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Nils Olav Handegard
Norwegian Institute of Marine Research
EcologyHerringFisherySonarBiology
79Publications
20H-index
1,140Citations
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Publications 84
Newest
#1Olav Brautaset (Norwegian Computing Center)H-Index: 1
#2Anders U. Waldeland (Norwegian Computing Center)H-Index: 3
Last. Nils Olav HandegardH-Index: 20
view all 7 authors...
1 CitationsSource
#2Anders ThorsenH-Index: 18
Last. Nils Olav HandegardH-Index: 20
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#1Maria TenningenH-Index: 5
#2Armin Pobitzer (SINTEF)H-Index: 7
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#1David M. Fields (Bigelow Laboratory For Ocean Sciences)H-Index: 10
#2Nils Olav HandegardH-Index: 20
Last. Howard I. BrowmanH-Index: 32
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1 CitationsSource
#1Roland Proud (St And: University of St Andrews)H-Index: 4
#2Rudy J. Kloser (Hobart Corporation)H-Index: 24
Last. Andrew S. Brierley (St And: University of St Andrews)H-Index: 38
view all 5 authors...
Mesopelagic (200–1000 m depth zone) biomass largely comprises zooplankton, jellyfish, squid and fish. Part of this biomass actively migrates between the surface and the mesopelagic zone on a daily basis, playing an important role in global biogeochemical cycling. When observed using echosounders, aggregated components of this community (largely made up of fish and siphonophores) are known as Deep Scattering Layers (DSLs). DSLs have been used to partition the Global Ocean into biogeographically d...
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#2Chenyang Zhu (NU: Northeastern University)H-Index: 1
Last. Purnima Ratilal (NU: Northeastern University)H-Index: 16
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Airgun source systems generate low frequency underwater sound used in reflection and refraction seismology for mapping ocean bottom stratigraphy with important applications in ocean geosciences, such as understanding plate tectonics, ascertaining ocean geological history and climate change, and offshore hydrocarbon prospecting. Seismo-acoustic airgun signals from geophysical surveying activity were recorded at very long ranges, spanning roughly 175-195 km, on a large-aperture densely-populated l...
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#1Derrick Snowden (NOAA: National Oceanic and Atmospheric Administration)H-Index: 7
#2Vardis Tsontos (JPL: Jet Propulsion Laboratory)H-Index: 1
Last. Sean C. Arms (UCAR: University Corporation for Atmospheric Research)H-Index: 1
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The data management landscape associated with the Global Ocean Observing System is distributed, complex, and only loosely coordinated. Yet interoperability across this distributed landscape is essential to enable data to be reused, preserved, and integrated and to minimize costs in the process. A building block for a distributed system in which component systems can exchange and understand information is standardization of data formats, distribution protocols, and metadata. By reviewing several ...
1 CitationsSource
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#1Roland Proud (St And: University of St Andrews)H-Index: 4
#2Nils Olav HandegardH-Index: 20
Last. Andrew S. Brierley (St And: University of St Andrews)H-Index: 38
view all 5 authors...
13 CitationsSource
#1Ketil Malde (University of Bergen)H-Index: 13
#2Nils Olav HandegardH-Index: 20
Last. Arnt-Borre Salberg (Norwegian Computing Center)H-Index: 7
view all 4 authors...
3 CitationsSource
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