@misc{soltwedel1998aabo, author={Thomas {Soltwedel} and Ingo {Schewe}}, title={{Activity and biomass of small benthic biota in the central Arctic Ocean}}, year={1998}, doi={10.1594/PANGAEA.738504}, url={https://doi.org/10.1594/PANGAEA.738504}, note={Supplement to: Soltwedel, T; Schewe, I (1998): Activity and biomass of the small benthic biota in the Central Arctic Ocean. Polar Biology, 19(1), 52-62, https://doi.org/10.1007/s003000050215}, abstract={Sediment samples collected during the expedition {\textquotedblleft}Arctic Ocean {\textquotesingle}96{\textquotedblright} with the Swedish ice-breaker ODEN were investigated to estimate for the first time heterotrophic activity and total microbial biomass (size range from bacteria to small metazoans) from the perennially ice-covered central Arctic Ocean. Benthic activities and biomass were evaluated analysing a series of biogenic sediment compounds (i.e. bacterial exoenzymes, total adenylates, DNA, phospholipids, particulate proteins). In contrast to the very time-consuming sorting, enumeration and weight determination, analyses of biochemical sediment parameters may represent a useful method for obtaining rapid information on the ecological situation in a given benthic system. Bacterial cell numbers and biomass were estimated for comparison with biochemically determined biomass data, to evaluate the contribution of the bacterial biomass to the total microbial biomass. It appeared that bacterial biomass made up only 8{\textendash}31{\%} (average of all stations = 20{\%}) of the total microbial biomass, suggesting a large fraction of other small infaunal organisms within the sediment samples (most probably fungi, yeasts, protozoans such as flagellates, ciliates or amoebae, as well as a fraction of small metazoans). Activity and biomass values determined within this study were generally extremely low, and often even slightly lower than those given for other deep oceanic regions, thus characterizing the seafloor of the central Arctic Ocean as a {\textquotedblleft}benthic desert{\textquotedblright}. Nevertheless, some clear trends in the data could be found, e.g. generally sharply decreasing values within the sediment column, a vague tendency for declining values with increasing water depth of sampling stations, and also differences between various Arctic deep-sea regions.}, type={data set}, publisher={PANGAEA} }