Reprint
Impacts of Climate on Renewable Groundwater Resources and/or Stream-Aquifer Interactions
Edited by
July 2021
130 pages
- ISBN978-3-0365-1357-7 (Hardback)
- ISBN978-3-0365-1358-4 (PDF)
This is a Reprint of the Special Issue Impacts of Climate on Renewable Groundwater Resources and/or Stream-Aquifer Interactions that was published in
Biology & Life Sciences
Chemistry & Materials Science
Engineering
Environmental & Earth Sciences
Public Health & Healthcare
Summary
The book collects seven original contributions in the field of climate and underlying human influences on renewable groundwater resources and/or stream–aquifer interactions. The first contribution introduces the following six ones into the overall framework of the topic. The second contribution assesses the impact of climate change scenarios on land subsidence related to groundwater level depletion in detrital aquifers. The third contribution studies the patterns of river infiltration and the associated controlling factors by using a combination of field investigations and modeling techniques. The fourth contribution introduces a method to improve the modeling of streamflow in high-permeability bedrock basins receiving interbasin groundwater flow. The fifth contribution discusses the role of resilience of hydrogeological systems affected by either climate and/or anthropic actions in order to understand how anticipating negative changes and preserving its services. The sixth contribution analyzes the water balance of wetlands, which are systems highly sensitive to climate change and human action. The seventh contribution identifies groundwater bodies with low vulnerability to pumping to be used as potential buffer values for sustainable conjunctive use management during droughts.
Format
- Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
ground subsidence; climate change; Vega de Granada aquifer; river-aquifer interaction; numerical simulation; sensitivity analysis; MODFLOW; Heihe River; SWAT model; CMB method; interbasin groundwater flow; Castril River; baseflow filter; ecosystems; hydrogeological system; sustainability; significant damage; resilience; wetlands; paleo-groundwater; climate; sedimentary facies; geochemistry; Holocene; Spain; drought; vulnerability to pumping; residence time; conjunctive use; sustainable management; climate change; adaptation strategies; Spanish GW bodies in quantitative risk; n/a