Biomass values correspond to the wet weight. The taxonomic identification of Sipuncula was carried out by E. A. Garbul. The mean biomasses and abundances of species Selleck RG7422 were estimated, disregarding the stations where those species were absent. The mean values are listed with the standard error. Frequency of occurrence was calculated as the ratio of the number of stations where a species was present to the number of all the stations, expressed as a percentage. The bottom salinity at the sampling time corresponded
to the normal ocean salinity. The bottom temperature during sampling was from − 1 to + 6 °C. The distribution of principal sediment types in the research area is shown in Figure 2. The Golden Software MapViewer (version 7.1) program was used for constructing the maps. The samples obtained from a sandy bottom during the cruise on r/v ‘Dalnye Zelentsy’ in the south-eastern Barents Sea in 1992 were used for defining van Veen grab (catch area 0.1 m2) and Ocean-25 grab (catch area 0.25 m2) catches. 12 samples were selected (6 from each grab) at GDC-0199 price two
stations. The catch was determined by the size composition of the specimens caught by the different types of grabs. The average mass (the ratio of the biomass of each species to its quantity) was used as the size composition. A total of 9 Sipuncula species were recorded in the research area. In addition to the seven species already known, two new species (Nephasoma lilljeborgi (Danielssen & Koren 1880) and Golfingia vulgaris vulgaris (de Blainville 1827)) were found here for the first
time. Sipunculans are well represented in the study area of the Barents Sea as they were observed at all the stations. The main features of the quantitative distribution of sipunculans in the southern Barents Sea are shown in Figure 3. The species density in the study area varied from 1 to 6 sp./0.5 m2 and averaged 2.9 ± 1.5 sp./0.5 m2. ifenprodil High levels of species diversity were recorded in the Central Basin, Murmansk Bank and Nord-Djupet Trough areas (Figure 3a), where the sediments contained a large fraction of silt (Figure 2). The diversity of species in samples was the least in the eastern and south-eastern parts of the study area, where sediments are hard and sandy, and the salinity lower. Sipunculan abundance in the study area varied from 2 to 318 indiv. m− 2 and averaged 50.0 ± 7.5 indiv. m− 2. The abundance was lowest – to within a few indiv. m− 2 – in the Murmansk Bank, Gusinaya Bank and Gusinyi Trough areas (Figure 3b, Table 1) and was high (to within some hundreds indiv. m− 2) in the Murmansk Rise, Central Basin and Kanin Trough areas. Small Nephasoma species (N. abyssorum abyssorum and N. diaphanes diaphanes) were the most abundant in the samples. The biomass of sipunculans in the study area varied from 0.001 to 51 g m− 2 and averaged 2.7 ± 0.9 g m− 2.