{"datasetrec":{"DasID":5448,"Acronym":null,"StandardTitle":"JERICO-NEXT: Joint Research Activity Project 1: Phytoplankton Biodiversity","OrigTitle":null,"OrigTitleLangID":null,"OrigTitleLangCode":null,"OrigTitleLang":null,"OrigTitleLangNL":null,"VersionName":null,"ContactEmail":null,"VersionDate":null,"VersionDay":null,"VersionMonth":null,"VersionYear":null,"SizeReference":null,"EngAbstract":"Data collected by the Joint Research Activity Project on phytoplankton biodiversity (JRAP1)","EngDescr":null,"OrigAbstract":null,"OrigDescr":null,"Comments":null,"ReleaseDate":null,"ReleaseDate0":null,"OrigDescrLang":null,"EmbargoDate":null,"OrigDescrLangNL":null,"OrigLangCode":null,"OrigLangCodeExtended":null,"OrigLangID":null,"DescrCompFlag":0,"DescrTransFlag":0,"Citation":null,"AccessConstraints":null,"UDate":"2022-10-21","CDate":"2016-10-07","CurrencyDate":null,"RevisionDate":null,"DateLastModified":{"date":"2026-04-10 01:42:12.540544","timezone_type":1,"timezone":"+02:00"},"CheckedFlag":0,"PublicFlag":1,"VlizCoreFlag":1,"MarineFlag":1,"FreshFlag":0,"BrackishFlag":0,"TerrestrialFlag":0,"StatusID":1,"DasType":"Data","DasTypeID":1,"DasOrigin":"Research: field survey","Progress":"In Progress","AccessConstraint":"Attribution (CC BY)","AccConstrEN":"Attribution (CC BY)","AccConstrDisplay":"![\"Creative](\"https://www.marinespecies.org/aphia/images/cc/by.png\")
This dataset is licensed under a Creative Commons Attribution 4.0 International License.","License":"https://creativecommons.org/licenses/by/4.0/","AccConstrDescription":"This license lets others distribute, remix, tweak, and build upon your work, even commercially, as long as they credit you for the original creation. This is the most accommodating of licenses offered. Recommended for maximum dissemination and use of licensed materials.","Lineage":null,"AccConID":21},"dois":null,"spcols":[{"SpColID":552,"SpName":"EMODNET"}],"keywords":[{"ThesaurusTerm":"ANE, Baltic","ThesTypID":34,"ThesType":"ASFA Geoterms","Code":null,"Description":null,"OrigThesTerm":"ANE, Baltic","DutchTerm":null,"URI":null,"DasKeywordDescr":null},{"ThesaurusTerm":"ANE, North Sea","ThesTypID":34,"ThesType":"ASFA Geoterms","Code":null,"Description":null,"OrigThesTerm":"ANE, North Sea","DutchTerm":null,"URI":null,"DasKeywordDescr":null},{"ThesaurusTerm":"Data","ThesTypID":8,"ThesType":"Assemble KO Types","Code":null,"Description":null,"OrigThesTerm":"Data","DutchTerm":null,"URI":null,"DasKeywordDescr":null},{"ThesaurusTerm":"Marine Genomics","ThesTypID":10,"ThesType":"Assemble Sectors","Code":null,"Description":null,"OrigThesTerm":"Marine Genomics","DutchTerm":null,"URI":null,"DasKeywordDescr":null}],"parents":null,"children":[{"DasID":8069,"Acronym":null,"EngAbstract":"Plankton data collected in the framework of LifeWatch/Jerico S3. Data were collected using different methods and sensors (flow cytometer, pigment analysis, ZooScan, FlowCAM).","License":"https://creativecommons.org/licenses/by/4.0/","StandardTitle":"\r\nPlankton biodiversity data from a LifeWatch/Jerico North Sea Cruise with R/V Simon Stevin in May 2022","doi":null,"vlizDoi":null},{"DasID":5658,"Acronym":null,"EngAbstract":"Phytoplankton functional diversity and spatio-temporal distribution at the meso-scale are studied in the frame of the A*MIDEX CHROME (Continuous High Resolution Observation of the Mediterranean, https://en-chrome.mio.univ-amu.fr/?page_id=42) project thanks to the combined installation of a Ferrybox system (belonging to the INSTM, Tunis) and a cytosense flow