Do whales really care about conventional fisheries acoustics ? [poster]

Introduction : Acoustic monitoring is considered essential for the modern exploration and understanding of marine communities and ecosystems. Nevertheless, underwater noise pollution may have potentially negative effects, particularly on marine mammal and fish physiology and behaviour. This study ai...

Full description

Bibliographic Details
Main Authors: Nøttestad, L., /Brehmer, Patrice, /Josse, Erwan, Doksaeter, L., Pavan, G., Sancho, G., /Lebourges-Dhaussy, Anne, Georgakarakos, S., Aumeeruddy, R., Dalen, J.
Format: Text
Language:English
Published: 2007
Subjects:
Norwegian Sea
Indian
Sei Whale
Online Access:https://www.documentation.ird.fr/hor/fdi:010081984
id ftird:oai:ird.fr:fdi:010081984
record_format openpolar
spelling ftird:oai:ird.fr:fdi:010081984 2024-09-09T20:00:20+00:00 Do whales really care about conventional fisheries acoustics ? [poster] Nøttestad, L. /Brehmer, Patrice /Josse, Erwan Doksaeter, L. Pavan, G. Sancho, G. /Lebourges-Dhaussy, Anne Georgakarakos, S. Aumeeruddy, R. Dalen, J. OCEAN INDIEN 2007 https://www.documentation.ird.fr/hor/fdi:010081984 EN eng https://www.documentation.ird.fr/hor/fdi:010081984 oai:ird.fr:fdi:010081984 Nøttestad L., Brehmer Patrice, Josse Erwan, Doksaeter L., Pavan G., Sancho G., Lebourges-Dhaussy Anne, Georgakarakos S., Aumeeruddy R., Dalen J. Do whales really care about conventional fisheries acoustics ? [poster]. 2007, 1 p. multigr. The Effects of Noise on Aquatic Life, Nyborg (DNK), 2007/08/13-17 text 2007 ftird 2024-08-15T05:57:42Z Introduction : Acoustic monitoring is considered essential for the modern exploration and understanding of marine communities and ecosystems. Nevertheless, underwater noise pollution may have potentially negative effects, particularly on marine mammal and fish physiology and behaviour. This study aim to quantify how offshore whales and dolphins react on conventional fisheries acoustics from both a stationary and moving research vessel. Material and Methods : An acoustic monitoring methodology was applied with conventional fisheries acoustic instrumentation. A three-frequency echosounder (38, 70 and 120 kHz) and an omnidirectional multibeam sonar (24 kHz) were connected to artificial drifting Fish Aggregating Devices (FADs) during an international scientific cruise (February 2004) in the western Indian Ocean. A moving vessel equipped with multi-frequency echosounders (18, 38, 70, 120 and 200 kHz) andmultibeam (20-30, 110-120 kHz) sonars was also used during an ecosystem survey in the Norwegian Sea. Digital filming and ping-to-ping sonar tracking of animals were used to study marine mammal behaviour and possible reaction patterns to emitted sound from hydro-acoustic instrumentation. Results : When using conventional fisheries acoustics in the Indian Ocean, a group of sei whale approached a stationary vessel, providing some evidence that the acoustic signals did not cause a measurable avoidance response by the whales. Similarly, large whales (fin, humpback and sperm whales), and dolphins (pilot and killer whales) did not show measurable behavioural responses and avoidance reactions towards a moving vessel. Groups of whales and dolphins were actively feeding on herring, mackerel and krill for 10-40 minutes simultaneously as the vessel was within 50-800 meters distance at different speed (2-12 knots). Our results suggest that many marine mammals in open oceans do not actively avoid stationary or moving vessels applying fisheries acoustics. Further studies are needed to find operational hydro-acoustic thresholds ... Text Norwegian Sea Sei Whale IRD (Institute de recherche pour le développement): Horizon Norwegian Sea Indian
institution Open Polar
collection IRD (Institute de recherche pour le développement): Horizon
op_collection_id ftird
