Annex IV explanation of concepts and terminology



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Summary about EMODNET Chemistry last report revision
(1) An expanded section 1 (or possibly a new section 2) explaining in more detail some of the concepts such as CDI, ODV, DIVA (sometimes written Diva), CAMIOON, OceanBrowser etc
Please find this point at the following report section:

ANNEX IV – EXPLANATION OF CONCEPTS AND TERMINOLOGY
CDI

The CDI provides an ISO19115 based index (metadatabase) to describe individual data sets (such as samples, time series, profiles, trajectories, etc).

It gives users a highly detailed insight in the availability and geographical spreading of marine data.

Specifically the CDI metadata supplies core information about Who, When, Where, How, What measured.

ODV4 format

It is one of the official data transport (ASCII) formats. The last version has been extended with a SeaDataNet semantic header. The ODV4 format can be used directly in the popular Ocean Data View (ODV) analysis and presentation software package, which is being upgraded as part of SeaDataNet.

DIVA

It's the official interpolation software chosen by the Chemistry Lot. The DIVA (Data-Interpolating Variational Analysis) software tool developed by GHER group allows to spatially interpolate (or analyse) those observations on a regular grid in an optimal way. The analysis is performed on a finite element grid allowing for a variable spatial resolution and a good representation of the coastline and isobaths. DIVA also supports parameter estimation by cross-validation, anisotropic error covariances, estimation of the a posteriori error variance and isolating trends and cycles in the observations. To facilitate the use of DIVA, a web-based interface has been built called Diva-on-web.



ODV

For the Chemical Lot the tool is specifically used and suggested to visualize data and to generate time series plots for data with a not suitable coverage for DIVA analysis.

The Ocean Data View (ODV) tool developed by AWI is a software package for the interactive exploration, analysis and visualization of oceanographic and other geo-referenced profile or sequence data. ODV runs on Windows (7, Vista, XP, 9x, Me, NT, 2000), Mac OS X, Linux, and UNIX (Solaris, Irix, AIX) systems. ODV data and configuration files are platform-independent and can be exchanged between different systems.

CAMIOON


It is a catalogue of products, developed and maintained by IFREMER.

Products metadata have to be collected in xml format have to be adopted to to help users on the products search and browsing.

OceanBrowser

The Gher group has developed the software OceanBrowser in order to give a common viewing service to the interpolated products. It is based on open standards from the Open Geospatial Consortium (OGC), in particular Web Map Service (WMS) and Web Feature Service (WFS).

The previous standards are requested as a core element for the interoperability between Emodnet Lots and for INSPIRE compliance.

OceanBrowser currently supports the following operations:

Horizontal sections of the 4-dimensional fields (longitude, latitude, depth and time) can be visualized at a selected depth and time. The climatological fields can also be interpolated and visualized on arbitrary vertical sections.

The maps displayed in the browser are created dynamically and therefore several options are made available to the user to customize the graphical rending of those layers. Layers can be displayed either using interpolated shading, filled contours or simple contours and several options controlling the color-map are also available.

The horizontal and vertical sections can be animated in order to study the evolution in time.

Image can be saved in raster format (PNG) and vector image formats (SVG, EPS, PDF). It can also be saved as a KML file so that the current layer can be visualized in programs like Google Earth and it can be combined with other information imported in such programs.

The underlying 4-dimensional NetCDF file can be either downloaded as a whole from the interface or only as a subset using the linked OPeNDAP server.

The web interface can also import third-party layers by using standard WMS requests. The user needs only to specify the URL of the WMS server and its supported version.


(2) A section describing compliance with INSPIRE
Please find this point at the following report section:

4.4 COMPLIANCE WITH INSPIRE

The EMODnet Chemistry services are fully compliant with INSPIRE as follows:

· applying Discovery – Viewing – Access services for retrieving survey data sets

· All viewers are based upon OGC WMS standards

· CDI Metadata profile is based upon ISO 19115 standards

Recently the INSPIRE draft Implementation Rules for data formats have been released. SeaDataNet is registered as a Spatial Data Interest Community (SDIC) for INSPIRE and will make a further analysis of these draft rules and give feedback to INSPIRE in the coming months till mid October 2011.