cytometer onboard the CTN’s ferry “Le Carthage”. Samples were collected during the cruises between Tunis-Marseille and Tunis-Genova from October 2016 to January 2017. This led to an mount of 80 transects and more than 7000 samples collected. Data analyses resolved the abundances of up to six phytoplankton functional groups based on size and pigment content.","License":"https://creativecommons.org/publicdomain/zero/1.0/","StandardTitle":"A*MIDEX CHROME: Western Mediterranean automated flow cytometry surface sample from Ships of O/P crossing Tunis-Marseille and Tunis-Genova between October 2016-January 2017","doi":null,"vlizDoi":null},{"DasID":5657,"Acronym":null,"EngAbstract":"The Underwater Vision Profiler (UVP) was used int he Baltic sea during the Aranda cruise in July 2017 in the frame of JERICONEXT to quantify the vertical distribution of macroscopic particles >100µm and plankton > 700 μm in size (incuding large cynaobacterial filaments). The smaller size limit is fixed by optical resolution, whereas the larger size limit is determined by the volume of water illuminated per image. Images are recorded at a frequency up to 20 Hz and the recorded volume per image is 1.02 L.","License":"https://creativecommons.org/publicdomain/zero/1.0/","StandardTitle":"Baltic sea UVP5 image data set (July 2017)","doi":null,"vlizDoi":null},{"DasID":5896,"Acronym":null,"EngAbstract":"Hourly measurements using the Huvudskör E. buoy. Several abiotic and bio-optical parameters are collected. For phytoplankton, chlorophyll and phycocyanin fluorescence are the most relevant parameters.","License":"https://creativecommons.org/publicdomain/zero/1.0/","StandardTitle":"Bio-optical measurements from Huvudskär oceanographic buoy 2017","doi":null,"vlizDoi":null},{"DasID":5678,"Acronym":null,"EngAbstract":"Dataset contains bio-optical measurements carried out at Utö Atmospheric and Marine research station, from spring 2017 to spring 2018. Dataset includes continuous measurements of temperature, salinity, O2, fluorescence for Chlorophyll, phycocyanin, phycoerythrin and CDOM, spectral fluorescence and FRRF fluorometry from a flow-through system (sampling depth -5 m). Data set also includes 3-4 1-week campaigns to measure exctracted Chlorophyll, spectral absorption and fluorescence, primary production and nutrients.","License":"https://creativecommons.org/licenses/by/4.0/","StandardTitle":"Bio-optical measurements in Utö Baltic Sea, spring 2017-spring 2018","doi":null,"vlizDoi":null},{"DasID":5900,"Acronym":null,"EngAbstract":"An instrumented buoy called SMILE was installed in the bay of Seine (English Channel - France) in June 2016. This project is conducted by the University of Caen (CREC – UMR CNRS BOREA) and IFREMER. Beside traditional high-frequency measurements performed in oceanography, a Fast Rate Fluorometer Act2 Chelsea Instrument, which allows estimating primary production of phytoplankton, was installed on the buoy.","License":null,"StandardTitle":"Data from the SMILE buoy in the Bay of Seine","doi":null,"vlizDoi":null},{"DasID":6311,"Acronym":null,"EngAbstract":"Real-time data measured at the Utö Atmospheric and Marine Research Station located on Utö island at the outer edge of the Finnish archipelago. The station is operated by the Finnish Meteorological Institute (FMI) and the Finnish Environment Institute (SYKE). Find more information on FMI web pages: http://en.ilmatieteenlaitos.fi/uto\r\n
