• Sorted by Date • Sorted by Last Name of First Author •
Dash, Padmanava, Shekhar, Sushant, Paul, Varun, and Feng, Gary, 2024. Influence of Land Use and Land Cover Changes and Precipitation Patterns on Groundwater Storage in the Mississippi River Watershed: Insights from GRACE Satellite Data. Remote Sensing, 16(22):4285, doi:10.3390/rs16224285.
• from the NASA Astrophysics Data System • by the DOI System •
@ARTICLE{2024RemS...16.4285D, author = {{Dash}, Padmanava and {Shekhar}, Sushant and {Paul}, Varun and {Feng}, Gary}, title = "{Influence of Land Use and Land Cover Changes and Precipitation Patterns on Groundwater Storage in the Mississippi River Watershed: Insights from GRACE Satellite Data}", journal = {Remote Sensing}, keywords = {Gravity Recovery and Climate Experiment, GRACE, groundwater, land use and land cover, cropping patterns, precipitation patterns, Mississippi River Watershed, remote sensing}, year = 2024, month = nov, volume = {16}, number = {22}, eid = {4285}, pages = {4285}, abstract = "{Growing human demands are placing significant pressure on groundwater resources, causing declines in many regions. Identifying areas where groundwater levels are declining due to human activities is essential for effective resource management. This study investigates the influence of land use and land cover, crop types, and precipitation patterns on groundwater level trends across the Mississippi River Watershed (MRW), USA. Groundwater storage changes from 2003 to 2015 were estimated using data from the Gravity Recovery and Climate Experiment (GRACE) satellite mission. A spatiotemporal analysis was conducted at four scales: the entire MRW, groundwater regimes based on groundwater level change rates, 31 states within the MRW, and six USGS hydrologic unit code (HUC)-2 watersheds. The results indicate that the Lower Mississippi region experienced the fastest groundwater decline, with a Sen's slope of â0.07 cm/year for the mean equivalent water thickness, which was attributed to intensive groundwater-based soybean farming. By comparing groundwater levels with changes in land use, crop types, and precipitation, trends driven by human activities were identified. This work underscores the ongoing relevance of GRACE data and the GRACE Follow-On mission, launched in 2018, which continues to provide vital data for monitoring groundwater storage. These insights are critical for managing groundwater resources and mitigating human impacts on the environment.}", doi = {10.3390/rs16224285}, adsurl = {https://ui.adsabs.harvard.edu/abs/2024RemS...16.4285D}, adsnote = {Provided by the SAO/NASA Astrophysics Data System} }
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