Diatom assamblage in samples from sediment traps across the Pacific Sector of the Southern Ocean

Autoria(s): Grigorov, Ivo; Rigual-Hernandez, Andrés S; Honjo, Susumu; Kemp, Alan E S; Armand, Leanne K
Cobertura

MEDIAN LATITUDE: -66.091667 * MEDIAN LONGITUDE: -173.486128 * SOUTH-BOUND LATITUDE: -76.500000 * WEST-BOUND LONGITUDE: 176.883300 * NORTH-BOUND LATITUDE: -56.900000 * EAST-BOUND LONGITUDE: -169.666700 * DATE/TIME START: 1996-11-28T00:00:00 * DATE/TIME END: 1998-01-10T00:00:00
Data(s)

20/08/2014
Resumo

An array of four sediment trap moorings recorded the particulate flux across the Antarctic Circumpolar Current (ACC) at 170 °W, between November 1996 and January 1998, as part of the US JGOFS-Antarctic Environment and Southern Ocean Process Study (AESOPS) program. The trap locations represent sampling within the Polar Frontal Zone, the Antarctic Polar Front, the Antarctic Zone and the Southern Antarctic Zone. Here we report observations from 1000 m below the sea-surface compared to seafloor and surface water distributions. Sub-sample splits from each trap were obtained and total diatom flux and species composition were determined. The diatom fluxes were quantified using both a dilution and a 'spike' method to allow for the rapid repeatability of measurements. Diatom flux was found to be highly seasonal across the ACC particularly at higher latitudes. Marine snow aggregates of intact diatom cells and chains were the major components of the biogenic flux. Siliceous particle size was noted to decrease with increasing latitude, which could be aligned with a shift of the diatom assemblage to small-size species/sea-ice affiliated species. A 'double-structured' diatom flux was recorded at the location of the Antarctic Polar Front trap, with a shift in the diatom assemblage from larger to smaller diatoms in the second flux episode. The sediment trap assemblage shows deviations from the surface water assemblage, while surface sediment samples indicate that significant dissolution occurs after 1000 m and at the sediment-water interface. Estimation of diatom biovolumes across the ACC shows that large diatoms have the potential to greatly impact biogenic fluxes to the ocean interior despite their low fluxes. Small species of the genus Fragilariopsis could potentially export as much Corg as Fragilariopsis kerguelensis near the retreating ice edge. However, their low abundance in the surface sediments also suggests that these diatoms are a shallow export species.
Formato

application/zip, 6 datasets
Identificador

https://doi.pangaea.de/10.1594/PANGAEA.835097

doi:10.1594/PANGAEA.835097
Idioma(s)

en
Publicador

PANGAEA
Direitos

CC-BY: Creative Commons Attribution 3.0 Unported

Access constraints: unrestricted
Fonte

Supplement to: Grigorov, Ivo; Rigual-Hernandez, Andrés S; Honjo, Susumu; Kemp, Alan E S; Armand, Leanne K (2014): Settling fluxes of diatoms to the interior of the Antarctic circumpolar current along 170°W. Deep Sea Research Part I: Oceanographic Research Papers, 93, 1-13, doi:10.1016/j.dsr.2014.07.008
Palavras-Chave #A; A. actinochilus; A. curvatulus; A. ehrenbergii; A. hookeri; A. hyalinus; A. ingens; A. octonarius; A. parvulus; A. tabularis; Actinocyclus actinochilus; Actinocyclus curvatulus; Actinocyclus ehrenbergii; Actinocyclus ingens; Actinocyclus octonarius; Asteriomphalus hookeri; Asteriomphalus hyalinus; Asteriomphalus parvulus; Asteriomphalus spp.; Azpeitia tabularis; B; C; C. atlanticus; C. bulbosum; C. criophilum; C. diadema; C. dichaeta; C. radicans; Calculated, see reference(s); Chaetoceros, vegetative cells; Chaetoceros atlanticus; Chaetoceros bulbosum; Chaetoceros criophilum; Chaetoceros diadema; Chaetoceros dichaeta; Chaetoceros radicans; Chaetoceros spores; Chaetoceros spp.; Chaetoceros veg; Chaet spores; Corethron criophilum; Counting, diatoms; Counting, silicoflagellates; D; D. antarcticus girdles; D. speculum speculum; D. suriela; Dactyliozolen antarcticus, girdles; Date/Time; DATE/TIME; Date/time end; Delphineis suriela; DEPTH, water; Depth water; Diatoms; Diatom valves flux; Diatom valv flux; Dictyocha spp.; Distephanus speculum speculum; Duration; Duration, number of days; E. antarctica; Eucampia antarctica; F. curta; F. cylindrus; F. kerguelensis; F. obliquecostata; F. pseudonana; F. rhombica; F. ritscheri; F. separanda; Fragilariopsis curta; Fragilariopsis cylindrus; Fragilariopsis kerguelensis; Fragilariopsis obliquecostata; Fragilariopsis pseudonana; Fragilariopsis rhombica; Fragilariopsis ritscheri; Fragilariopsis separanda; girdles not included in flux calculations; Guinardia spp.; H. cuneiformis; H. karstenii; Hemidiscus cuneiformis; Hemidiscus karstenii; N. interruptestriata; Navicula spp.; Nitzschia interruptestriata; P. alata; P. directum; P. gaussii; P. inermis; Plagiotropis gaussii; Pleurosigma directum; Pleurosigma spp.; P-n bicapitata; P-n cf. hemii; P-n lineola; Porosira alata; Porosira inermis; Pseudo-nitzschia bicapitata; Pseudo-nitzschia cf. hemii; Pseudo-nitzschia lineola; R. antennata antennata; R. antennata f semispina; R. sima f sima; R. simplex; R. styliformis; R. tesselata; Rhizosolenia antennata antennata; Rhizosolenia antennata forma semispina; Rhizosolenia sima forma sima; Rhizosolenia simplex; Rhizosolenia styliformis; Roperia tesselata; Rouxia spp.; Stellarima spp.; T. antarctica; T. decipiens; T. gracilis; T. gravida; T. lentiginosa; T. leptopus; T. lineata; T. nitzschioides f 1; T. nitzschioides var. lanceolata; T. oestrupii; T. oliverana; T. reinboldii; Thalassionema nitzschioides forma 1; Thalassionema nitzschioides var. lanceolata; Thalassiosira antarctica; Thalassiosira decipiens; Thalassiosira gracilis; Thalassiosira gravida; Thalassiosira lentiginosa; Thalassiosira leptopus; Thalassiosira lineata; Thalassiosira oestrupii; Thalassiosira oliverana; Thalassiosira spp.; Thalassiothrix antarctica; total counted; Trichotoxon reinboldii
Tipo

Dataset
Acesso ao item digital