Thu Aug 14, F. Flechtner
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Li, Jifei and Ma, Jinzhu, 2024. Evaluating the Dynamics of Groundwater Storage and Its Sustainability in the Loess Plateau: The Integrated Impacts of Climate Change and Human Activities. Remote Sensing, 16(23):4375, doi:10.3390/rs16234375.
• from the NASA Astrophysics Data System • by the DOI System •
@ARTICLE{2024RemS...16.4375L,
author = {{Li}, Jifei and {Ma}, Jinzhu},
title = "{Evaluating the Dynamics of Groundwater Storage and Its Sustainability in the Loess Plateau: The Integrated Impacts of Climate Change and Human Activities}",
journal = {Remote Sensing},
keywords = {GRACE, groundwater storage, climate change, human activities, land use change},
year = 2024,
month = nov,
volume = {16},
number = {23},
eid = {4375},
pages = {4375},
abstract = "{In recent decades, the Loess Plateau has undergone rapid urbanization
alongside extensive afforestation efforts aimed at controlling
soil erosion. These large-scale land use changes have inevitably
affected the region's hydrological cycle. Despite these changes,
the impact on groundwater has not been thoroughly investigated.
This study aims to examine the spatial and temporal evolution of
groundwater storage (GWS) in the Loess Plateau from 2003 to
2022, identify the driving factors behind these changes, and
evaluate the sustainability of groundwater levels through the
Reliability{\textendash}Resilience{\textendash}Vulnerability
framework. GWS changes were estimated using GRACE gravity
satellite data and the Global Land Assimilation Dataset (GLDAS).
Our study also analyzed the drivers of GWS evolution by
integrating land use change data, ERA5-Land reanalysis data, and
various statistical data. Our findings indicate a decline in GWS
at a rate of ‑6.9 {\ensuremath{\pm}} 3.84 mm/yr. Seasonal
variations show that the GWS is relatively higher in spring and
autumn, but lower in summer and winter. The eastern part of the
Loess Plateau in particular is experiencing a rate of decline
that is 150\% of that of the overall regional average.
Groundwater storage in the Loess Plateau is currently at a
critically unsustainable level, with conditions in the west
being more favorable compared to the central and eastern
regions. Climate factors such as precipitation, evaporation, and
runoff did not show a significant correlation with GWS changes.
Increases in forest areas and water consumption together
explained 95.8\% of the changes in GWS, with forest area growth
being the dominant factor. Human activities are identified as
the main cause of GWS decline. This study's findings improve our
understanding of GWS dynamics in the Loess Plateau and offer a
scientific basis for formulating groundwater resource management
and ecological restoration policies in the region.}",
doi = {10.3390/rs16234375},
adsurl = {https://ui.adsabs.harvard.edu/abs/2024RemS...16.4375L},
adsnote = {Provided by the SAO/NASA Astrophysics Data System}
}
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