Transcript Water Cycle Data Integration

Water Cycle Data
Integration
FP7 CEOP AEGIS
ESA TIGER 2 CBF
GEO EU 3rd Workshop - Istanbul, October 8 - 9 2009
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CEOP-AEGIS
Coordinated Asia-European long-term Observing system of
Qinghai–Tibet Plateau hydro-meteorological processes and
the Asian-monsoon systEm with Ground satellite Image data
and numerical Simulations
www.ceop-aegis.org
18 research organizations in 8 countries
Massimo Menenti1,3 Li Jia2 and Jerome Colin3
1Department of Earth Observation Systems, Delft University of Technology, The Netherlands
2 Wageningen University and Research Centre, The Netherlands
3Laboratoire
des Sciences de l’Image, de l’Informatique et de la Télédétection - LSIIT, Universitè de
Strasbourg, Illkirch, France
GEO EU 3rd Workshop - Istanbul, October 8 - 9 2009
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TIGER II:
Water Research Component
Water Management Component
TIGER CBF to support mainly the Water Research
Component: 20 projects
Consortium
European partners:
International Institute for Geo-Information Science and Earth
Observation, ITC, (NL)
Technical University Delft, TUD, (NL)
Flemish Institute for Technology Research, VITO (B)
Institute for Statistics and Geo-Information, Universidade Nova de
Lisboa, ISEGI-UNL, (P)
African Centres:
AGRHYMET Regional Centre, Niger
Regional Centre for Mapping of Resources for Development, RCMRD,
Kenya
Water Research Commission, WRC, South Africa
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Water resources, hydrometeorology and
Asian Monsoon
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Tibet Plateau :
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Headwater areas of
seven major rivers in SE
Asia
Regulating area for the
climate of China and of
the Eastern Hemisphere
as a whole
Exert profound thermal
and dynamical influences
the onset, maintenance,
and withdrawal of the
monsoon
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Interrelation of project technical elements
Glaciers + snow meltwater
Ground + satellite precip
Drought Ea-War
Satellite top soil moisture
Satellite energy-water fluxes
Satellite veg albedo temper
Ground energy-water meas.
Monsoon + rainfall forecasts
Plateau Water Balance
Flood Ea-War
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CEOP-AEGIS-WP1
Ground-based observations of radiative and
turbulent fluxes and soil moisture
over the Tibetan Plateau
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LST vs NDVI correlation
IHS of LST vs.
NDVI correlation
Colors indicate θ
values;
Intensity codes d
values,
characterizing
NDVI-LST annual
cycle;
Saturation codes
R2 values;
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GEO EU 3rd Workshop - Istanbul, October 8 - 9 2009
Julien and Sobrino,
2009
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Atm. model over QTP, 30' time step
T,p,q,u,v @ PBL
q,p @ 2m
Pixel time of acquisition of LST
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Tibetan plateau water yield
Immerzeel et al., 2009
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Plateau Water Balance: Data
Requirements
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First results: routed discharge
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Indus
Brahmaputra
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Salween
Mekong
20000
Yangtze
15000
10000
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Yellow
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Outstanding GEO Issues
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What dataset components are you developing relevant to the implementation of the
GEOSS?
Can you register data/observations/information/products into GEOSS?
I) If YES, then what?
See list on slides
Would a GEO registration session help facilitate the process? NO
What resources are required to enable the data/observations/information/products to
be registered?
