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Collaborative project: Development of an innovative non-invasive monitoring and evaluation process in the research of fishery (AutoMAT). Subproject 1: Development of a non-invasive, acoustic-optic underwater fish obsvervatory (UFO)
Project
Project code: TI-SF-08-PID1594
Contract period: 01.07.2013
- 01.06.2015
Purpose of research: Applied research
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.
Section overview
Subjects
- Marine fisheries
- Climate Change
Framework programme
Funding programme
Excutive institution
Funding institution
Project management agencies
Associated projects: AutoMAT
- Collaborative project: Development of an innovative non-invasive monitoring and evaluation process in the research of fishery - subproject 12
- Collaborative project: Development of an innovative non-invasive monitoring and evaluation process in the research of fishery - subproject 11
- Collaborative project: Development of an innovative non-invasive monitoring and evaluation process in the research of fishery - subproject 10
- Collaborative project: Development of an innovative non-invasive monitoring and evaluation process in the research of fishery - subproject 9
- Collaborative project: Development of an innovative non-invasive monitoring and evaluation process in the research of fishery - subproject 8
- Collaborative project: Development of an innovative non-invasive monitoring and evaluation process in the research of fishery - subproject 7
- Collaborative project: Development of an innovative non-invasive monitoring and evaluation process in the research of fishery - subproject 6
- Collaborative project: Development of an innovative non-invasive monitoring and evaluation process in the research of fishery - subproject 5
- Collaborative project: Development of an innovative non-invasive monitoring and evaluation process in the research of fishery - subproject 4
- Collaborative project: Development of an innovative non-invasive monitoring and evaluation process in the research of fishery - subproject 3
- Collaborative project: Development of an innovative non-invasive monitoring and evaluation process in the research of fishery - subproject 2
- Collaborative project: Development of an innovative non-invasive monitoring and evaluation process in the research of fishery - subproject 1: Development of a hyperbaric flow channel to parameterize the effects of contaminants and diseases on the reproductive capacity of the European Eel