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@INPROCEEDINGS{Ma:888981,
author = {Ma, Yueling and Montzka, Carsten and Bayat, Bagher and
Kollet, Stefan},
title = {{A}n optimized indirect method to estimate groundwater
table depth anomalies over {E}urope based on {L}ong
{S}hort-{T}erm {M}emory networks},
reportid = {FZJ-2020-05368},
year = {2020},
abstract = {Long Short-Term Memory (LSTM) networks are a deep learning
technology to exploit long-term dependencies in the
input-output relationship, which has been observed in the
response of groundwater dynamics to atmospheric and land
surface processes. We introduced an indirect method based on
LSTM networks to estimate monthly water table depth
anomalies $(wtd_a)$ across Europe from monthly precipitation
anomalies $(pr_a).$ The network has further been optimized
by including supplementary hydrometeorological variables,
which are routinely measured and available at large scales.
The data were obtained from daily integrated hydraulic
simulation results over Europe from 1996 to 2016, with a
spatial resolution of $0.11\°$ (Furusho-Percot et al.,
2019), and separated into a training set, a validation set
and a test set at individual pixels. We compared test
performances of the LSTM networks locally at selected pixels
in eight PRUDENCE regions with random combinations of
monthly $pr_a,$ evapotranspiration anomaly, and soil
moisture anomaly $(θ_a)$ as input variables. The optimal
combination of input variables was $pr_a$ and $θ_a,$ and
the networks with this combination achieved average test
$R^2$ between $47.88\%$ and $91.62\%$ in areas with
simulated wtd ≤ 3 m. Moreover, we found that introducing
$θ_a$ improved the ability of the trained networks to
handle new data, indicating the substantial contribution of
$θ_a$ to explain groundwater state variation. Therefore,
including information about $θ_a$ is beneficial, for
instance in the estimation of groundwater drought, and the
proposed optimized method may be transferred to a real-time
monitoring of groundwater drought at the continental scale
using remotely sensed soil moisture
observations.Furusho-Percot, C., Goergen, K., Hartick, C.,
Kulkarni, K., Keune, J. and Kollet, S.: Pan-European
groundwater to atmosphere terrestrial systems climatology
from a physically consistent simulation, Sci. data, 6(1),
320, doi:10.1038/s41597-019-0328-7, 2019.},
month = {Dec},
date = {2020-12-01},
organization = {AGU 2020 Fall Meeting, Online
(Online), 1 Dec 2020 - 17 Dec 2020},
subtyp = {After Call},
cin = {IBG-3},
cid = {I:(DE-Juel1)IBG-3-20101118},
pnm = {255 - Terrestrial Systems: From Observation to Prediction
(POF3-255) / ERA-PLANET - The European network for observing
our changing planet (689443)},
pid = {G:(DE-HGF)POF3-255 / G:(EU-Grant)689443},
typ = {PUB:(DE-HGF)24},
url = {https://juser.fz-juelich.de/record/888981},
}
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