exoatmospheric shortwave radiation), we developed the ANN model for reproducing R_Sd and further used it to upscale ET_i to ET_d. The efficiency of the ANN is evaluated for different morning and afternoon times of day, under varying sky conditions, and also at different geographic locations. R_S-based upscaled ET_d produced a significant linear relation (R² = 0.65 to 0.69), low bias (-0.31 to -0.56 MJ m^-2 d^-1; approx. 4 %), and good agreement (RMSE 1.55 to 1.86 MJ m^-2 d^-1; approx. 10 %) with the observed ET_d, although a systematic overestimation of ET_d was also noted under persistent cloudy sky conditions. Inclusion of soil moisture and rainfall information in ANN training reduced the systematic overestimation tendency in predominantly overcast days. An intercomparison with existing upscaling method at daily, 8-day, monthly, and yearly temporal resolution revealed a robust performance of the ANN-driven R_S-based ET_i upscaling method and was found to produce lowest RMSE under cloudy conditions. Sensitivity analysis revealed variable sensitivity of the method to biome selection and high ET_d prediction errors in forest ecosystems are primarily associated with greater rainfall and cloudiness. As a result, the overall methodology appears to be promising and has substantial potential for upscaling ET_i to ET_d for field and regional-scale evapotranspiration mapping studies using polar orbiting satellites.

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Research Organization:: Oregon State Univ., Corvallis, OR (United States)

Sponsoring Organization:: USDOE Office of Science (SC), Biological and Environmental Research (BER)

Grant/Contract Number:: FG02-04ER63917; FG02-04ER63911

OSTI ID:: 1362030

Journal Information:: Hydrology and Earth System Sciences (Online), Vol. 21, Issue 1; ISSN 1607-7938

Publisher:: European Geosciences Union (EGU)Copyright Statement

Country of Publication:: United States

Language:: English

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Cited by: 11 works

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