language English
description Introduction : Acoustic monitoring is considered essential for the modern exploration and understanding of marine communities and ecosystems. Nevertheless, underwater noise pollution may have potentially negative effects, particularly on marine mammal and fish physiology and behaviour. This study aim to quantify how offshore whales and dolphins react on conventional fisheries acoustics from both a stationary and moving research vessel. Material and Methods : An acoustic monitoring methodology was applied with conventional fisheries acoustic instrumentation. A three-frequency echosounder (38, 70 and 120 kHz) and an omnidirectional multibeam sonar (24 kHz) were connected to artificial drifting Fish Aggregating Devices (FADs) during an international scientific cruise (February 2004) in the western Indian Ocean. A moving vessel equipped with multi-frequency echosounders (18, 38, 70, 120 and 200 kHz) andmultibeam (20-30, 110-120 kHz) sonars was also used during an ecosystem survey in the Norwegian Sea. Digital filming and ping-to-ping sonar tracking of animals were used to study marine mammal behaviour and possible reaction patterns to emitted sound from hydro-acoustic instrumentation. Results : When using conventional fisheries acoustics in the Indian Ocean, a group of sei whale approached a stationary vessel, providing some evidence that the acoustic signals did not cause a measurable avoidance response by the whales. Similarly, large whales (fin, humpback and sperm whales), and dolphins (pilot and killer whales) did not show measurable behavioural responses and avoidance reactions towards a moving vessel. Groups of whales and dolphins were actively feeding on herring, mackerel and krill for 10-40 minutes simultaneously as the vessel was within 50-800 meters distance at different speed (2-12 knots). Our results suggest that many marine mammals in open oceans do not actively avoid stationary or moving vessels applying fisheries acoustics. Further studies are needed to find operational hydro-acoustic thresholds ...
format Text
author Nøttestad, L.
/Brehmer, Patrice
/Josse, Erwan
Doksaeter, L.
Pavan, G.
Sancho, G.
/Lebourges-Dhaussy, Anne
Georgakarakos, S.
Aumeeruddy, R.
Dalen, J.
spellingShingle Nøttestad, L.
/Brehmer, Patrice
/Josse, Erwan
Doksaeter, L.
Pavan, G.
Sancho, G.
/Lebourges-Dhaussy, Anne
Georgakarakos, S.
Aumeeruddy, R.
Dalen, J.
Do whales really care about conventional fisheries acoustics ? [poster]
author_facet Nøttestad, L.
/Brehmer, Patrice
/Josse, Erwan
Doksaeter, L.
Pavan, G.
Sancho, G.
/Lebourges-Dhaussy, Anne
Georgakarakos, S.
Aumeeruddy, R.
Dalen, J.
author_sort Nøttestad, L.
title Do whales really care about conventional fisheries acoustics ? [poster]
title_short Do whales really care about conventional fisheries acoustics ? [poster]
title_full Do whales really care about conventional fisheries acoustics ? [poster]
title_fullStr Do whales really care about conventional fisheries acoustics ? [poster]
title_full_unstemmed Do whales really care about conventional fisheries acoustics ? [poster]
title_sort do whales really care about conventional fisheries acoustics ? [poster]
publishDate 2007
url https://www.documentation.ird.fr/hor/fdi:010081984
op_coverage OCEAN INDIEN
geographic Norwegian Sea
Indian
geographic_facet Norwegian Sea
Indian
genre Norwegian Sea
Sei Whale
genre_facet Norwegian Sea
Sei Whale
op_relation https://www.documentation.ird.fr/hor/fdi:010081984
oai:ird.fr:fdi:010081984
Nøttestad L., Brehmer Patrice, Josse Erwan, Doksaeter L., Pavan G., Sancho G., Lebourges-Dhaussy Anne, Georgakarakos S., Aumeeruddy R., Dalen J. Do whales really care about conventional fisheries acoustics ? [poster]. 2007, 1 p. multigr. The Effects of Noise on Aquatic Life, Nyborg (DNK), 2007/08/13-17
_version_ 1809931563338563584

Similar Items