First call

The successful JERICO-RI S3 TransNational Access (TA) fist call in 2020 resulted in 19 accepted projects with 10 marine observation hosting facilities. This TA call connected marine researchers of a total of 14 nationalities to facilities in 7 JERICO-RI partner countries.

The accepted projects utilise the array of multi-disciplinary facilities offered by JERICO-RI with the use of the cabled observatories, gliders and AUV, multi-platform facilities, fixed platforms, and calibration labs.

We are happy to share below a short summary of the projects along with the completed final project reports as they begin to finish their experiments. 

Acronym Project Title Project Principal Investigator Host Facility Short Project Summary Final Project Report
ABACUS 2021 ABACUS 2021: Algerian Basin Circulation Unmanned Survey 2021

Yuri Cotroneo,

University Parthenope

SOCIB glider facility,

Spain

The proposed research focuses on the characteristics of the Algerian Basin (AB) circulation. The project aims at confirming the importance of the ABACUS monitoring line across the AB between Palma de Mallorca and the southern part of the Algerian basin, and contribute to data collection in The Southern European Seas, one of the main EU maritime policy objectives, as outlined in the Marine Strategy Framework Directive (MSFD).

Final Project Report 

Data:

1) Data collected during ABACUS 2021 can be downloaded through the SOCIB DAPP.
2) Data collected during all the ABACUS missions since 2014, can be downloaded from the webpage. Dataset to be cited as: Miralles, A., Rubio, M., Rivera, P., Zarokanellos, N., Charcos, M., Férnandez, J. G., Budillon, G., Cotroneo, Y., Aulicino, G., Balager, P., Wirth, N., Casas, B., Baeza, J., Calafat, N., Juza, M., Notario, X., Heslop, E., Ruiz, S., Muñoz, C., … Tintoré, J. (2018). SOCIB TNA Abacus (Version 1.0) [Data set]. Balearic Islands Coastal Observing and Forecasting System, SOCIB. https://doi.org/10.25704/B200-3VF5

ATLAS Advanced ecosysTem monitoring in ecoLogicAl obServatory

Sergio Stefanni,

Stazione Zoologica Anton Dohrn

UPC Expandable Seafloor Observatory OBSEA,

Spain

The main goal of this project is to validate the use of an operational long-lasting automated pump system as a primary component of a future in situ environmental DNA (eDNA) sampler, allowing the precise filtration of water and consequent preservation of eDNA.

Final Project Report

Data: https://www.seanoe.org/data/00848/95952/

DeepDeg (A) Development of a reliable system to assess biodegradation of different materials in the European deep sea

Christian Lott,

HYDRA Marine Sciences GmbH

CNR-ISMAR Corsica Channel Mooring,

Italy

The main objective is to deploy and retrieve different plastic materials in-situ in the Mediterranean deep-sea to study their degradation. The method allows repeated deployments and retrievals of the same set of samples. This will enable them to analyse and compare the specific degradation time of different materials in the deep sea by measuring the material loss. Final Project Report in process
DeepDeg (B)

CNR-ISMAR Sicily Channel Observatory,

Italy

EMPORIA EMPORIA: Exploring the mesoscale processes in the area of freshwater influence (Gulf of Riga)

Māris Skudra,

Latvian Institute of Aquatic Ecology

Taltech Glider Mia + Profiler,

Estonia

The project’s scientific objective is to research the dynamic processes (vertical features, movement of water masses, upwellings/downwellings, coastal gradients, freshwater influence etc.) occurring in the western (W) and/or eastern (E) parts of the Gulf of Riga (GoR), describe their characteristics and possible impact on the GoR environment by conducting high-resolution glider survey perpendicular to the W and/or E coast complemented with CTD profiling.

Final Project Report

Data: Link not available yet

  EuroFluoro  Chelsea Technologies Ltd    Chelsea Technologies has developed its new VLux miniature multi-parameter fluorometer configured to provide high quality in situ detection of either Algae, Aromatic Hydrocarbons or Tryptophan-like fluorescence. Project EuroFluoro will test the usability of VLux OilPro fluorometer, having single excitation bands and three emission bands, in optically complex coastal waters.

