joint research centre eulf marine pilot: monitoring ......characteristics (shape, slope and...
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The European Commission’sscience and knowledge service
Joint Research Centre
EULF Marine pilot: monitoring environment
through INSPIRE infrastructure
Francesco Pignatelli, Paul SmitsAndrej Abramic
Carmelo Attardo (external consultant)
Barcelona, 27 September 2016INSPIRE Conference
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1. Overview of the INSPIRE marine pilot
2. INSPIRE-based MSFD data modelling
3. Workflow for publishing monitoring data using INSPIRE
4. Guidelines
AGENDA
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AGENDA1. Overview of the INSPIRE marine pilot
2. INSPIRE-based MSFD data modelling
3. Workflow for publishing monitoring data using INSPIRE
4. Guidelines
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MARINE PILOT SCOPE
- MSFD requires the collection of data sets via monitoring programme (art.11)
and support assessments (art.8) and these for these to be made available to
EC in accordance with INSPIRE (art.19.3).
- To assist MSs in bringing Marine spatial data management related to the
MSFD implementation in line with INSPIRE requirements for selected data
flow.
- To understand the technical requirements of both directives and to develop
processes which accommodate their respective needs.
- Guidelines documents and example implementations as starting point to
further inspire the MSFD.
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MARINE PILOT WORK PACKAGES
Work Package 0- Management and communication
Work Package 1- Overview of MSFD requirements in relation of INSPIRE
Work Package 2- INSPIRE-based MSFD spatial data modelling
Work Package 3- Development of the data flow
Work Package 4- EMODnet and INSPIRE
Work Package 5- Document and analyse the cost and benefit
Work Package 6- Training and capacity building
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MARINE PILOT MAIN DELIVERABLESDocuments
D1.2 - Analysis of requirements that link INSPIRE with MSFD
D2.0 - MSFD spatial data requirements mapped on INSPIRE data models
D3.1 – Guidelines for sharing marine spatial data
D3.2 – Feedback on EULF Blueprint
D4.1 – EMODnet and INSPIRE: benefits of closer collaboration and a framework of action
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MARINE PILOT MAIN DELIVERABLES
Tools (Sandbox):
• GeoNetwork, EUOSME (with integrated Thesaurus Framework services), HALE, PostGIS, GeoServer
Training materials
• Training module (Training framework – LINKVIT project)
• Training session (recorded session)
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AGENDA1. Overview of the INSPIRE marine pilot
2. INSPIRE-based MSFD data modelling
3. Workflow for publishing monitoring data using INSPIRE
4. Guidelines
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11 MSFD Quality Descriptor are covered byOF, EMF, SR, HB and SD
• Ef and OF for development ofenvironmental trends and assessmentof environmentl status
• SR covers indicators that presentareas with common characteristics,extension with common vocabularies(BODC)
• SD and HB cover 50% of MSFDrequirements
1. Biological diversitySpecies level
2. Non‐indigenous species introduced by human activities
3.Populations of all commercially exploited fish and shellfis
4. Elements of the marine food web
5. Human‐induced eutrophication
6. Sea‐floor integrity
Species distribution2.1. Abundance and state characterisation of non‐indigenous species
6.2. Condition of benthic community
— Distributional range (1.1.1) — spatial distribution (2.1)— Presence of particularly sensitive and/or tolerant species (6.2.1
— Distributional pattern within the latter, where appropriate (1.1.2)— Area covered by the species (for sessile/benthic species) (1.1.3)
Population size4.3. Abundance/distribution of key trophic groups/species
5.2. Direct effects of nutrient enrichment
— Population abundance and/or biomass, as appropriate (1.2.1)
— Trends in abundance, temporal occurrence (2.1)
— Abundance trends of functionally important selected groups/species (4.3.1
— Abundance of opportunistic macroalgae (5.2.3)
— Proportion of biomass or number of individuals in the macrobenthos above some specified length/size (6.2.3)
— Species shift in floristic composition such as diatom to flagellate ratio (5.2.45.3. Indirect effects of nutrient enrichment— Abundance of perennial seaweeds and seagrasses (5.3.1)
Population condition3.3. Population age and size distribution
4.2. Proportion of selected species at the top of food webs
— Population demographic characteristics (e.g. body size or age class structure, sex ratio, fecundity rates, survival/mortality rates) (1.3.1)
— Proportion of fish larger than the mean size of first sexual maturation (3.3.1)
— Large fish (by weight) (4.2.1).