\r\nThe automatic weather station (AWS) data from Utö, as well as sea level data from the nearby tide gauge stations Hanko and Föglö, are freely available from the FMI open data interface.","License":null,"StandardTitle":"Data from Utö Atmospheric and Marine Research Station","doi":null,"vlizDoi":null},{"DasID":5861,"Acronym":"CAMANOC 2014","EngAbstract":"Gathering together researchers of various disciplines and from diverse institutes located along the Channel (several IFREMER laboratories, several French universities, English laboratories, universities and NGO), the CAMANOC 2014 cruise on board the RV Thalassa aims at sampling the entire English Channel (EC) ecosystem: hydrology, planktonic compartments including fish eggs and larvae, benthic invertebrates, pelagic, demersal and benthic fish and cephalopods, marine birds and mammals. To do so, the EC area was sampled by complementary techniques: hydrological probe, Niskin bottle, high frequency measurements systems such as Pocket Ferry Box, LOPC, plankton nets, GOV trawl, pelagic trawl, grab, dredge, ROV for sub-marine video, multibeam echosounders and visual observations.","License":"https://creativecommons.org/licenses/by-nc/4.0","StandardTitle":"Ferry Box CAMANOC 2014 cruise data (English Channel, 2014)","doi":null,"vlizDoi":null},{"DasID":5903,"Acronym":null,"EngAbstract":"Participation into annual multidisciplinary pelagic surveys of the Western Channel and Celtic Sea waters as part of project Poseidon. The aims of the Poseidon project is to estimate the biomass of-, and gain insight into the population of the small pelagic fish community using trawl and acoustic. Continuous recording of phytoplankton groups was coupled using automated flow cytometry (CytoSense), together with other measurements.","License":null,"StandardTitle":"Flow cytometer data during Poseidon survey in the Celtic Sea in 2016","doi":null,"vlizDoi":null},{"DasID":5904,"Acronym":null,"EngAbstract":"Opportunity of automated flow cytometers continuous recording during a Cefas Nephrops survey in the North Sea in June 2016. The objective of the Nephrops survey is to assess fishery independent indicators of stock size, exploitation status and catch advice with Underwater TV recording of Nephrops norvegicus. Besides, other types of data were collected such as surface (4 m) salinity, temperature, fluorometry, oxygen and pH and Fe/Fm from the ‘Ferrybox’, and phytoplankton functional types with 2 flow cytometers (Cytosense) from Cefas and RWS.","License":null,"StandardTitle":"Flow cytometer data from RWS during Nephrops survey in the North Sea in 2016","doi":null,"vlizDoi":null},{"DasID":5840,"Acronym":"IFCB110-SMHI","EngAbstract":"An imaging flow cytometer, the Imaging FlowCytobot, was used to investigate phytoplankton abundance and diversity in a fjordal system on the Swedish Skagerrak coast. Samples of 5 mL were collected approximately every 25 minutes. An automated winch was used to move the IFCB to different depths. Chlorophyll fluorescence of individual organisms was used to trigger the camera in the instrument. Several thousand images were collected in each sample. Automated image analyses was used to analyse the images produced to identify and count cells of different plankton taxa.","License":"https://creativecommons.org/licenses/by/4.0/","StandardTitle":"Imaging flow cytometry from SMHI in Tangesund 2016","doi":null,"vlizDoi":null},{"DasID":5839,"Acronym":"MAREL Carnot","EngAbstract":"The MAREL (Mesures Automatisées en Réseau pour l’Environnement Littoral) Carnot system developed and implemented by Ifremer (French Research