(3) An expanded conclusion: Many of the arguments appear in the main

body of the report but the conclusion should summarise:


(a) The main barriers to the provision of data by data holders - scientific (uncertainties in measuring or obtaining indicator for required parameters), institutional (willingness of bodies to share data), legal (rules limiting access to data), commercial (cost of data), information technology (formats, standards, information systems) and financial (effort required to prepare data). The contractor will suggest a plan outlining how to overcome those barriers.
The data harvesting activities done for the Chemical Lot resulted really time-consuming.

The provision of data by the data holders was not homogeneous and depending on the different partners situation.

In some cases the communication difficulties were increased by local situation. For example in some cases research and environmental institutions works under two different Ministry.

The presentation letter for the activities of the Chemistry Lot received from the EEA was one of the useful tools to face these situations.

The SeaDataNet structure helped to overcome this barriers with data providers. In particular a clear explanation of CDI service features , giving to the providers the control of the data sharing using the data policy, was a core element .
Please find this point at the following report section:

5.2.1. BARRIERS TO THE PROVISION OF DATA

All partners were requested to provide information on the barriers for the provision of data in the following categories and to identify which was the most important barrier. The responses from 14 partners were subjectively categorized and each response given a score as follows:



  • Most important barrier - 4

  • Important - 3

  • Relevant - 2

  • Minor relevance - 1

  • No barrier - 0

The scores were averaged to provide a figure for the importance of each barrier across all partners. The figure below shows that the most important barrier to the provision of data for the EMODnet chemistry lot was the effort required to prepare the data. The willingness of institutions and legal factors were also significant barriers for the provision of data to the project.




The importance of different categories to act as barriers for the provision of data to the EMODnet project averaged across all partners. The higher the bar, the more important the barrier is.
Six of the 14 partners who replied stated that the effort required to prepare data was the most important barrier and the remaining respondents identified effort required as being important. Obtaining data and transferring the data from local databases into the CDI and ODV format and performing adequate QC takes up a significant amount of time despite the range of tools available to help partners do the transformation. The available tools are fit for purpose and the time taken to transfer data to the specified formats is largely unavoidable. In some cases the provision of data by the data holders to the EMODnet partners was in a variety of different formats which adds further time in transforming the data to the required CDI and ODV formats. However, in many cases once the transformation has been done, it can be rerun as new data becomes available and any learning and development overhead is reduced. The amount of resources required to prepare the data will in some cases be reduced by proposals under SeaDataNet 2 to allow direct production of the necessary formats. Experiences of how to reduce the effort required to prepare data should be shared amongst the consortium to maximize the availability of data in the future.

In some cases the legal barriers are associated with restricted data from the coastal zone, military areas and near borders. Many of these examples were specific to each country. For example in Italy, research and environmental institutions works under two different Ministries which complicates the situation. Often the generic letter from DG MARE and EEA provided at the start of the project had in some cases been used and was one of the useful tools to resolve these issues. In the future a formal letter to the member state policy departments directly from the EEA and EC may be more effective in removing legal or institutional barriers to the provision of data.


Some institutional barriers did exist among partners but in other cases a data sharing agreement had already been in existence within the country (e.g. GE, ES, UK, NL) which meant that any institutional barriers had already been removed. This was particularly the case for monitoring data that had already been collected as part of other legislative obligations such as OSPAR or the Water Framework Directive. Often where concern was expressed about making data available from the 3rd parties the SeaDataNet structure helped to overcome this institutional barrier by providing a clear explanation of CDI service features demonstrating that the data providers control the data sharing using the data policy. Data taken for research purposes was deemed harder to make available because of institutional barriers. To resolve this partners provided the following suggestions:

  • Setting mandatory reporting duties on data collection in EC projects. This should be updated and integrated in further EC projects funding schemas.

  • Promoting new ways of data publications and of citing data (and giving equal value to that as to journal publications and citations) which should be developed and promoted by the EU.

Some partners described that transcribing analogue data to digital was an issue, which if resourced would free up significant amounts of data. Other partners also identified that receiving data from research organizations within a reasonable time frame of it being collected was also reducing the amount of recent data available. These facts are borne out by the amount of available data in the portal for the relevant parameters which show that the amount of data peaked in 2005 and has since decreased (figure below). This decrease in data availability since 2005 may in part be caused by the delay in accessing data from scientists once it has been collected and the time required to process the data (ingest, QA and reformat).


