Baltic Sea Chlorophyll-a trend
'''DEFINITION'''
This product includes the Baltic Sea satellite chlorophyll trend map from 1997 to 2020 based on regional chlorophyll reprocessed (REP) product as distributed by CMEMS OC-TAC which, in turn, result from the application of the regional chlorophyll algorithms over remote sensing reflectances (Rrs) provided by the Plymouth Marine Laboratory (PML) using the ESA Ocean Colour Climate Change Initiative processor (ESA OC-CCI, Sathyendranath et al., 2018a). The chlorophyll product is derived from a Multi Layer Perceptron neural-net (MLP) developed on field measurements collected within the BiOMaP program of JRC/EC (Zibordi et al., 2011). The algorithm is an ensemble of different MLPs that use Rrs at different wavelengths as input. The processing chain and the techniques used to develop the algorithm are detailed in Brando et al. (2021a; 2021b).
The trend map is obtained by applying Colella et al. (2016) methodology, where the Mann-Kendall test (Mann, 1945; Kendall, 1975) and Sens’s method (Sen, 1968) are applied on deseasonalized monthly time series, as obtained from the X-11 technique (see e. g. Pezzulli et al. 2005), to estimate, trend magnitude and its significance. The trend is expressed in % per year that represents the relative changes (i.e., percentage) corresponding to the dimensional trend [mg m-3 y-1] with respect to the reference climatology (1997-2014). Only significant trends (p < 0.05) are included.
'''CONTEXT'''
Phytoplankton are key actors in the carbon cycle and, as such, recognised as an Essential Climate Variable (ECV). Chlorophyll concentration - as a proxy for phytoplankton - respond rapidly to changes in environmental conditions, such as light, temperature, nutrients and mixing (Colella et al. 2016). The character of the response in the Baltic Sea depends on the nature of the change drivers, and ranges from seasonal cycles to decadal oscillations (Kahru and Elmgren 2014) and anthropogenic climate change. Eutrophication is one of the most important issue for the Baltic Sea (HELCOM, 2018), therefore the use of long-term time series of consistent, well-calibrated, climate-quality data record is crucial for detecting eutrophication. Furthermore, chlorophyll analysis also demands the use of robust statistical temporal decomposition techniques, in order to separate the long-term signal from the seasonal component of the time series.
'''CMEMS KEY FINDINGS'''
The average Baltic Sea trend for the 1997-2020 period is 0.5% per year. A positive trend characterizes the central area of the basin from Northern Baltic Proper to Southern part, throughout Eastern and Western Gotland Basin. This result is in accordance to those of Sathyendranath et al. (2018b), that reveal an increasing trend in chlorophyll concentration in most of the European Seas. Weak negative trend is observable in the eastern sector of Gulf of Finland, Bothnian Bay and over the Gulf of Riga. Generally, along the coast of the basin the trend is no significant. Finally, in the 1997-2020 time window, the Bothnian Bay does not show a specific positive or negative trend, with percentage close to zero.
