Short Term and Long Term Bioacoustic Monitoring of the Marine Environment. Results from NEMO ONDE Experiment and Way Ahead.

The INFN NEMO-OνDE (Ocean Noise Detection Experiment) station, deployed on the seafloor at 2000 m depth 25 km offshore Catania (Sicily, Italy) in year 2005, was designed to continuously transmit broad-band acoustic data through optical cables to the INFN lab located in the port of Catania. It was op...

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Bibliographic Details
Main Authors: PAVAN, GIANNI, La Manna G., Zardin F., Internullo E., Kloeti S., Cosentino G., Speziale F., Riccobene G., the NEMO Collaboration
Other Authors: Frommolt K.H., Rolf Bardeli R., Clausen M., Pavan, Gianni, La Manna, G., Zardin, F., Internullo, E., Kloeti, S., Cosentino, G., Speziale, F., Riccobene, G., the NEMO, Collaboration
Format: Conference Object
Language:English
Published: Federal Agency for Nature Conservation, Bonn, Germany 2008
Subjects:
COMPUTATIONAL BIOACOUSTICS
UNDERWATER BIOACOUSTICS
SPERM WHALE
Sperm whale
Online Access:http://hdl.handle.net/11571/147275
id ftunivpavia:oai:iris.unipv.it:11571/147275
record_format openpolar
spelling ftunivpavia:oai:iris.unipv.it:11571/147275 2024-02-11T10:08:56+01:00 Short Term and Long Term Bioacoustic Monitoring of the Marine Environment. Results from NEMO ONDE Experiment and Way Ahead. PAVAN, GIANNI La Manna G. Zardin F. Internullo E. Kloeti S. Cosentino G. Speziale F. Riccobene G. the NEMO Collaboration Frommolt K.H., Rolf Bardeli R., Clausen M. Pavan, Gianni La Manna, G. Zardin, F. Internullo, E. Kloeti, S. Cosentino, G. Speziale, F. Riccobene, G. the NEMO, Collaboration 2008 STAMPA http://hdl.handle.net/11571/147275 eng eng Federal Agency for Nature Conservation, Bonn, Germany ispartofbook:Computational bioacoustics for assessing biodiversity. Proceedings of the International Expert meeting on IT-based detection of bioacoustical patterns. International Expert meeting on IT-based detection of bioacoustical patterns. firstpage:7 lastpage:14 numberofpages:8 http://hdl.handle.net/11571/147275 COMPUTATIONAL BIOACOUSTICS UNDERWATER BIOACOUSTICS SPERM WHALE info:eu-repo/semantics/conferenceObject 2008 ftunivpavia 2024-01-24T17:37:36Z The INFN NEMO-OνDE (Ocean Noise Detection Experiment) station, deployed on the seafloor at 2000 m depth 25 km offshore Catania (Sicily, Italy) in year 2005, was designed to continuously transmit broad-band acoustic data through optical cables to the INFN lab located in the port of Catania. It was operational until November 2006, when it was replaced by other experimental equipment. During the operational period, 5 minutes of recording (4 hydrophones, 45 kHz bandwidth, 96 kHz sampling rate at 24 bits resolution) were taken every hour. The experiment provided long-term data on the underwater noise and an unique opportunity to study the acoustic emissions of marine mammals living in, or transiting through the area east of Sicily. The recordings revealed a more frequent and consistent presence of sperm whales than previously believed. Conference Object Sperm whale IRIS UNIPV (Università degli studi di Pavia)
institution Open Polar
collection IRIS UNIPV (Università degli studi di Pavia)
op_collection_id ftunivpavia
language English
topic COMPUTATIONAL BIOACOUSTICS
UNDERWATER BIOACOUSTICS
SPERM WHALE
spellingShingle COMPUTATIONAL BIOACOUSTICS
UNDERWATER BIOACOUSTICS
SPERM WHALE
PAVAN, GIANNI
La Manna G.
Zardin F.
Internullo E.
Kloeti S.
Cosentino G.
Speziale F.
Riccobene G.
the NEMO Collaboration
Short Term and Long Term Bioacoustic Monitoring of the Marine Environment. Results from NEMO ONDE Experiment and Way Ahead.
topic_facet COMPUTATIONAL BIOACOUSTICS
UNDERWATER BIOACOUSTICS
SPERM WHALE
description The INFN NEMO-OνDE (Ocean Noise Detection Experiment) station, deployed on the seafloor at 2000 m depth 25 km offshore Catania (Sicily, Italy) in year 2005, was designed to continuously transmit broad-band acoustic data through optical cables to the INFN lab located in the port of Catania. It was operational until November 2006, when it was replaced by other experimental equipment. During the operational period, 5 minutes of recording (4 hydrophones, 45 kHz bandwidth, 96 kHz sampling rate at 24 bits resolution) were taken every hour. The experiment provided long-term data on the underwater noise and an unique opportunity to study the acoustic emissions of marine mammals living in, or transiting through the area east of Sicily. The recordings revealed a more frequent and consistent presence of sperm whales than previously believed.
author2 Frommolt K.H., Rolf Bardeli R., Clausen M.
Pavan, Gianni
La Manna, G.
Zardin, F.
Internullo, E.
Kloeti, S.
Cosentino, G.
Speziale, F.
Riccobene, G.
the NEMO, Collaboration
format Conference Object
author PAVAN, GIANNI
La Manna G.
Zardin F.
Internullo E.
Kloeti S.
Cosentino G.
Speziale F.
Riccobene G.
the NEMO Collaboration
author_facet PAVAN, GIANNI
La Manna G.
Zardin F.
Internullo E.
Kloeti S.
Cosentino G.
Speziale F.
Riccobene G.
the NEMO Collaboration
author_sort PAVAN, GIANNI
title Short Term and Long Term Bioacoustic Monitoring of the Marine Environment. Results from NEMO ONDE Experiment and Way Ahead.
title_short Short Term and Long Term Bioacoustic Monitoring of the Marine Environment. Results from NEMO ONDE Experiment and Way Ahead.
title_full Short Term and Long Term Bioacoustic Monitoring of the Marine Environment. Results from NEMO ONDE Experiment and Way Ahead.
title_fullStr Short Term and Long Term Bioacoustic Monitoring of the Marine Environment. Results from NEMO ONDE Experiment and Way Ahead.
title_full_unstemmed Short Term and Long Term Bioacoustic Monitoring of the Marine Environment. Results from NEMO ONDE Experiment and Way Ahead.
title_sort short term and long term bioacoustic monitoring of the marine environment. results from nemo onde experiment and way ahead.
publisher Federal Agency for Nature Conservation, Bonn, Germany
publishDate 2008
url http://hdl.handle.net/11571/147275
genre Sperm whale
genre_facet Sperm whale
op_relation ispartofbook:Computational bioacoustics for assessing biodiversity. Proceedings of the International Expert meeting on IT-based detection of bioacoustical patterns.
International Expert meeting on IT-based detection of bioacoustical patterns.
firstpage:7
lastpage:14
numberofpages:8
http://hdl.handle.net/11571/147275
_version_ 1790608583206895616

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