Number of CDI records produced by year in the anthropogenic contamination and nutrient parameter groups.

(b) The challenges to rendering data interoperable including different measurement techniques, different baselines, different standards, different nomenclature etc. Indicate what steps that might be taken by data holders or the portal operator to improve interoperability.


Please find this point at the following report section:

5.2.2 THE CHALLENGES TO RENDERING DATA INTEROPERABLE

From the beginning of the Chemical pilot one of the main challenges was the management of the heterogeneity and complexity of parameters addressed in this Lot.

To summarize the situation:


  • 3 data types (water, sediment, biota) for 17 parameters with high heterogeneity of reporting basis (wet vs dry weight) matrices for biota (liver, mussel etc) measurement methods, instruments used etc

  • different data distributions in time and space;

  • different ministry leading environmental and research data in the different countries;

  • heterogeneous data policy;

To deal with this situation the first step was to take the SeaDataNet infrastructure as technical set up with the principle of ”Adopting and Adapting”. More specifically this infrastructure was adopted as common standards. These are adopted for the metadata (using the CDI – Common Data Index and the common vocabularies) and for the data (ODV4 ACII format).

A core element of the SDN standards are the Common Vocabularies that guarantee the interoperability and homogeneity of used terms. The vocabularies consist of continuously updated lists of standardized terms that envelope an extended spectrum of fields of study connected to the oceanographic and wider community. The use of standardized terms helps to solve the problem of the heterogeneity of data collected during the Chemical Lot activities.

As well as adoption of the already existing SeaDataNet infrastructure the other key element for the management of the Chemical Lot has been adapting work to suit the specific project needs. This activity will also continue in the next phase in collaboration with SeaDataNet2 mainly focused to:


  • Upgrade Common Vocabularies;

  • Web Infrastructure upgrade for data and products flow management.

The nature of chemical data is that it has been produced by many methodologies and to different standards so agreeing a general QA approach is crucial to being able to compare data with confidence. The purpose of the QA guidelines was to ensure that as many attributes as possible were included in order to allow these cross-comparisons across measures and methods to take place. More specifically it can be noted that:

  1. contaminant data are reported on a dry or wet weight basis so persuading partners to also report the conversion factor (% Dry Weight) will allow more data to be directly compared

  2. Normalization techniques (methods for accounting for the context in which the chemical was extracted from a sample) will also become important for the comparability of data and assessment in the future

(c) The challenges to producing contiguous data over a maritime basin from fragmented, inhomogeneous data and how to overcome these challenges.


Please find this point at the following report section:

5.2.3. THE CHALLENGES TO PRODUCING CONTIGUOUS DATA OVER A MARITIME BASIN

One of the main challenges of the Chemistry Lot is to produce contiguous data over a maritime basin from fragmented, inhomogeneous data.

As first step the objective was to produce interpolated maps by DIVA for all the basins of interest. After the analysis were highlighted the presence of 2 main subsets of available data:


  • data with homogeneous distribution in time and space, suitable for DIVA analysis;

  • data without homogeneous distribution in time and space;

Where the spatial distribution was too sparse or limited to coastal areas it was clearly not suitable to use DIVA analysis to make interpolated maps. To resolve this situation the partners aimed to obtain homogeneous datasets described as well as possible. For these datasets the technical solution commonly agreed was to show the single stations on maps linked to pre-produced plots that describes the time series of measurements for each parameter considered at specific depths.

(d) The fitness for purpose of the data for measuring ecosystem health of the maritime basin and what might be done to overcome any shortcomings.


Please find this point at the following report section:

5.2.4. THE FITNESS FOR PURPOSE OF THE DATA FOR MEASURING ECOSYSTEM HEALTH

Ecosystem health is determined by a wide variety of topics and in different stages in the DPSIR framework (Drivers, Pressures, State, Impact, Response). The most effective way to describe how EMODnet Chemistry can be used to determine ecosystem health is to relate the findings to that required by the EC Marine Strategy Framework Directive which aims to assess, and if necessary, improve the status of maritime basins using 11 descriptors as a basis for assessment. Of these 11 descriptors the Chemistry Lot provides data that can be used for:

Descriptor 5: Human-induced eutrophication is minimised, especially adverse effects thereof, such as losses in biodiversity, ecosystem degradation, harmful algal blooms and oxygen deficiency in bottom water.