Institute for Exploitation of the sea) in 2004 is a moored buoy equipped with physico-chemical and biological measuring devices working in continuous and autonomous conditions. The system is located in the Boulogne-sur-Mer harbor (eastern English Channel) influenced both by marine coastal and fresh waters. The measuring station is equipped with high performance systems for seawater analysis and near real time data transmission.","License":"https://creativecommons.org/licenses/by-nc/4.0","StandardTitle":"MAREL Carnot data and metadata from Coriolis Data Centre (English Channel, since 2004)","doi":"https://doi.org/10.17882/39754","vlizDoi":null},{"DasID":5911,"Acronym":null,"EngAbstract":"The Aranda cruise investigated the Baltic Sea, and the Kattegat and Skagerrak on July 2017, 10th – 17th. 18 stations were investigated for JERICO-NEXT. The main objectives of the cruise were to investigate the vertical and horizontal distribution of cyanobacteria and zooplankton and characterize phytoplankton.","License":"https://creativecommons.org/publicdomain/zero/1.0/","StandardTitle":"Microscopic analysis of water samples from the Aranda cruise in July 2017","doi":null,"vlizDoi":null},{"DasID":5676,"Acronym":null,"EngAbstract":"Dataset contains phycoeythrin fluorescence records during transects of ferry Finnmaid 25.5–31.8.2016 (four times per week) between Helsinki and Travemunde. Fluorescence was measured 20 second intervals using Microflu-red (Trios Gmbh) and Unilux -PE (Chelsea Technologies) fluorometers, installed in flow-through system. Water samples were collected weekly from three locations and ell counts of phycoerythrin containing species were carried out using epifluoresence microsopy (picocyanobacteria) and flowCam (larger cells).","License":"https://creativecommons.org/licenses/by/4.0/","StandardTitle":"Phycoerythrin fluorescence and cell counts of phycoeryhtrin containing species, ferry Finnmaid Helsinki - Travemunde, summer 2016","doi":null,"vlizDoi":null},{"DasID":5615,"Acronym":null,"EngAbstract":"Phytoplankton data collected in the framework of Jerico-NEXT JRAP 1.Biomass and diversity of phytoplankton communities were determined using FerryBox and on line flow cytometer at 4 meters. A new R-shiny application (https://openscience.cefas.co.uk/phytoops_tool/) displays biological, physical and biogeochemical parameters in different UK marine coastal areas in 2016 and 2017.","License":"https://creativecommons.org/licenses/by/4.0/","StandardTitle":"Phytoplankton biodiversity data from a North Sea Cruise with R/V Endeavour in June 2016","doi":null,"vlizDoi":null},{"DasID":5613,"Acronym":null,"EngAbstract":"Phytoplankton data collected in the framework of Jerico-NEXT JRAP 1. Data were collected using different methods and sensors (Flow cytometry, FRRF)","License":"https://creativecommons.org/licenses/by/4.0/","StandardTitle":"Phytoplankton biodiversity data from a North Sea Cruise with R/V Zirfaea in April 2016","doi":null,"vlizDoi":null},{"DasID":5614,"Acronym":null,"EngAbstract":"Phytoplankton data collected in the framework of Jerico-NEXT JRAP 1. Data were collected using different methods and sensors (Flow cytometry, FRRF)","License":"https://creativecommons.org/licenses/by/4.0/","StandardTitle":"Phytoplankton biodiversity data from a North Sea Cruise with R/V Zirfaea in June 2016","doi":null,"vlizDoi":null},{"DasID":5902,"Acronym":null,"EngAbstract":"To carry out an integrated monitoring survey of the Celtic Sea, south-western approaches and the western