'''DOI (product):'''
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Citation proposal
Rosalia SANTOLERI (OC-CNR-ROMA-IT). Baltic Sea Chlorophyll-a trend. https://services.mspdata.eu:/geonetwork/srv/api/records/339a18cb-e9c9-43f0-9e3b-1164fd5b74e3 |
Simple
- Alternate title
- BALTIC_OMI_HEALTH_OceanColour_trend
- Date ( Creation )
- 2018-02-12
- Edition
- 3.4
- Edition date
- 2018-02-12
- Identifier
- a78600a4-a280-47b5-8ddd-0dc8b5e9c9d9
- Credit
- E.U. Copernicus Marine Service Information
Custodian
Originator
Point of contact
Resource provider
Distributor
- Maintenance and update frequency
- Annually
- Other
- P0M0D0H/P0M0D0H
- Maintenance note
- N/A
- GEMET - INSPIRE themes, version 1.0 ( Theme )
-
- Oceanographic geographical features
- Discipline ( Discipline )
-
- satellite-observation
- Climate and Forecast Standard Names ( parameter )
-
- change_in_mass_concentration_of_chlorophyll_in_seawater_over_time
- Temporal scale ( temporal-scale )
-
- multi-year
- Area of benefit ( area-of-benefit )
-
- coastal-marine-environment , weather-climate-and-seasonal-forecasting , marine-resources , marine-safety
- Reference Geographical Areas ( reference-geographical-area )
-
- baltic-sea
- Processing level ( processing-level )
-
- Level 4
- Model assimilation ( Theme )
-
- Not Applicable
- Use limitation
- See Copernicus Marine Environment Monitoring Service Data commitments and licence at: http://marine.copernicus.eu/web/27-service-commitments-and-licence.php
- Access constraints
- Other restrictions
- Use constraints
- License
- Other constraints
- No limitations on public access
- Aggregate Datasetindentifier
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- Association Type
- Cross reference
- Initiative Type
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- Date ( Creation )
- 2019-05-08
- Association Type
- Cross reference
- Initiative Type
- reference
- Date ( Creation )
- 2019-05-08
- Association Type
- Cross reference
- Initiative Type
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- Date ( Creation )
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- Association Type
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- Initiative Type
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- Date ( Creation )
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- Association Type
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- Initiative Type
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- Date ( Creation )
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- Association Type
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- Initiative Type
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- Date ( Creation )
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- Association Type
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- Initiative Type
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- Date ( Creation )
- 2019-05-08
- Association Type
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- Association Type
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- Initiative Type
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- Date ( Creation )
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- Initiative Type
- reference
- Date ( Creation )
- 2019-05-08
- Association Type
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- Initiative Type
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- Date ( Creation )
- 2019-05-08
- Association Type
- Cross reference
- Initiative Type
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- Date ( Creation )
- 2019-05-08
- Association Type
- Cross reference
- Initiative Type
- reference
- Aggregate Datasetindentifier
- 9637aa06-3b90-4526-bec0-4d88f41fd5eb
- Association Type
- Cross reference
- Initiative Type
- document
- Aggregate Datasetindentifier
- 0b18e79c-8814-4d45-acd2-558b03f41608
- Association Type
- Cross reference
- Initiative Type
- document
- Metadata language
- eng
- Topic category
-
- Oceans
- Description
- bounding box
))
Vertical extent
- Supplemental Information
- display priority: 53800
- Reference system identifier
- EPSG / WGS 84 (EPSG 4326)
- Number of dimensions
- 2
- Dimension name
- Row
- Resolution
- 1 km
- Dimension name
- Column
- Resolution
- 1 km
- Cell geometry
- Area
- Transformation parameter availability
- false
- Distribution format
-
- NetCDF-4 (Classic model )
Distributor
- OnLine resource
- baltic_omi_health_oceancolour_trend
- Hierarchy level
- Series
Conformance result
- Date ( Publication )
- 2010-12-08
- Explanation
- See the referenced specification
- Statement
- The myOcean products depends on other products for production or validation. The detailed list of dependencies is given in ISO19115's aggregationInfo (ISO19139 Xpath = "gmd:MD_Metadata/gmd:identificationInfo/gmd:aggregationInfo[./gmd:MD_AggregateInformation/gmd:initiativeType/gmd:DS_InitiativeTypeCode/@codeListValue='upstream-validation' or 'upstream-production']")
Metadata
- File identifier
- 339a18cb-e9c9-43f0-9e3b-1164fd5b74e3 XML
- Metadata language
- English
- Character set
- UTF8
- Hierarchy level
- Series
- Hierarchy level name
- Copernicus Marine Service product specification
- Date stamp
- 2021-12-13T09:38:53
- Metadata standard name
- ISO 19139, MyOcean profile
- Metadata standard version
- 0.2
Point of contact
- Website
- http://marine.copernicus.eu/