The reaction of individual fish towards an approaching trawling vessel has previously been measured using target-tracking methods. In this paper these measured velocities are fitted to a deterministic mean behaviour model and a diffusion-advection model taking the random component into account. The output of the diffusion-advection model is used to estimate the probability of a fish to be caught by the bottom trawl. For typical depths in the Barents Sea, 200 - 350 m, and for immature Cod feeding on capelin, a mean fishing height of about 10 metres is found, and the effect of horizontal herding from the warp is shown. The effect of random fish movement is visualised by the different results from the two models
<div><p>During the fishing process, fish react to a trawl with a series of behaviours that often are...
When surveying demersal fish with a wide and variable vertical distribution, it is desirable to com...
The reaction of fish induced by a trawling vessel was measured using the Bergen Acoustic Buoy. It is...
The reaction of individual fish towards an approaching trawling vessel has previously been measured ...
Journal home page: http://pubs.nrc-cnrc.gc.ca/cgi-bin/rp/rp2_desc_e?cjfasThe effective sampling volu...
Varying fish distribution and behaviour during bottom trawl surveys has long been considered import...
ICES Working Group FAST (WGFAST): Fisheries Acoustics, Science and Technology Working Group (FAST.WG...
Introduction: Observations made by echo sounder (Ona 1988) have shown that cod (Gadus morhua L.) may...
Fish reaction to the whole trawling operation was studied using a stationary echo sounder-system ob...
The reaction of individual gadoids to a bottom-trawling vessel has been observed in situ in the Bare...
Int. Symp. on Fisheries Acoustics, Seattle, WA (USA), 22-26 Jun 1987The reactions of fish during tra...
We propose an approach for studying the relationship between spatial fish distributions and the dist...
Fish Sampling with Active Methods, Ceske Budejovice, Czech Republic, September 8-11, 2010
Fish form schools, layer or patches in which the individual fish's behaviour is not independent of ...
Thorough knowledge of the dynamics of natural fish behaviour and distribution within a survey and a...
<div><p>During the fishing process, fish react to a trawl with a series of behaviours that often are...
When surveying demersal fish with a wide and variable vertical distribution, it is desirable to com...
The reaction of fish induced by a trawling vessel was measured using the Bergen Acoustic Buoy. It is...
The reaction of individual fish towards an approaching trawling vessel has previously been measured ...
Journal home page: http://pubs.nrc-cnrc.gc.ca/cgi-bin/rp/rp2_desc_e?cjfasThe effective sampling volu...
Varying fish distribution and behaviour during bottom trawl surveys has long been considered import...
ICES Working Group FAST (WGFAST): Fisheries Acoustics, Science and Technology Working Group (FAST.WG...
Introduction: Observations made by echo sounder (Ona 1988) have shown that cod (Gadus morhua L.) may...
Fish reaction to the whole trawling operation was studied using a stationary echo sounder-system ob...
The reaction of individual gadoids to a bottom-trawling vessel has been observed in situ in the Bare...
Int. Symp. on Fisheries Acoustics, Seattle, WA (USA), 22-26 Jun 1987The reactions of fish during tra...
We propose an approach for studying the relationship between spatial fish distributions and the dist...
Fish Sampling with Active Methods, Ceske Budejovice, Czech Republic, September 8-11, 2010
Fish form schools, layer or patches in which the individual fish's behaviour is not independent of ...
Thorough knowledge of the dynamics of natural fish behaviour and distribution within a survey and a...
<div><p>During the fishing process, fish react to a trawl with a series of behaviours that often are...
When surveying demersal fish with a wide and variable vertical distribution, it is desirable to com...
The reaction of fish induced by a trawling vessel was measured using the Bergen Acoustic Buoy. It is...