View
2
Download
0
Category
Preview:
Citation preview
Groundwater and aquifer data for WISE –perspectives and future needs
• Requirements ( GW status, monitoring, hydrogeological setting, GW bodies )
• Integrate data & information( INSPIRE / SEIS )
• Data needs( interoperable, harmonised )
• Present situation
• Perspectives and priorities
� data and models must reflect the real world
W.Struckmeier@bgr.de
• links with otherenvironmentmedia (water)
Main problems
• poor data on GW
• not harmonised
• not interoperable
• point data vs. polygons
• how respresentative ?
• data quality
• compliance check
= poor European vision
= weak GIS basis
WISE ( Water Information System for Europe )
= overall system for retrieving and visualising
distributed water data
• integrate existing data bases ( EIONET, Waterbase, … )
• map viewer for display in map format
• possibility of combining various data
• tool for data analysis and comparison
= geo-reference ?
= geometries compatible ?
= coherent data concept ?
Why hydrogeologyas a special theme ?
� Processes and undergroundflow often very different fromsurface and above surfaceprocesses
� Geology (rock characteristics& structures) dominant and controlling the undergroundprocesses
Difference between surface water bodies and GW bodies
• Surface water bodies:
= quick response on climatic input, integrated response basedon the catchment conditions
• Groundwater bodies:
= slow response (unsaturated zone, recharge process, aquifer conditions, underground flow conditions, in part merely characteristic for a flow line)
⇒ Hydrodynamic situation essential for GW monitoring
- long travel time from recharge to discharge
- challenge of representative sampling
- need for hydrogeological modelling
Data and information for WISE
• General
- GISCO- NUTS- CORINE- Continental DEM- CCM- other satellite data
(GMES, GEOSS, Google)
• Surface water
- EIONET, Waterbase- CCM- RDB and other WFD data
• Underground data
- EIONET / GWB / point data- soils (ESBN)- geology, structure- hydrogeology- geochemistry- hydrochemistry- geophysical data
?
Groundwater related data
• EIONET (point data)
• WFD data (art. 3 and 5) = very heterogeneous
• Groundwater Map of the EC (vector)
• International Hydrogeological Map of Europe (raster)
• digital soil maps (vector)
• Quaternary geology (scanned maps)
• digital geological data (IGME 5000, vector data)
• geophysical data (Geothermal Atlas of the EU)
Groundwater Bodiesin Waterbase
• Commom standards needed
• Harmonised and interoperable data
• Homogeneous datafor Europe
European Workshop on Groundwater European Workshop on Groundwater BodiesBodiesBerlin, Berlin, OctoberOctober 25 25 –– 26, 200526, 2005
ConclusionsConclusions & & recommendationsrecommendations forfor futurefuturestrategiesstrategies on on groundwatergroundwater protectionprotection
• uniform and coherent data(groundwater + surface water)
• groundwater typology for Europe (aquifers, general legend)
• natural groundwater conditions(quantity, quality)
• groundwater flow systems understandingand pollution protection
• consider drivers and pressures(man-made actions, wells, pollution)
• underpinning GW monitoring needs(where, when, compliance)
• compatible complementary data(soil, land use, sealing)
• Organised by BGR and EGS
• 64 Participants from 26 Countries, 8 German States, EGS and EEA
ExistingExisting National National Hydrogeological Hydrogeological MapsMaps= No = No coherentcoherent picturepicture
European challenge
• Heterogeneous data from various countries
• Coherent overview• Interoperable data• Compliance checking
AlbaniaAustriaBelgiumBulgariaCroatiaCyprusCzech RepublicDenmarkEstoniaFinlandFranceGermanyGreeceHungaryIcelandIreland
ItalyLatviaLithuaniaLuxembourgThe NetherlandsNorwayPoland PortugalRomaniaRussiaSlovak RepublicSloveniaSpainSwedenSwitzerlandUnited Kingdom
32 Members
EuroGeoSurveys (EGS)
The Association of the European Geological Surveys
Methodology, content and colour system of the IHME
• colour wash (for type and hydrogeological significance o f rock bodies)
Blue: intergranular aquifers
Green: fissured and karst aquifers
Brown: non-aquifers or only local potential
• background ornament for lithological rock type
various types in grey
• line and point symbols for special features
full blue for surface water, springs and karst
violet for groundwater features, e.g. groundwater contours
orange for chemical and thermal features, e.g. thermal and mineral springs
red for man-made changes of the natural GW regime
black for geological features, e.g. lithological boundaries, faults
Groundwater relevant information
• Exchange between surface water and groundwater(groundwater discharge in springs, wetlands, rivers; pumping form wells for domestic, agriculture, industry; recharge depending on precipitation, topography, soils, land use)
• Hydrodynamics(3D appraisal of groundwater cycle, depth to GW, density of river network, flow velocity, fluxes)
• Hydrogeology(lithology, aquifer type, structure, permeability,thickness)
• Hydrochemistry(rock-groundwater interactions, geogene GW chemistry, hydrochemical stratification, pressures and anthropogenic pollution)
GIS Data (raster, vector)
Web Map Service (WMS)
Web Mapping Applicationfor WISE
GIS (ESRI ArcGIS, …) Google Earth
Technical concept
Towards reliable, harmonised aquifer and groundwater data for WISE
Urgent needs
• digitise and geo-reference IHME data
• develop a general legend and a hydrogeological typologyof Europe
• analyse and interprete existing GW related data
• check groundwater bodies, compliance check
• update European data by using WFD data
• new, updated coherent data set(participation of Geological Surveys and EuroGeoSurveys)
• integration in WISE
• web mapping application compatible with GoogleEarth
Towards reliable and harmonised aquifer and groundwater data for WISE ( II )
Medium and long term perspective
• generate new, additional data
• depth to groundwater
• hydrochemical background values
• vulnerability of aquifers to pollution
• hydrodynamic zonation and mapping
• coupling hydrodynamic mapping with modelling
• analysis and optimisation of monitoring network forgroundwater
GroundwaterGroundwater Systems in Systems in thethe Münster Münster BasinBasin
Blue = Blue = dischargedischarge areaarea
Pink = Pink = rechargerecharge areaarea
Brown = Brown = nonnon--aquifersaquifers
Upper Upper floodplainfloodplain of River Ems of River Ems
Paderborn Paderborn karstkarst regionregion
aquiclude
salt water
freshGW
Hydrodynamicsituations in groundwater flowsystems
Recommended