See slide on configuration data server
Is there an IPR Problem? YES
Does something make the registration technically impossible? NO
Is there a lack of incentive, is the added-value and benefits to go for such a
registration unclear? NO
Did you try already with a subset and you could not make your way through the
system? NO
Is it a question of lack of resources, (human and / or financial) and if so what
resources are required to enable the data/observations/information/products to be
registered? Not really
Any other potential difficulty? No technical roadblock
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CEOP-AEGIS contribution to
GEOSSS Water theme
 ceop-aegis.org
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portal:
General information
IT platform for the consortium
Information system on the hydrology of Registere
the Tibetan Plateau for the community
d in
GEOSS
 Schedule:
• Until May 2012: no public access to foreground
• After May 2012: all project foreground freely
available to the community
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CEOP-AEGIS contribution to GEOSSS Water
theme: product types
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Documents:
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Datasets:
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Periodic reports, Algorithm Theoretical Basis
Documents,
Ground measurements, final EO products,
Hydrological Model outputs
Services & software:
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Drought and flood early warning tools
Energy & Hydrological Budget Models
Training material for stakeholders
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Product types:
documents, datasets, services & software
D0.1.1
D0.1.2
D0.1.3
D0.1.4
D0.2.1
D0.2.2
D0.2.3
D0.2.4
D0.5.1
D1.1
D1.2
D1.3
D1.4
D2.1
D2.2
D2.3
D2.4
D2.5
D3.1
D3.2
D3.3
D3.4
D4.1
D4.2
Science Progress Report 2009
Science Progress Report 2010
Science Progress Report 2011
Science Progress Report 2012
Technical Reports by Working Groups 2009
Technical Reports by Working Groups 2010
Technical Reports by Working Groups 2011
Technical Reports by Working Groups 2012
Final report
Detailed approach and preliminary data analysis protocol
Analysis protocol report and sample data sets on seasonal and interannual time scale of the exchange of surface heat flux, momentum flux,
water vapour flux, surface and soil moisture over the different land
surfaces of the Tibetan Plateau
Report on footprint analysis and structure characteristics of the Surface
Layer (SL) and Atmospheric Boundary Layer
Final 3 years dataset on aerodynamic and thermodynamic variables
over the different land surfaces of the Tibetan Plateau
Generic algorithms LSV-s
Algorithms land surface temperature PS
Algorithms surface albedo, emissivity and temperature geostationary
satellite
Algorithm Theoretical Basis Documents multi-source remote sensing
Data set vegetation cover, surface albedo, LAI, aerosol optical depth,
precipitable water vapour, soil/foliage component and land surface
emissivity/temperatures for a 3 years period.
Review of selected existing algorithms and models on local, regional
and Plateau scales data sets
Generalize SEB calculation at a high spatial resolution and on a regional
extent
Time-series Maps Processing and Validation Procedure Document
Validated complete time-series maps of fluxes over 3 years, with a
target frequency of one week
Collection of consistent continuous in-situ soil moisture measurements
at regional scale
Development of a satellite sensor independent system for the soil
moisture combined retrieval algorithms
D4.3
D4.4
D4.5
D5.1
D5.2
D5.3
D5.4
D6.1
D6.2
D6.3
D6.4
D6.5
D7.1
D7.2
D8.1
D8.2
D8.3
D8.4
D9.1
D9.2
D9.3
D9.4
D9.5
D9.6
D9.7
D10.1
D10.2
D10.3
D10.4
D10.5
Estimation of soil moisture from Geostationary Satellite (GS) data
A data product of the plateau using different sensors simultaneously
Validation results and documentation of uncertainties
Provide algorithm for QPE, 3D mosaic and hydrometeors classification
Provide rainfall estimation algorithms from satellites (MW, VIS-IR) data
Provide 3-years 3-D gridded radar data for case studies
Provide high space and temporal resolution precipitation data retrieved from radar,
satellite (both VIS-IR and MW) and ground rain gauge data for case studies
Sample data set and Report on retrieval performance based on MODIS and AMSR-E data
Preliminary Algorithm Theoretical Basis Documents for snow/ice properties
Final Algorithm Theoretical Basis Document;+Snow data assimilation system and
documentation
Validated data set (include snow cover area, SWE, glacier area and storage from satellite
data, and assimilation data sets) from 2008 to 2010
Final report for water resources contributed by the snow and glacier melt on QinghaiTibet Plateau
Report and data set on results of numerical experiments to document the response to
observed evolution of snow and vegetation cover and surface heat fluxes over the Plateau
Report on rainfall forecast performance
Design of data processing protocol for E.O. based water balance products
Time series analysis of water balance data
Prototype of data collection, integration and processing system to monitor the Plateau
water balance
Database management system
Vegetation dynamic maps over a long-term period
Maps of drought vulnerability zones in the study area
Tools for time series analysis of vegetation response to drought
Tools for drought prediction by analyzing vegetation response
Anomalies maps of rainfall, vegetation response
Tool for evaluating drought impact on agriculture and forestry
System applicable for drought monitoring and early warning in the pilot areas in China
and India
Algorithm Theoretical Basis Document for surface wetness indicator retrieved from
passive and active microwave satellite data
Real time flood forecast models based on stochastic time series, ANN and Fuzzy logic for
the study area
Flood inundation, flood hazard and flood risk zone maps based on the hydraulic modelling
and analysis of satellite data
Real time forecasting of flood inundation, depth, areal extent and return period of
flooding
Case studies on flood events in the period 1999-2010
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Thank you!
www.ceop-aegis.org
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