 

 
EuroFluoro (B)

SmartBay Cabled Observatory,

Ireland

Final Project Report

Data: https://doi.org/10.17882/86790 

EuroFluoro (C)

HCMR POSEIDON calibration Lab,

Greece

Final Project Report

Data: Link not available yet

FISHES (A) Fibre-optic Intelligent Submarine High-Fidelity Environmental Sensing

National Oceanography Centre

UPC Expandable Seafloor Observatory OBSEA,

Spain

 The key objective for this project is to enable close to shot-noise broadband spatially resolved distributed dense space-time measurements, enabling capture of key distinguishing features across three different environmental conditions.

Final Project Report

Data: Belal Mohammad (2022). Jerico-S3 TNA access data- Fibre-optic Intelligent Submarine High-Fidelity Environmental Sensing at OBSEA. SEANOE. https://doi.org/10.17882/88395

FISHES (B)

SmartBay Cabled Observatory,

Ireland

Final Project Report

Data: Belal Mohammad (2022). Jerico-S3 TNA access data- Fibre-optic Intelligent Submarine High-Fidelity Environmental Sensing at Smartbay. SEANOE. https://doi.org/10.17882/86453

     
FRIPP-spring Frontal dynamics influencing Primary Production: investigating the onset of the spring bloom mechanism through gliders

Antonio Olita,

ISAC Institute of Atmospheric Sciences and Climate

SOCIB glider facility,

Spain

The project aims to study, through a multisensor sea-glider mission supported by modelled and remotely-sensed data, the impact of frontal dynamics on the Phytoplankton production and distribution as inferred from fluorometric measurements.

Final Project Report

Data: Socib

Frontiers Fault detection, isolation and Recovery fOr uNderwaTer glIdERS

Enrico Anderlini,

University College London

SOCIB glider facility,

Spain

The aim of the project is to validate methods for smart fault detection, isolation and recovery for underwater gliders. Frontiers outcomes will help increase the reliability of these platforms and help over-the-horizon pilots continue deployments even after noncritical faults, thus contributing to the assurance of the operations of marine autonomous systems (MAS).

Final Project Report

Data: Socib

MultiNuD In-situ parallel nutrient sensor deployments National Oceanography Centre

UPC Expandable Seafloor Observatory OBSEA,

Spain

 This project aims to deploy lab-on-chip phosphate, silicate and nitrate in-situ sensors at the OBSEA coastal Observatory. The sensors will collect a suite of laboratory-quality nutrient measurements over a six-month period with a temporal resolution that is unprecedented in the surface ocean. Specifically, the project will test three aspects that limit the capacity to deploy in-situ sensors in long-term moorings: reagent stability, biofouling, and low level performance.

Final Project Report

Data: See MultiNuD2

S100_Bio ANB Sensors S Series: Longterm Biofouling Deployment

Nathan Lawrence,

ANB Sensors Ltd

UPC Expandable Seafloor Observatory OBSEA,

Spain

The main objective is to test the ANB Sensor S1100 over a prolonged period of time, observing seasonal changes in weather and biodiversity. The aim is to test the S1100
performance as the conditions transcend the season when biofouling is and isn’t prevalent.

Final Project Report

Data: Link not available yet

VRunas Validation of a Real-time Underwater Noise Acquisition System

Ehsan Abdi,

Cyprus Subsea Consulting and Services

UPC Expandable Seafloor Observatory OBSEA,

Spain

The main objective of this project is the technical and scientific validation of the Real-time Underwater Noise Acquisition System (RUNAS) in coastal waters. This system aims to provide real-time underwater noise measurements compliant with the MSFD.

Final Project Report

Data:
SPL
WAVS 

YUCO-CTD Validation of an innovative easy-to-use affordable micro-AUV platform, embedding a high accuracy and resolution CTD sensor.

Quentin Peyregne,

Seaber

SmartBay Cabled Observatory,

Ireland

The main objective of the Yuco_CTD micro-AUV project is to perform quantitative and georeferenced salinity and temperature profiles in coastal areas using an easy to use affordable fully autonomous micro-AUV platform embedding an Argo referenced, high accuracy and resolution CTD sensor.

Final Project Report

Data: Smartbay Data

Photo from the FRIPP-spring mission this spring using the SOCIB glider facility. Photo credit to Balearic Islands Coastal Observing and Forecasting System (SOCIB).