Descriptor 8: Concentrations of contaminants are at levels not giving rise to pollution effects.

Descriptor 9: Contaminants in fish and other seafood for human consumption do not exceed levels established by Community legislation or other relevant standards.

The EMODnet chemistry data does allows assessment within these particular descriptors, although by itself the data provided by EMODnet chemistry is not sufficient to make a holistic assessment of ecosystem health. Furthermore, the data that the EMODnet chemistry lot provides is largely limited to providing pressure and state information whereas information on the impact of the pressures is also required for a holistic assessment. However, if the chemistry data is used in combination with EMODnet biology data and supporting information from the other lots, it can be used to assess ecosystem health. This is supported by the responses to the questionnaire of which 8 out of 11 respondents felt that the data from the EMODnet Chemical clot could be used ‘in part’ to measure ecosystem health. Once the proposed sea basin checks have been put in place in the next phase of EMODnet then a full assessment of ecosystem health using data from all lots will be possible. In the future the SeaDataNet architecture could be used to provide data under other descriptors such as noise and litter.

It can be concluded that a holistic assessment of EcoSystem health will draw on a number of sources of information and the EMODNET Chemistry portal is an important source of state and pressure information for the maritime basins. However, the chemistry portal in its current state of development is unable to provide information that is strictly comparable between different maritime basins and so the points raised in ‘challenges to rendering data interoperable’ would need to be thoroughly addressed before the portal is able to fully realize its potential to work across, as well as within, maritime basins

(e) The priorities and effort required for improving the accuracy, precision and coverage of the data collated including a description of how an appropriate data quality assurance and control system can be established.


Please find this point at the following report section:

5.2.5. THE PRIORITIES AND EFFORT REQUIRED FOR IMPROVING THE ACCURACY, PRECISION AND COVERAGE OF THE DATA COLLATED

In terms of coverage, the chemical portal has deliberately focused on a specific subset of all chemical parameters. Now that the EMODNET Chemistry infrastructure has been established it will be easier to incorporate a greater range of parameters and over a greater area (other sea basins for example). The portal can only make available what has been collected and therefore to greatly expand the number of existing parameters within already catalogued sea basins would entail increased monitoring activity within national and regional programmes.

Regarding accuracy and precision, it has been extensively noted in other sections of the report and the revision how for chemical data there are many attributes that should be recorded and available at the portal in order for the user to interpret the data correctly. Perhaps unlike the other EMODNET portals the chemistry portal has the difficult task of conveying to users that the chemical concentrations are very small in relation to the overall measuring capability and degree of precision of detection of a chemical in a sample. It will therefore continue to be important to ensure the supporting attributes are provided with the data and new ways of making this information digestible to end users be sought.

Establishing a quality assurance process for the entire chemical inventory for the EU basins would be a major undertaking, both in time and manpower. The approach in this portal was to take the core parts of established regional QA systems that already have been adopted at a national level. This is a far more cost effective method to ensure that a QA system is being adhered to without having to add another QA system on top. The advantage to this approach is that the national data centres are already working within the framework of national and regional QA and all that this entails and so investment is only needed where existing QA systems are not to the same level as established programmes. The disadvantage to this approach is that one is reliant on these QA systems being of a comparable quality, and that national data centres are part of these existing programmes.

In the next phase of development there are a number of key areas for improving the QA procedure:


  1. cross-comparison exercises between different sea basins (i.e. that belong to different QA programmes)

  2. workshops for national data centres that are not familiar with the QA programmes and the terminologies

  3. as noted elsewhere, the continued alignment of vocabularies to ensure comparability of methods etc. and some form of simplification of terms for end users.

  4. Ensure all requested supporting attributes (dry weight/wet weight calculations etc.) are provided for the majority of data through the portal

  5. More help for end users to use the data in a meaningful way (i.e. through examples and guidelines of interpretation, explanation of terms and vocabularies)

  • Incorporate new data precision techniques, i.e. uncertainty reporting and the associated method have the possibility to greatly reduce the amount of material needed to be included in reporting while also making a more generic standard for all to follow.

(f) The performance of the chosen portal technology in terms of speed of response, user-friendliness.


Please find this point at the updated chapter 4 TECHNICAL DEVELOPMENT AND PORTAL OPERATION (WP4) of report.

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