— Parameters describing the characteristics (shape, slope and intercept) of the size spectrum of the benthiccommunity (6.2.4).
— Population genetic structure, where appropriate (1.3.2)
— Mean maximum length across all species found in research vessel surveys (3.3.2)— 95 % percentile of the fish length distribution observed in research vessel surveys (3.3.3).— Size at first sexual maturation, which may reflect the extent of undesirable genetic effects of exploitation (3.3.4) secondary indicator
3.2 Reproductive capacity of the stock
4.1. Productivity (production per unit biomass) of key species or trophic groups
‐ Spawning Stock Biomass (3.2.1) ‐ primary indicator
— Performance of key predator species using their production per unit biomass (productivity) (4.1.1)
‐ Biomass indices (3.2.2) secondary indicator
Inde
xes
— Multi‐metric indexes assessing benthic community condition and functionality, such as species diversity and richness, proportion of opportunistic to sensitive species (6.2.2)
Re‐produ
ctivity
Distrib
ution
Popu
latio
n siz
e & abu
ndan
cepo
pulatio
n atrib
utes
INSPIRE-BASED MSFD DATA MODELLING
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AGENDA1. Overview of the INSPIRE marine pilot
2. INSPIRE-based MSFD data modelling
3. Workflow for publishing monitoring data using INSPIRE
4. Guidelines
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Collection of the source dataset
Data Harmonisationaccording to the identified DSs
Mapping of the required information into the
INSPIRE DSs
Design of the report production starting from INSPIRE DSs (enlarged)
models
Metadata production of source (harmonized)
dataset
Publication of datasets through WxS services
Production of indicators
Metadata production of services
Metadata production of data / services
INSPI
RE
Geo
port
al
WORKFLOW FOR PUBLISHING MONITORING DATA USING INSPIRE
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SOURCE SIDE TARGET SIDE
Selection of the target schema
Analysis of the target schema
Creation of the Matching table
Matching analysis
Data transformation
HARMONISED DATASET
TOOLSGUIDELINES
&PROCEDURES
Selection of the sample DS
Analysis and schematisationof the sample DS
HARMONISATION PROCESS
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Ingestion service Publication of INSPIRE servicesLocal INSPIREd DB
HALE to mapsource data in- INSPIRE DM- INSPIREd DB
HALE to generate
app-schema in
GeoServer
GeoServerto expose INSPIRE
data
PostGISINSPIREd DB
gml
shape
csv
othersgml
WFS PUBLICATION
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(M)SDI
INSPIRE MSFDWFD OTHER DIRs
obligations
PRODUCTION OF INDICATORS
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INSPIRE
(M)SDI
INSPIRE MSFDWFD OTHER DIRs
obligations
PRODUCTION OF INDICATORS
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INSPIRE
(M)SDI
MSFDWFD OTHER DIRs
obligations
PRODUCTION OF INDICATORS
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DG ENV EEA
INSPIRE EEA-eRep
INSPIRE
(M)SDI
MSFDWFD OTHER DIRs
obligations
Indicators from source data
PRODUCTION OF INDICATORS
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PRODUCTION OF INDICATORS
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1. Overview of the INSPIRE marine pilot
2. INSPIRE-based MSFD data modelling
3. Workflow for publishing monitoring data using INSPIRE
4. Guidelines
AGENDA
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• Collect once, re-use many
• Legal, semantic, organisational, technological issues
• Distributed infrastructure
• Change management plan
D3.2 GUIDELINES
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