Channel using a random stratified survey design for the purposes of providing fish stock assessment data and the collection of associated ecosystem information. Biomass and diversity of phytoplankton communities were determined using FerryBox and on line flow cytometer at 4 meters. A new R-shiny application (https://openscience.cefas.co.uk/phytoops_tool/) displays biological, physical and biogeochemical parameters in different UK marine coastal areas in 2016 and 2017.","License":null,"StandardTitle":"Phytoplankton biodiversity data from Western English Channel Cruises with R/V Endeavour in 2017","doi":null,"vlizDoi":null},{"DasID":5899,"Acronym":null,"EngAbstract":"The Etoile cruise was firstly designed to understand hydrological dynamics in the Bay of Biscay. Besides, a physical-biological coupling was effective (JERICO-Next JRAP#1 and JRAP#4) by including phytoplankton monitoring in surface and at some water column depths. One of the objectives of the cruise was to characterize phytoplankton distribution at meso/sub-meso-scale using automated flow cytometer and multispectral fluorometry. These measurements should be complementary to discrete sample at three depths (surface, sub-surface and chlorophyll maximum).","License":null,"StandardTitle":"Phytoplankton data from the Etoile cruise in the Bay of Biscay in July - August 2017","doi":null,"vlizDoi":null},{"DasID":5898,"Acronym":null,"EngAbstract":"The PELRAD cruise (July 2017, 4th - 6th then 17th - 19th), onboard the RV “Sépia II” (CNRS/INSU), focused on phytoplankton distribution along the eastern English Channel in summer, to be compared spring features. This cruise is the second of a series of three cruises of the implementation of innovative semi-automated techniques for defining an automated observatory of phytoplankton and HABs, Joint Research Action Project #1 (JRAP#1) of the JERICO-NEXT project. Coordinates of these stations were the same as those visited during the PHYCO cruise.","License":null,"StandardTitle":"Phytoplankton data from the PELRAD cruise in the Strait of Dover in July 2017","doi":null,"vlizDoi":null},{"DasID":5897,"Acronym":null,"EngAbstract":"The PHYCO cruise was devoted to the study of the phytoplankton spring bloom in the Eastern Channel-southern North Sea region, by combining in situ continuous recording at sub-surface waters and discrete sampling and profiling at fixed stations, collecting and analysing samples both in surface and at different depths.","License":null,"StandardTitle":"Phytoplankton data from the PHYCO cruise in the Strait of Dover in April 2017","doi":null,"vlizDoi":null},{"DasID":6040,"Acronym":null,"EngAbstract":"Pankton data collected in the framework of Jerico-NEXT JRAP 1. Data were collected using different methods and sensors (flow cytometer, FRRF, pigment analysis, zooscan).","License":"https://creativecommons.org/licenses/by/4.0/","StandardTitle":"Plankton biodiversity data from a LifeWatch/Jerico North Sea Cruise with R/V Simon Stevin in April 2018","doi":null,"vlizDoi":null},{"DasID":5447,"Acronym":null,"EngAbstract":"Phytoplankton data collected in the framework of Jerico-NEXT JRAP 1. Data were collected using different methods and sensors (fluoroprobe, flow cytometer, phytopam, FRRF).","License":"https://creativecommons.org/licenses/by/4.0/","StandardTitle":"Plankton biodiversity data from a LifeWatch/Jerico North Sea Cruise with R/V Simon Stevin in May 2016","doi":null,"vlizDoi":null},{"DasID":5841,"Acronym":null,"EngAbstract":"Plankton data collected