Details

Title

Spatial distribution of macroalgae along the shores of Kongsfjorden (West Spitsbergen) using acoustic imaging

Journal title

Polish Polar Research

Yearbook

2017

Volume

vol. 38

Issue

No 2

Authors

Keywords

acoustic imaging ; Arctic ; habitat mapping ; Kongsfjorden ; macroalgae

Divisions of PAS

Nauki o Ziemi

Coverage

205-229

Publisher

Polish Academy of Sciences ; Committee on Polar Research

Date

2017.07.27

Type

Artykuły / Articles

Identifier

DOI: 10.1515/popore-2017-0009 ; ISSN 0138-0338 ; eISSN 2081-8262

Source

Polish Polar Research; 2017; vol. 38; No 2; 205-229

References

SZALAY (2002), VON The effect of slope and vessel speed on the performance of a single beam acoustic seabed classifi cation system, Fisheries Research, 181. ; ARRIGO (2011), Secular trends in Arctic Ocean net primary production of, Journal Geophysical Research, 116. ; NIBLACK (1986), An introduction to digital image processing Ltd New Jersey, International, 215. ; TATAREK (2012), The sublittoral macrofl ora of, Polar Research, 31, 18900. ; VORONKOV (2013), HOP of hard - bottom fauna relative to environmental gradients in Kongsfjorden, Diversity Polar Research, 11208. ; SRIVASTAVA (1989), ISAAKS An Introduction to University New York, Applied, 561. ; VAN WALREE (2005), Acoustic seafl oor discrimination with echo shape parameters : a comparison with the ground truth, Continental Shelf Research, 25, 2273. ; GATTUSO (2006), Light availability in the coastal ocean : Impact on the distribution of benthic photosynthetic organisms and their contribution to primary production, Biogeosciences, 489. ; WIENCKE (2012), HOP Species composition zonation and biomass of marine benthic macroalgae in Kongsfjorden, Botanica Marina, 399. ; LURTON (2002), An introduction to underwater acoustics Principles applications PRAXIS, null, 680. ; HARALICK (1987), analysis using mathematical morphology transactions on pattern analysis and machine intelligence, Image IEEE, 532. ; MCGONIGLE (2011), Detection of deep water benthic macroalgae using image - based classifi cation techniques on multibeam backscatter at Cashes Ledge Gulf of and, USA Coastal Shelf Science, 91, 87. ; KRUSS (2012), PH Acoustic properties of macrophytes : Comparison of single - beam and multibeam imaging with modeling results th European Conference on Underwater Acoustics Institute of Acoustics St Albans, null, 11, 168. ; CRESSIE (1993), for Spatial Data in and Iowa State University New York, Statistics Wiley Series Probability Mathematical Statistics USA, 928. ; TĘGOWSKI (2002), Seabed characterisation using spectral moments of the echo signal, Acta Acustica Acustica, 623. ; BEUCHEL (2008), Temporal patterns of benthic community development in an Arctic fjord results of a year manipulation study, Polar Biology, 24, 913. ; DUNTON (1982), An Kelp Community in the Alaskan Beaufort Sea, Arctic Arctic, 465. ; KRAUSE (2007), primary production in Young Sound Northeast, Bioscience, 160. ; FREDRIKSEN (2014), New additions to the benthic marine fl ora of western and comparison between, Botanica Marina, 1996. ; WĘSŁAWSKI (2011), Climate change effects on Arctic fjord and coastal macrobenthic diversity - observations and predictions, Biodiversity, 41. ; BROWN (2011), habitat mapping of progress towards improved understanding of the spatial ecology of the seafl oor using acoustic techniques and, review Coastal Shelf Science, 502. ; ATALLAH (2002), Wavelet analysis of bathymetric sidescan sonar data for the classifi cation of seafl oor sediments in Hopvågen Bay - Norway, Marine Geophysical Researches, 23, 431. ; MICHAELS (2007), of acoustic seabed classifi cation systems In eds Acoustic seabed classifi cation of marine physical and biological landscapes ICES Cooperative Research Report ICES, Review, 286. ; KRUSS (2008), Estimation of macrophytes using single - beam and multibeam echosounding for environmental monitoring of Arctic fjords West Svalbard Island of Acoustics Society of America, Journal, 123. ; LEHMANN (1997), GIS and remote sensing in Introduction, Aquatic Botany Aquatic Botany, 195. ; GERLAND (2007), Sea - ice mass - balance monitoring in an Arctic fjord of, Annals Glaciology, 435. ; WŁODARSKA (2009), Assessing species richness of macrofauna associated with macroalgae in Arctic kelp forests, Polar Biology, 897. ; KRUSS (2006), Acoustic estimation of macrophytes in the Hornsund fjord the Archipelago, null, 89. ; BEZDEK (1975), Optimal fuzzy partitions heuristic for estimating the parameters in a mixture of normal distributions on, IEEE Transactions Computers, 24, 835. ; GOMEZ (2009), Light and temperature demands of marine benthic microalgae and seaweeds in polar regions, Botanica Marina, 593. ; KORTSCH (2012), Climate - driven regime shifts in Arctic marine benthos of the National of of the United States of, Proceedings Academy Sciences America, 109. ; BLONDEL (1997), PH Handbook of Seafl oor Sonar Imagery PRAXIS, null, 336. ; BROWN (2009), PH Developments in the application of multibeam sonar backscatter data for seafl oor habitat mapping, Applied Acoustics, 1242. ; DE MOUSTIER (1991), Angular dependence of kHz seafl oor acoustic backscatter The the of, Journal of Acoustical Society America, 12, 522. ; JACKSON (2007), High Frequency oor Acoustics New York, null, 616. ; RIEGL (2005), Distribution and seasonal biomass of drift macroalgae in the Indian River Lagoon estimated with acoustic seafl oor classifi cation and, USA Echo Journal of Experimental Marine Biology Ecology, 326. ; ANDERSON (2008), Acoustic seabed classification current practice and future directions, ICES Journal of Marine Science, 1004. ; PEARSON (2002), HOP and The Ecosystem of, Polar Research, 21, 167. ; TĘGOWSKI (2003), Statistical analysis of acoustic echoes from underwater meadows in the eutrophic Puck Bay southern Sea Living, Aquatic Resources, 16, 215. ; WIKTOR (1995), of the marine fl ora of southern Spitsbergen of Polish of, Institute Oceanology Academy Sciences, 515. ; WOLD (1987), Principal Component and, Analysis Chemometrics Intelligent Laboratory Systems, 37. ; SHENDEROV (1998), Some physical models for estimating scattering of underwater sound by algae of Acoustic Society of America, Journal, 791. ; CARBO (1997), Scattering strength of a Gelidium biomass bottom, Applied Acoustics, 343. ; WIENCKE (2004), HOP Species composition and zonation of marine benthic macroalgae at Hansneset in Berichte zur Polar und, Meeresforschung, 492. ; COTTIER (2005), Water mass modifi cation in an Arctic fjord through cross - shelf exchange : The seasonal hydrography of Kongsfjorden of, Journal Geophysical Research, 12, 110. ; SABOL (2002), Evaluation of a digital echo sounder system for detection of seagrass, Estuaries, 25, 133. ; BALK (2004), LINDEM Sonar Sonar Pro Post processing system Operator manual Lindem Data Acquisition, null, 4, 485. ; HUGHES CLARKE (2006), Applications of multibeam water column imaging for hydrographic survey The, Journal, 120. ; KRAUSE (2012), Seasonal sea ice cover as principal driver of spatial and temporal variation in depth extension and annual production of kelp in, Global Change Biology, 18, 2981. ; WOELFEL (2010), Microphytobenthos of biomass and potential primary production along the shore line, Arctic Polar Biology, 1239. ; ROLEDA (2008), Transient sediment load on blades of Arctic Saccharina latissima can mitigate UV radiation effect on photosynthesis, Polar Biology, 31, 765. ; WIENCKE (2011), ed Biology of polar benthic algae and Freshwater de Gruyter GmbH Co KG New York, Botany, 342. ; FALKOWSKI (2007), Aquatic Photosynthesis Second Princeton University Princeton, Edition, 488. ; SVENDSEN (2002), The physical environment of an fjord system in, Arctic Polar Research, 21, 133.

