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dc.contributor.author Klages, Michael
dc.contributor.author Deubel, Hendrik
dc.contributor.author Rachor, Eike
dc.coverage.spatial MEDIAN LATITUDE: 73.782283 * MEDIAN LONGITUDE: 78.180783 * SOUTH-BOUND LATITUDE: 72.093160 * WEST-BOUND LONGITUDE: 72.662000 * NORTH-BOUND LATITUDE: 76.961783 * EAST-BOUND LONGITUDE: 83.876833 * DATE/TIME START: 1997-09-13T09:08:00 * DATE/TIME END: 2000-09-19T03:35:00 * MINIMUM DEPTH, sediment/rock: 0 m * MAXIMUM DEPTH, sediment/rock: 0 m
dc.date.accessioned 2019-11-13T05:45:55Z
dc.date.available 2019-11-13T05:45:55Z
dc.date.issued 2003-12-21
dc.identifier https://doi.pangaea.de/10.1594/PANGAEA.804553
dc.identifier https://doi.org/10.1594/PANGAEA.804553
dc.identifier.citation Klages, Michael; Deubel, Hendrik; Rachor, Eike (2003): Organic carbon consumption of the Kara Sea macrozoobenthos: A first assessment. In: Stein, R; Fahl, K; Fütterer, D K; Galimov, E M & Stepanets, O V (eds.), Siberian River Run-off in the Kara Sea: Characterisation, Quantification, Variability, and Environmental Significance, 488 pp. Proceedings in Marine Sciences, Elsevier, Amsterdam, 6, 267-280
dc.identifier.uri https://repository.geologyscience.ru/handle/123456789/6575
dc.description.abstract Among the Siberian shelf seas the Kara Sea is most strongly influenced by riverine runoff with nearly 1500 km fresh water discharge per year. This fresh water, discharged mainly by Ob and Yenisei, contains about 3.1 * 106 and 4.6 * 106 tons of total organic carbon per year, respectively (Gordeev et al. 1996). Little is known about the relevance of this organic material for biological communities, neither for the Kara Sea nor for the adjacent deep basins of the central Arctic Ocean. Aiming at elucidating the fate of fluvial matter transported from the rivers via estuaries into the central Arctic Ocean and the relative importance of marine organic matter being produced such information is crucial. Here we present calculations on the organic carbon demand of the Kara Sea macrozoobenthos based on measured biomass (total wet weight [ww] per 0.25 m ) from quantitative box corer samples and empirical relationships between biomass, annual production, annual respiration, and carbon remineralisation. This bottom-up approach may serve as a first estimate of the carbon remineralization potential of a given zoobenthos community (or area) as long as no data on in situ respiration rates are available. Our data basis comprises 54 stations sampled in summer seasons 1997, 1999 and 2000 in the Kara Sea at water depths between 10 and 68 m. The geographical area represented by stations analysed covers roughly 178 000 km**2, which is about one fifth of the total Kara Sea area. In this area, 290 species of invertebrate macrozoobenthos were identified with polychaeta, Crustacea, mollusca and echinodermata being the most abundant. For all stations analysed, mean biomass values ranged between 4.3 and 778.1 g ww/m**2 with organic carbon demands between 3.5 and 43.2 mg C/m**2/d. For the area of 178 000 km2 a preliminary total consumption of 1.4 * 10**6t Corg/y (equivalent to 21.5 mg C/m**2/d) was calculated for the macrozoobenthos. An extrapolation of our data would lead to an annual carbon demand of about 5-7 * 106 t for the whole Kara Sea macrozoobenthos (or 15.5-21.7 mg C/m2/d).
dc.format text/tab-separated-values, 323 data points
dc.language.iso en
dc.publisher PANGAEA
dc.rights CC-BY-3.0: Creative Commons Attribution 3.0 Unported
dc.rights Access constraints: unrestricted
dc.source Supplement to: Klages, Michael; Deubel, Hendrik; Rachor, Eike (2003): Organic carbon consumption of the Kara Sea macrozoobenthos: A first assessment. In: Stein, R; Fahl, K; Fütterer, D K; Galimov, E M & Stepanets, O V (eds.), Siberian River Run-off in the Kara Sea: Characterisation, Quantification, Variability, and Environmental Significance, 488 pp. Proceedings in Marine Sciences, Elsevier, Amsterdam, 6, 267-280
dc.subject Akademik Boris Petrov
dc.subject Biomass, ash free dry mass per area
dc.subject BP00
dc.subject BP00-04
dc.subject BP00-05
dc.subject BP00-06
dc.subject BP00-07
dc.subject BP00-09
dc.subject BP00-13
dc.subject BP00-22
dc.subject BP00-23
dc.subject BP00-26
dc.subject BP00-28
dc.subject BP00-30
dc.subject BP00-31
dc.subject BP00-35
dc.subject BP00-36
dc.subject BP97
dc.subject BP97-01
dc.subject BP97-10
dc.subject BP97-12
dc.subject BP97-17
dc.subject BP97-18
dc.subject BP97-21
dc.subject BP97-24
dc.subject BP97-27
dc.subject BP97-30
dc.subject BP97-32
dc.subject BP97-38
dc.subject BP97-42
dc.subject BP97-43
dc.subject BP97-46
dc.subject BP97-47
dc.subject BP97-48
dc.subject BP97-49
dc.subject BP97-50
dc.subject BP97-52
dc.subject BP97-55
dc.subject BP97-56
dc.subject BP97-58
dc.subject BP99
dc.subject BP99-02
dc.subject BP99-03
dc.subject BP99-08
dc.subject BP99-12
dc.subject BP99-13
dc.subject BP99-17
dc.subject BP99-18
dc.subject BP99-19
dc.subject BP99-20
dc.subject BP99-25
dc.subject BP99-28
dc.subject BP99-29
dc.subject BP99-30
dc.subject BP99-31
dc.subject BP99-32
dc.subject BP99-35
dc.subject BP99-38
dc.subject BP99-39
dc.subject BUCKET
dc.subject Bucket water sampling
dc.subject DEPTH, sediment/rock
dc.subject DIVERSE
dc.subject Kara Sea
dc.subject KaraSea97
dc.subject Macrofauna, biomass, wet mass
dc.subject MULT
dc.subject Organic carbon consumption rate, sediment
dc.subject Salinity
dc.subject Sample ID
dc.subject Sampling gear, diverse
dc.subject Siberian River Run-Off
dc.subject SIRRO
dc.subject Temperature, water
dc.title Organic carbon consumption of the Kara Sea macrozoobenthos: A first assessment.
dc.title.alternative Table 1: Station list with macrobenthos biomass results from the ocean floor
dc.type Dataset


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