in the framework of Jerico-NEXT JRAP 1. Data were collected using different methods and sensors (fluoroprobe, flow cytometer, phytopam, FRRF, pigment analysis, zooscan).","License":"https://creativecommons.org/licenses/by/4.0/","StandardTitle":"Plankton biodiversity data from a LifeWatch/Jerico North Sea Cruise with R/V Simon Stevin in May 2017","doi":null,"vlizDoi":"10.14284/549"},{"DasID":6399,"Acronym":null,"EngAbstract":"Pankton data collected in the framework of Jerico-NEXT JRAP 1. Data were collected using different methods and sensors (flow cytometer, FRRF, pigment analysis, zooscan).","License":"https://creativecommons.org/licenses/by/4.0/","StandardTitle":"Plankton biodiversity data from a LifeWatch/Jerico North Sea Cruise with R/V Simon Stevin in May 2019","doi":null,"vlizDoi":null},{"DasID":6037,"Acronym":null,"EngAbstract":"Gathering together researchers of various disciplines and from diverse institutes located along the Channel (several IFREMER laboratories, several French universities, English laboratories, universities and NGO), the IBTS cruises on board the RV Thalassa aims at sampling the entire English Channel (EC) and part of the North Sea (NS) ecosystems: hydrology, planktonic compartments including fish eggs and larvae, benthic invertebrates, pelagic, demersal and benthic fish and cephalopods, marine birds and mammals. To do so, the EC-NS area was sampled by complementary techniques: hydrological probe, Niskin bottle, high frequency measurements systems such as Pocket Ferry Box, LOPC, plankton nets, GOV trawl, pelagic trawl, grab, dredge, ROV for sub-marine video, multibeam echosounders and visual observations.","License":"https://creativecommons.org/licenses/by-nc/4.0","StandardTitle":"Pocket Ferry Box (PFB) and Algae Online Analyser (AOA) data from the IBTS 2015, 2016, 2017 cruises, English Channel and North Sea","doi":null,"vlizDoi":null},{"DasID":5679,"Acronym":null,"EngAbstract":"Dataset contains ferrybox (ferry Silja Serenade) measurements between Helsinki and Stockholm from spring 2017 to spring 2018. Dataset includes continuous measurements of temperature, salinity, O2, fluorescence for Chlorophyll, phycocyanin, and CDOM from a flow-through system (sampling depth -5 m). Data set also includes monthly/weekly measurements of extracted Chlorophyll.","License":"https://creativecommons.org/licenses/by/4.0/","StandardTitle":"Silja Serenade ferrybox measurements between Helsinki and Stockholm, spring 2017-spring 2018","doi":null,"vlizDoi":null},{"DasID":5895,"Acronym":null,"EngAbstract":"This datasets contains data from continuous measurements along the Tavastland (formerly TransPaper) Serenade ferry line between Oulu-Kemi and Lübeck. At the depth of three meter under the water surface, sea water is constantly pumped into an on-board mini-laboratory. Parameters collected include chloropyll a, phycocyanin and CDOM fluorescence and turbidity.","License":null,"StandardTitle":"Tavastland ferrybox measurements between Lübeck and Oulu, 2016-2017","doi":null,"vlizDoi":null}],"othrel":null,"othrelrev":null,"ownerships":[{"OrderNr":1,"Surname":null,"Firstname":null,"Initials":null,"PerPublicFlag":null,"AdrID":null,"Email":null,"InsPublicFlag":1,"Acronym":"RWS","OrigNameLangCode":"en","OrigNameLangID":15,"FullOrigName":null,"InsOwnerCNT":1,"PersID":null,"InsID":4715,"FullInstitute":"Ministerie van Infrastructuur en