Checking for non-preferred file/folder path names (may take a long time depending on the number of files/folders) ...

GroMoPo Metadata for Coastal Nethrlands MOCDENS3D model


Authors:
Owners: This resource does not have an owner who is an active HydroShare user. Contact CUAHSI (help@cuahsi.org) for information on this resource.
Type: Resource
Storage: The size of this resource is 1.5 KB
Created: Feb 08, 2023 at 8:11 p.m.
Last updated: Feb 08, 2023 at 8:11 p.m.
Citation: See how to cite this resource
Sharing Status: Public
Views: 588
Downloads: 212
+1 Votes: Be the first one to 
 this.
Comments: No comments (yet)

Abstract

Climate change in combination with increased anthropogenic activities will affect coastal groundwater systems throughout the world. In this paper, we focus on a coastal groundwater system that is already threatened by a relatively high seawater level: the low-lying Dutch Delta. Nearly one third of the Netherlands lies below mean sea level, and the land surface is still subsiding up to 1 m per century. This densely populated delta region, where fresh groundwater resources are used intensively for domestic, agricultural, and industrial purposes, can serve as a laboratory case for other low-lying delta areas throughout the world. Our findings on hydrogeological effects can be scaled up since the problems the Dutch face now will very likely be the problems encountered in other delta areas in the future. We calculated the possible impacts of future sea level rise, land subsidence, changes in recharge, autonomous salinization, and the effects of two mitigation countermeasures with a three-dimensional numerical model for variable density groundwater flow and coupled solute transport. We considered the effects on hydraulic heads, seepage fluxes, salt loads to surface waters, and changes in fresh groundwater resources as a function of time and for seven scenarios. Our numerical modeling results show that the impact of sea level rise is limited to areas within 10 km of the coastline and main rivers because the increased head in the groundwater system at the coast can easily be produced though the highly permeable Holocene confining layer. Along the southwest coast of the Netherlands, salt loads will double in some parts of the deep and large polders by the year 2100 A.D. due to sea level rise. More inland, ongoing land subsidence will cause hydraulic heads and phreatic water levels to drop, which may result in damage to dikes, infrastructure, and urban areas. In the deep polders more inland, autonomous upconing of deeper and more saline groundwater will be responsible for increasing salt loads. The future increase of salt loads will cause salinization of surface waters and shallow groundwater and put the total volumes of fresh groundwater volumes for drinking water supply, agricultural purposes, industry, and ecosystems under pressure.

Subject Keywords

Coverage

Spatial

Coordinate System/Geographic Projection:
WGS 84 EPSG:4326
Coordinate Units:
Decimal degrees
Place/Area Name:
Netherlands
North Latitude
52.4158°
East Longitude
5.1593°
South Latitude
51.6048°
West Longitude
3.4401°

Content

Additional Metadata

Name Value
DOI 10.1029/2009WR008719
Depth 300
Scale 1 001 - 10 000 km²
Layers 40
Purpose Salt water intrusion
GroMoPo_ID 401
IsVerified True
Model Code MOCDENS3D
Model Link https://doi.org/10.1029/2009WR008719
Model Time
Model Year 2010
Model Authors Essink, GHPO; van Baaren, ES; de Louw, PGB
Model Country Netherlands
Data Available Report/paper only
Developer Email gualbert.oudeessink@deltares.nl; esther.vanbaaren@deltares.nl; perry.delouw@deltares.nl
Dominant Geology Unsure
Developer Country Netherlands
Publication Title Effects of climate change on coastal groundwater systems: A modeling study in the Netherlands
Original Developer No
Additional Information
Integration or Coupling Solute transport
Evaluation or Calibration
Geologic Data Availability No

How to Cite

GroMoPo, D. Kretschmer (2023). GroMoPo Metadata for Coastal Nethrlands MOCDENS3D model, HydroShare, http://www.hydroshare.org/resource/71700952fb89499dbca581e5aad4e11a

This resource is shared under the Creative Commons Attribution CC BY.

http://creativecommons.org/licenses/by/4.0/
CC-BY

Comments

There are currently no comments

New Comment

required