Acronym AutoMAT
Category
Fisheries
Title Development of an innovative non-invasive monitoring and evaluation process in the research of fishery Programme National Programme
Instrument (FP6)
Contact Type (FP7)
Strand (Interreg)
NA
Theme (FP7)
Activity Area (FP6)
Regional Area (Interreg)
Action (COST)
NA
Specific Programme (FP7)
NA
Funding source National Coordinator NA Coordinator email NA
Coordinator institution
TI SF - Thünen-Institute of Sea Fisheries (Germany)
Institutions involved
NA - arivis AG (Germany) ,
IGD - Fraunhofer Institute for Computer Graphics Research (Germany) ,
HZG - Helmholtz Zentrum Geesthacht (Germany) ,
NA - Impetus GmbH & Co (Germany) ,
NA - Kiel University of Applied Sciences (Germany) ,
NA - Kunststoff-Spranger GmbH (Germany) ,
ELAC - L-3 ELAC Nautik (Germany) ,
NA - MacArtney Germany GmbH (Germany) ,
MRI - Max Rubner-Institut - Federal Research Institute of Nutrition and Food (Germany) ,
SER - SER Schiffselektronik Rostock GmbH (Germany) ,
TI-FI - Thunen Institute - Institute of Fishery Ecology (Germany) ,
UHH - University of Hamburg (Germany) ,
Start year 2013 End year 2015 Funding (€) € 5,015,689 Website https://fisaonline.de/en/find-projects/details/?tx_fisaresearch_projects%5Bp_id%5D=10789&tx_fisaresearch_projects%5Baction%5D=projectDetails&tx_fisaresearch_projects%5Bcontroller%5D=Projects&cHash=fb9f0bf6c72bedf799394415adea98bc#more Summary Climate change, fisheries and further parameters affect the marine living resources. To determine these dynamics, the Thünen Institute of Sea Fisheries develops a technologically new underwater fish obsvervatory. We aim at capturing fish and their natural environment synoptically, at a high resolution, continuously and non-invasively in an automated fashion. The data acquisition is even possible where research vessels cannot go to or where these are prohibited (wind farms, protected areas, mariculture, gillnet areas, etc.). With the data obtained, the dynamics and the state of the captured fish populations can be analysed, the size of stocks be calculated and the fisheries be managed. The joint research project aims at revolutionizing the conventional data collection and analysis procedures in fisheries biology as well as ecology by implementing alternative automated recording and analysis systems. New modern electronic and sensory devices will be applied along with new innovative software solutions. As a result different pre-prototypes will be produced that help to substantially increase the efficiency of data collection and analysis through automation. Moreover, it will revolutionize the classical working structures in fisheries biology in different aspects. The proposed joint research project will thus lead directly to eco-friendly und economically sustainable fisheries and aquacultures thereby supporting the ideas of the CFP of the EU. The joint project consists of 4 work packages being further divided into sub-projects reflecting the single tasks of the project partners: 1. Development of a non-invasive acoustic-optic underwater fish observatory (UFO) 2. Electronic monitoring as basis for catch quota management (FISH-EM)3. New, innovative approaches to retrace fish and fishproducts as a contribution for consumer safety and reducing illegal fishery 4. Development of a pressure-chamberflow-channel to parameterize the influence of harmful substances and diseases on the capacity of European eel reproduction The workplan and its interacting components may be taken from the GANNT diagrams of the project application text.
Keywords
Fisheries management;
Pollution;
Monitoring;
Toxic substances;
Fish biology;
Stock assessment;
Fish;
Eel;
Impacts;
Marine Region
76
Not associated to marine areas
0
Marine Region Map