Editorial Board


Editorial Advisory Board


Angelika BRANDT (Hamburg),

Claude DE BROYER (Bruxelles),

Peter CONVEY (Cambridge, UK),

J. Alistair CRAME (Cambridge, UK),

Rodney M. FELDMANN (Kent, OH),

Jane E. FRANCIS (Cambridge, UK),

Andrzej GAŹDZICKI (Warszawa)

Aleksander GUTERCH (Warszawa),

Jacek JANIA (Sosnowiec),

Jiří KOMÁREK (Třeboň),

Wiesława KRAWCZYK (Sosnowiec),

German L. LEITCHENKOV (Sankt Petersburg),

Jerónimo LÓPEZ-MARTINEZ (Madrid),

Sergio A. MARENSSI (Buenos Aires),

Jerzy NAWROCKI (Warszawa),

Ryszard OCHYRA (Kraków),

Maria OLECH (Kraków)

Sandra PASSCHIER (Montclair, NJ),

Jan PAWŁOWSKI (Genève),

Gerhard SCHMIEDL (Hamburg),

Jacek SICIŃSKI (Łódź),

Michael STODDART (Hobart),

Witold SZCZUCIŃSKI (Poznań),

Andrzej TATUR (Warszawa),

Wim VADER (Tromsø),

Tony R. WALKER (Halifax, Nova Scotia),

Jan Marcin WĘSŁAWSKI (Sopot) - President.

Abstracting & Indexing

Abstracting & Indexing


Polish Polar Research is covered by the following services:

  • AGRICOLA (National Agricultural Library)
  • AGRO
  • Arianta
  • Baidu Scholar
  • Cabell's Directory
  • CABI (over 50 subsections)
  • Celdes
  • CNKI Scholar (China National Knowledge Infrastructure)
  • CNPIEC
  • Cold Regions Bibliography
  • Current Antarctic Literature
  • DOAJ (Directory of Open Access Journals)
  • EBSCO (relevant databases)
  • EBSCO Discovery Service
  • Elsevier - Geobase
  • Elsevier - Reaxys
  • Elsevier - SCOPUS
  • Genamics JournalSeek
  • Google Scholar
  • J-Gate
  • JournalTOCs
  • Naviga (Softweco)
  • Polish Scientific Journals Contents
  • Primo Central (ExLibris)
  • ProQuest (relevant databases)
  • ReadCube
  • ResearchGate
  • SCImago (SJR)
  • Summon (Serials Solutions/ProQuest)
  • TDOne (TDNet)
  • Thomson Reuters - Biological Abstracts
  • Thomson Reuters - BIOSIS Previews
  • Thomson Reuters - Journal Citation Reports/Science Edition
  • Thomson Reuters - Science Citation Index Expanded
  • Thomson Reuters - Zoological Record
  • Ulrich's Periodicals Directory/ulrichsweb
  • WorldCat (OCLC)
×