Sun Feb 09, F. Flechtner
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Milewski, Adam, Seyoum, Wondwosen M., Elkadiri, Racha, and Durham, Michael, 2019. Multi-Scale Hydrologic Sensitivity to Climatic and Anthropogenic Changes in Northern Morocco. Geosciences, 10(1):13, doi:10.3390/geosciences10010013.
• from the NASA Astrophysics Data System • by the DOI System •
@ARTICLE{2019Geosc..10...13M,
author = {{Milewski}, Adam and {Seyoum}, Wondwosen M. and {Elkadiri}, Racha and {Durham}, Michael},
title = "{Multi-Scale Hydrologic Sensitivity to Climatic and Anthropogenic Changes in Northern Morocco}",
journal = {Geosciences},
keywords = {climate change, groundwater, remote sensing, anthropogenic},
year = 2019,
month = dec,
volume = {10},
number = {1},
eid = {13},
pages = {13},
abstract = "{Natural and human-induced impacts on water resources across the globe
continue to negatively impact water resources. Characterizing
the hydrologic sensitivity to climatic and anthropogenic changes
is problematic given the lack of monitoring networks and global-
scale model uncertainties. This study presents an integrated
methodology combining satellite remote sensing (e.g., GRACE,
TRMM), hydrologic modeling (e.g., SWAT), and climate projections
(IPCC AR5), to evaluate the impact of climatic and man-made
changes on groundwater and surface water resources. The approach
was carried out on two scales: regional (Morocco) and watershed
(Souss Basin, Morocco) to capture the recent climatic changes in
precipitation and total water storage, examine current and
projected impacts on total water resources (surface and
groundwater), and investigate the link between climate change
and groundwater resources. Simulated (1979-2014) potential
renewable groundwater resources obtained from SWAT are
\raisebox{-0.5ex}\textasciitilde4.3 {\texttimes} {}10$^{8}$
m$^{3}$/yr. GRACE data (2002-2016) indicates a decline in total
water storage anomaly of
\raisebox{-0.5ex}\textasciitilde0.019m/yr., while precipitation
remains relatively constant through the same time period
(2002-2016), suggesting human interactions as the major
underlying cause of depleting groundwater reserves. Results
highlight the need for further conservation of diminishing
groundwater resources and a more complete understanding of the
links and impacts of climate change on groundwater resources.}",
doi = {10.3390/geosciences10010013},
adsurl = {https://ui.adsabs.harvard.edu/abs/2019Geosc..10...13M},
adsnote = {Provided by the SAO/NASA Astrophysics Data System}
}
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