Search
Now showing items 1-10 of 39
Guidelines for the delayed mode scientific correction of glider data. WP 5 , Task 5.7, D5.15. Version 4.1.
(SOCIB - Balearic Islands Coastal Observing and Forecasting System for JERICO-NEXT, Palma de Mallorca, Spain, 2018)
Gliders are a rapidly maturing class of marine observing vehicles that offer long duration, some operate for several months at a time, autonomous ocean profiling in all weather conditions and sea states, to depths typically ...
Uncertainty estimation for temperature, salinity & chlorophyll-a. D#5.5. Version 1.
(Ifremer for JERICO Project, Issy-les-Moulineaux, France, 2015)
This document constitutes Deliverable 5.5 of the JERICO project. It is intended to furnish
members of the JERICO community with a basic understanding of how to proceed when
attempting to establish measurement uncertainty ...
The European HF radar inventory. Publication date 15 Sep 2016 (Updated version 30 Jan 2017).
(EuroGOOS, 2017)
The inventory of the different HF radar systems operating in Europe has been gathered thanks to the survey launched by the EuroGOOS HFR Task Team, in the framework of INCREASE and JERICO-NEXT projects. We are very grateful ...
Report on Best Practice in the utilization of sensors used for measuring nutrients, biology related optical properties,variables of the marine carbonate system, and for coastal profiling. JERICO-NEXT Deliverable D2.5. Version 1.0
(IFREMER, Brest, France, 2019)
The coastal area is the most productive and dynamic environment of the world ocean with significant resources and services for mankind. JERICO-NEXT emphasizes thatthe complexity of the coastal ocean cannot be well understood ...
HF Radar Activity in European Coastal Seas: Next Steps toward a Pan-European HF Radar Network.
(2017)
High Frequency Radar (HFR) is a land-based remote sensing instrument offering a unique insight to coastal ocean variability, by providing synoptic, high frequency and high resolution data at the ocean atmosphere interface. ...
Final report on improved carbon system sensors. WP3 Deliverable 3.9, Version 1.3.
(IFREMER for JERICO-NEXT, Brest, France, 2018)
WP3 task3.5 developed combined carbonate system sensors to provide contemporaneous measurements to improve carbonate sensor measurements and calculations in coastal observing systems. While each of the three subtasks ...
Marine biological data: quality control and management practices, WP5, D5.4. Version 4.0.
(IFREMER for JERICO-NEXT, 2017)
In JERICO-NEXT, a major effort
is
initiated towards a stronger
integration of biological
information
as part of the
observing networks.
These objectives
will be
realized
through the integration of ...
Progress report after development of microbial and molecular sensors. WP3, D3.7, Version 2.0.
(IFREMER for JERICO-NEXT, 2017)
The aim of Task 3.4 is to develop and test innovative methods for the molecular detection of
phytoplankton, harmful algal blooms and pollutants through their effect on microbial communities. This
will include the development ...
Novel methods for automated in situ observations of phytoplankton diversity. WP.3, D3.1,Version 9.
(IFREMER for JERICO-NEXT, 2017)
Phytoplankton forms the base of the marine food web. The number of phytoplankton taxa in the sea have been
estimated to be over 10 000. All of them are primary producers but the ecological function of the different ...
Requirements specifications for the observatory operator console. JERICO-NEXT WP5, D5.6, Version 1.0.
(IFREMER for JERICO-NEXT, 2017)
There
is a strong necessity to improve the management process of the metadata of the deployed observatories.
As reminded in Description of Work for Task 5.3, this weakness has been highlighted during the
SeaDataNet
and ...