Mon Oct 13, F. Flechtner
• Sorted by Date • Sorted by Last Name of First Author •
Song, Xuanhua, Chen, Hao, Chen, Tan, Qin, Zhihao, Chen, Sheng, Yang, Ni, and Deng, Shulin, 2024. GRACE-based groundwater drought in the Indochina Peninsula during 1979–2020: Changing properties and possible teleconnection mechanisms. Science of the Total Environment, 908:168423, doi:10.1016/j.scitotenv.2023.168423.
• from the NASA Astrophysics Data System • by the DOI System •
@ARTICLE{2024ScTEn.90868423S,
author = {{Song}, Xuanhua and {Chen}, Hao and {Chen}, Tan and {Qin}, Zhihao and {Chen}, Sheng and {Yang}, Ni and {Deng}, Shulin},
title = "{GRACE-based groundwater drought in the Indochina Peninsula during 1979{\textendash}2020: Changing properties and possible teleconnection mechanisms}",
journal = {Science of the Total Environment},
keywords = {Groundwater drought, Global climate events, GRACE, Indochina peninsula},
year = 2024,
month = jan,
volume = {908},
eid = {168423},
pages = {168423},
abstract = "{Groundwater is very important for human productivity and daily life,
hydrological cycle regulation, and ecosystem stability. However,
due to the complex mechanisms of groundwater drought, the
spatial and temporal variations of groundwater drought and its
driving mechanisms are still not fully understood, especially in
Indochina Peninsula. In this work, we used a reconstructed long-
term terrestrial water storage dataset from the Gravity Recovery
and Climate Experiment (GRACE) emission and a GRACE-based
groundwater drought index to investigate the spatial and
temporal characteristics of groundwater drought during
1979{\textendash}2020 in the Indochina Peninsula. The possible
teleconnection mechanisms between groundwater drought and the
Indian Ocean Dipole (IOD), El Ni{\~n}o-Southern Oscillation
(ENSO), and El Ni{\~n}o Modoki (ENSO\_M) were also investigated
using cross wavelet transform method. The results show that
groundwater drought worsens significantly during
1979{\textendash}2020, and becomes much more frequent and
intensified after 2000 in the southern Indochina Peninsula. Both
univariate and bivariate (logic 'or' and 'and') return periods
for duration, severity, and peak of groundwater drought are
short in the southern Indochina Peninsula, and thus the risk of
groundwater drought is high. The IOD, ENSO, and ENSO\_M can
reduce the intensity of groundwater drought to a certain extent
during the warm phases, but only ENSO\_M tends to significantly
exacerbate the intensity of groundwater drought during the cold
phases in the southern Indochina Peninsula. The variations in
groundwater drought are dominated by ENSO\_M, and are also
coupled influenced by the IOD and ENSO in the southern Indochina
Peninsula. The results provide valuable information for the
sustainable ecological environment and socioeconomic
development, especially development of groundwater drought early
warning and prediction models in the Indochina Peninsula.}",
doi = {10.1016/j.scitotenv.2023.168423},
adsurl = {https://ui.adsabs.harvard.edu/abs/2024ScTEn.90868423S},
adsnote = {Provided by the SAO/NASA Astrophysics Data System}
}
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