Waterstaat; Rijkswaterstaat","RoleID":null,"Role":null,"OrigName":null,"StandardName":"Rijkswaterstaat","FullAcronym":"IenW-RWS","ORC":null,"ROR":"https://ror.org/0355ahf06"},{"OrderNr":2,"Surname":null,"Firstname":null,"Initials":null,"PerPublicFlag":null,"AdrID":null,"Email":null,"InsPublicFlag":1,"Acronym":"CNRS","OrigNameLangCode":"fr","OrigNameLangID":22,"FullOrigName":"Centre National de la Recherche Scientifique","InsOwnerCNT":1,"PersID":null,"InsID":521,"FullInstitute":"The National Center for Scientific Research","RoleID":null,"Role":null,"OrigName":"Centre National de la Recherche Scientifique","StandardName":"The National Center for Scientific Research","FullAcronym":"CNRS","ORC":null,"ROR":null},{"OrderNr":3,"Surname":null,"Firstname":null,"Initials":null,"PerPublicFlag":null,"AdrID":null,"Email":null,"InsPublicFlag":1,"Acronym":"PAE","OrigNameLangCode":"en","OrigNameLangID":15,"FullOrigName":"Ghent University; Faculty of Sciences; Biology Department; Laboratory of Protistology and Aquatic Ecology","InsOwnerCNT":1,"PersID":null,"InsID":732,"FullInstitute":"Universiteit Gent; Faculteit Wetenschappen; Vakgroep Biologie; Laboratorium voor Protistologie en Aquatische Ecologie","RoleID":null,"Role":null,"OrigName":"Laboratory of Protistology and Aquatic Ecology","StandardName":"Laboratorium voor Protistologie en Aquatische Ecologie","FullAcronym":"UGent-PAE","ORC":null,"ROR":null},{"OrderNr":4,"Surname":null,"Firstname":null,"Initials":null,"PerPublicFlag":null,"AdrID":null,"Email":null,"InsPublicFlag":1,"Acronym":"SMHI","OrigNameLangCode":null,"OrigNameLangID":null,"FullOrigName":null,"InsOwnerCNT":1,"PersID":null,"InsID":4480,"FullInstitute":"Swedish Meteorological and Hydrological Institute","RoleID":null,"Role":null,"OrigName":null,"StandardName":"Swedish Meteorological and Hydrological Institute","FullAcronym":"SMHI","ORC":null,"ROR":"https://ror.org/00hgzve81"},{"OrderNr":5,"Surname":null,"Firstname":null,"Initials":null,"PerPublicFlag":null,"AdrID":null,"Email":null,"InsPublicFlag":1,"Acronym":"NIVA","OrigNameLangCode":"no","OrigNameLangID":42,"FullOrigName":"Norsk institutt for vannforskning","InsOwnerCNT":1,"PersID":null,"InsID":5065,"FullInstitute":"Norwegian Institute for Water Research","RoleID":null,"Role":null,"OrigName":"Norsk institutt for vannforskning","StandardName":"Norwegian Institute for Water Research","FullAcronym":"NIVA","ORC":null,"ROR":null},{"OrderNr":6,"Surname":null,"Firstname":null,"Initials":null,"PerPublicFlag":null,"AdrID":null,"Email":null,"InsPublicFlag":1,"Acronym":"FEI/SYKE","OrigNameLangCode":"fi","OrigNameLangID":19,"FullOrigName":"Suomen ympäristökeskus","InsOwnerCNT":1,"PersID":null,"InsID":5301,"FullInstitute":"Finnish Environment Institute","RoleID":null,"Role":null,"OrigName":"Suomen ympäristökeskus","StandardName":"Finnish Environment Institute","FullAcronym":"FEI/SYKE","ORC":null,"ROR":null},{"OrderNr":7,"Surname":null,"Firstname":null,"Initials":null,"PerPublicFlag":null,"AdrID":null,"Email":null,"InsPublicFlag":1,"Acronym":"CEFAS","OrigNameLangCode":null,"OrigNameLangID":null,"FullOrigName":null,"InsOwnerCNT":1,"PersID":null,"InsID":4230,"FullInstitute":"Centre for Environment, Fisheries and Aquaculture Science","RoleID":null,"Role":null,"OrigName":null,"StandardName":"Centre for Environment, Fisheries and Aquaculture Science","FullAcronym":"CEFAS","ORC":null,"ROR":null},{"OrderNr":8,"Surname":null,"Firstname":null,"Initials":null,"PerPublicFlag":null,"AdrID":null,"Email":null,"InsPublicFlag":1,"Acronym":"IFREMER","OrigNameLangCode":null,"OrigNameLangID":null,"FullOrigName":"Research Institute for Exploitation of the