Annual distribution and relative abundance maps of cetacean occurrence in north-west European waters

 

The following annual cetacean distribution and relative abundance maps were taken from Reid, J.B., Evans, P.G.H., & Northridge, S.P., (2003), Atlas of Cetacean distribution in north-west European waters. Joint Nature Conservation Committee, Peterborough.
 
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  • Humpback whale                            Megaptera novaeangliae       (PDF,  480 kb)
  • Minke whale                                     Balaenoptera acutorostrata   (PDF,  544 kb)
  • Sei whale                                          Balaenoptera borealis           (PDF,  470 kb)
  • Fin whale                                          Balaenoptera physalus          (PDF,  480 kb)
  • Blue whale,                                       Balaenoptera musculu          (PDF,  454 kb)
  • Pygmy sperm whale and               Kogia brevicep 
  • Northern right whale                       Eubalaena glacialis                   
  • Cuvier's beaked whale,                  Ziphius cavirostris                   (PDF, 448 kb)
  • False killer whale and                    Pseudorca crassidens
  • Sowerby's beaked whale               Mesoplodon bidens  
  • Sperm whale                                    Physeter macrocephalus      (PDF,  488 kb)
  • Northern bottlenose whale            Hyperoodon ampullatus       (PDF,  490 kb)
  • Beaked whales                                Mesoplodonspp.                     (PDF,  489 kb)
  • Common bottlenose dolphin        Tursiops truncates                  (PDF,  527 kb)
  • Striped dolphin                                Stenella coeruleoalba            (PDF,  481 kb)
  • Short-beaked common dolphin   Delphinus delphis                   (PDF,  560 kb)
  • White-beaked dolphin                    Lagenorhynchus albirostris  (PDF,  562 kb)
  • Atlantic white-sided dolphin          Lagenorhynchus acutus        (PDF,  547 kb)
  • Risso's dolphin                               Grampus griseus                     (PDF,  489 kb)
  • Killer whale                                      Orcinus orca                              (PDF,  490 kb)
  • Long-finned pilot whale                 Globicephala melas               (PDF,  521 kb)
  • Harbour porpoise                           Phocoena phocoena               (PDF,  635 kb)

 

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Map Interpretation
 
The maps of cetacean occurrence in the study area presented here are of three types:
 
  • those that depict the distribution, relative abundance and associated effort for those species for which sufficient data allowed estimation of correction factors (individuals/standardised hour). Maps of this type are presented for the following species: humpback whale, minke whale, sei whale, fin whale, short-beaked common dolphin, white-beaked dolphin, Atlantic white-sided dolphin, Risso's dolphin, long-finned pilot whale and harbour porpoise;
 
  • those that depict similar information for those species for which sufficient data did not exist to allow estimation of correction factors (individuals/hour). Maps of this type are depicted for sperm whale, northern bottlenose whale, selected beaked whales Mesoplodon spp., common bottlenose dolphin, striped dolphin and killer whale; and
 
  • sightings locations of rarely recorded species; two maps of this type are presented showing locations of northern right whale, blue whale and pygmy sperm whale, and of Cuvier's beaked whale, Sowerby's beaked whale and false killer whale. 
 
No maps are presented for species very rarely recorded or identified in north-west European waters, namely beluga, narwhal, Fraser's dolphin and melon-headed whale. The data used for each map span all years of data collection, from 1979 to 1997, so possible inter-annual shifts or differences in distribution are not reflected in the maps; rather, the maps represent an integrated picture or 'snapshot' over this 20-year period. Neither can these annual maps indicate any seasonal differences in distribution; maps depicting monthly distributions will be presented elsewhere.
 
On all maps except those for rare species, each individual grid cell, i.e. ¼ ICES rectangle, is shaded to indicate the level of search effort achieved in that cell. The darker the shading, the more survey coverage achieved, while empty cells or blocks of cells indicate no survey coverage. The red dots that overlie this grid of rectangular cells indicate by their size the relative sightings rates for each species. Note that the minimum and maximum sightings rates on each map vary, as there are order of magnitude differences in the sightings rates between species. The maps cannot therefore be used to compare inter-specific differences in relative density. The red dots are intended solely to indicate relative density for a particular species, thereby enabling comparisons to be made only between areas for individual species.
 
The fact that sightings rates for some of the species presented here have been derived from search effort data that have been standardised for sea state differences also means that the grey effort shading differs among the species maps. Thus, for each species where sea state corrections have been applied to actual search effort, the corrected search effort is species-specific. Hence, search effort for the same cell in different species maps may differ (and frequently does).
 
It is worth noting that there are many potential biases associated with these data as presented. We have assumed that none of these biases is systematic, but in fact this is unlikely to be the case and only a detailed statistical analysis of the data will establish the nature and extent of any biases. The patchy nature of the observational coverage, however, should always be borne in mind when interpreting these maps. A chance sighting of a large school of animals during a relatively short observation period may lead to an apparently high relative density in a local area. However, the grey background shading indicating effort levels should enable the reader to filter the more extreme examples of such cases. Nevertheless, it would be inappropriate to infer too much about local densities of animals at the individual cell level. In our interpretation of these maps we have tried to avoid any such over-interpretation, and rely instead on general statements about relative animal densities at a regional level.