Sea","InsOwnerCNT":1,"PersID":null,"InsID":4299,"FullInstitute":"Institut Français de Recherche pour l'Exploitation de la Mer","RoleID":null,"Role":null,"OrigName":"Research Institute for Exploitation of the Sea","StandardName":"Institut Français de Recherche pour l'Exploitation de la Mer","FullAcronym":"IFREMER","ORC":null,"ROR":null},{"OrderNr":9,"Surname":null,"Firstname":null,"Initials":null,"PerPublicFlag":null,"AdrID":null,"Email":null,"InsPublicFlag":1,"Acronym":"HCMR","OrigNameLangCode":"el","OrigNameLangID":25,"FullOrigName":"Ελληνικό Κέντρο Θαλάσσιων Ερευνών","InsOwnerCNT":1,"PersID":null,"InsID":1878,"FullInstitute":"Hellenic Centre for Marine Research","RoleID":null,"Role":null,"OrigName":"Ελληνικό Κέντρο Θαλάσσιων Ερευνών","StandardName":"Hellenic Centre for Marine Research","FullAcronym":"HCMR","ORC":null,"ROR":null},{"OrderNr":10,"Surname":null,"Firstname":null,"Initials":null,"PerPublicFlag":null,"AdrID":null,"Email":null,"InsPublicFlag":1,"Acronym":"VLIZ","OrigNameLangCode":"en","OrigNameLangID":15,"FullOrigName":"Flanders Marine Institute","InsOwnerCNT":1,"PersID":null,"InsID":36,"FullInstitute":"Vlaams Instituut voor de Zee","RoleID":24,"Role":"Contact","OrigName":"Flanders Marine Institute","StandardName":"Vlaams Instituut voor de Zee","FullAcronym":"VLIZ","ORC":null,"ROR":"https://ror.org/0496vr396"}],"taxterms":null,"frameworks":null,"otherterms":null,"temporal":[{"DasDateID":4207,"StartYear":2016,"EndYear":null,"StartDay":null,"EndDay":null,"StartDate":"2016-01-01","EndDate":null,"DasDate":null,"Resolution":null,"ResolutionNL":null,"Notes":null,"StartMonth0":null,"StartMonth":null,"StartMonthNL":null,"EndMonth0":null,"EndMonth":null,"EndMonthNL":null,"Progress":"In Progress","ProgressNL":"Gestart"}],"geographical":[{"GeoTerm":"Baltic Sea","DasGeoID":8997,"DasGeoTerm":null,"DasID":5448,"GeotID":77,"X":null,"Y":null,"MaxX":null,"MaxY":null,"StationName":null,"Precision":null,"CoordSystID":null,"GeoDatumID":null,"OrigCoordMinX":null,"OrigCoordMinY":null,"OrigCoordMaxX":null,"OrigCoordMaxY":null,"OrderNr":null,"Projection":null,"GeoDatum":null,"GeoObjectID":2401,"OrigGeoTerm":"Baltic Sea","DutchTerm":null},{"GeoTerm":"Mediterranean","DasGeoID":8996,"DasGeoTerm":null,"DasID":5448,"GeotID":6683,"X":null,"Y":null,"MaxX":null,"MaxY":null,"StationName":null,"Precision":null,"CoordSystID":null,"GeoDatumID":null,"OrigCoordMinX":null,"OrigCoordMinY":null,"OrigCoordMaxX":null,"OrigCoordMaxY":null,"OrderNr":null,"Projection":null,"GeoDatum":null,"GeoObjectID":1905,"OrigGeoTerm":"Mediterranean","DutchTerm":null},{"GeoTerm":"North Sea","DasGeoID":8995,"DasGeoTerm":null,"DasID":5448,"GeotID":390,"X":null,"Y":null,"MaxX":null,"MaxY":null,"StationName":null,"Precision":null,"CoordSystID":null,"GeoDatumID":null,"OrigCoordMinX":null,"OrigCoordMinY":null,"OrigCoordMaxX":null,"OrigCoordMaxY":null,"OrderNr":null,"Projection":null,"GeoDatum":null,"GeoObjectID":2350,"OrigGeoTerm":"North Sea","DutchTerm":"Noordzee"}],"meastypes":null,"dasthemes":[{"DasThemeID":26,"DasTheme":"Biology > Benthos","DasTheme0":"Benthos","DutchTerm":"Benthos"}],"projects":[{"ProID":4653,"Acronym":"Jerico-Next","Progress":"Completed","StandardTitle":"Joint European Research Infrastructure network for Coastal Observatory – Novel European eXpertise for coastal observatories","FP7Code":null,"GrantDOI":null,"FunderID":"654410","FunderIDType":"EU contract id","FunderCodes":["Horizon Europe"]}],"refs":null,"urls":null,"pictures":null,"urlmaps":null,"spatreps":null,"fileformats":null,"resmessage":"","complete":1}