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  • 1
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    Biomass and bioturbation in surface sediments of the Arctic Ocean (1997)
    PANGAEA
    In:  Supplement to: Clough, Lisa; Ambrose, William G Jr; Cochran, James R; Barnes, C; Renaud, Paul E; Aller, Robert C (1997): Infaunal density, biomass and bioturbation in the sediments of the Arctic Ocean. Deep Sea Research Part II: Topical Studies in Oceanography, 44(8), 1683-1704, https://doi.org/10.1016/S0967-0645(97)00052-0
    Details
    Publication Date: 2023-09-19
    Description: Little is known about the benthic communities of the Arctic Ocean's slope and abyssal plains. Here we report on benthic data collected from box cores along a transect from Alaska to the Barents Abyssal Plain during the Arctic Ocean Section of 1994. We determined: (1) density and biomass of the polychaetes, foraminifera and total infauna; (2) concentrations of potential sources of food (pigment concentration and percent organic carbon) in the sediments; (3) surficial particle mixing depths and rates using downcore 210Pb profiles; and (4) surficial porewater irrigation using NaBr as an inert tracer. Metazoan density and biomass vary by almost three orders of magnitude from the shelf to the deep basins (e.g. 47 403 individuals m**-2 on the Chukchi Shelf to 95 individuals m**-2 in the Barents Abyssal Plain). Water depth is the primary determinant of infaunal density, explaining 39% of the total variability. Potential food concentration varies by almost two orders of magnitude during the late summer season (e.g. the phaeopigment concentration integrated to 10 cm varies from 36.16 mg m**-2 on the Chukchi Shelf to 0.94 mg m**-2 in the Siberia Abyssal Plain) but is not significantly correlated with density or biomass of the metazoa. Most stations show evidence of particle mixing, with mixing limited to 〈=3 cm below the sediment-water interface, and enhanced pore water irrigation occurs at seven of the nine stations examined. Particle mixing depths may be related to metazoan biomass, while enhanced pore water irrigation (beyond what is expected from diffusion alone) appears to be related to total phaeopigment concentration. The data presented here indicate that Arctic benthic ecosystems are quite variable, but all stations sampled contained infauna and most stations had indications of active processing of the sediment by the associated infauna.
    Keywords: ADEPD; ADEPDCruises; AOS94_1; AOS94_12; AOS94_13; AOS94_16; AOS94_17; AOS94_19; AOS94_21; AOS94_23; AOS94_24; AOS94_25; AOS94_26; AOS94_28; AOS94_30; AOS94_31; AOS94_32; AOS94_33; AOS94_6; AOS94_7; AOS94_8; Arlis Plateau; Atlantic Data Base for Exchange Processes at the Deep Sea Floor; Barents abyssal plain; BC; Box corer; Chukchi Abyssal Plain; Chukchi shelf; Chukchi solpe; Lomonosov Ridge, Arctic Ocean; Mendeleev Ridge, Arctic Ocean; Mendeleev slope; North Pole; Siberia Abyssal Plain; Wrangel Abyssal Plain
    Type: Dataset
    Format: application/zip, 3 datasets
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  • 2
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    (Table 1) Sediment mixing depth by 210Pb analysis of surface sediment samples (1997)
    PANGAEA
    Details
    Publication Date: 2023-09-19
    Keywords: ADEPD; ADEPDCruises; AOS94_1; AOS94_13; AOS94_16; AOS94_17; AOS94_19; AOS94_21; AOS94_23; AOS94_24; AOS94_25; AOS94_26; AOS94_28; AOS94_30; AOS94_31; AOS94_32; AOS94_33; AOS94_6; AOS94_7; AOS94_8; Arlis Plateau; Atlantic Data Base for Exchange Processes at the Deep Sea Floor; Barents abyssal plain; BC; Box corer; Chukchi Abyssal Plain; Chukchi shelf; Chukchi solpe; DEPTH, sediment/rock; Elevation of event; Event label; Latitude of event; Lomonosov Ridge, Arctic Ocean; Longitude of event; Mendeleev Ridge, Arctic Ocean; Mendeleev slope; Mixing, enhanced irrigation; Mixing depth; Mixing rate; Mode, grain size; North Pole; Porosity; Siberia Abyssal Plain; Wrangel Abyssal Plain
    Type: Dataset
    Format: text/tab-separated-values, 83 data points
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  • 3
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    (Table 2) Population densities and biomass of surface sediments (1997)
    PANGAEA
    Details
    Publication Date: 2023-09-19
    Keywords: ADEPD; ADEPDCruises; AOS94_1; AOS94_12; AOS94_13; AOS94_16; AOS94_17; AOS94_19; AOS94_21; AOS94_23; AOS94_24; AOS94_25; AOS94_26; AOS94_28; AOS94_30; AOS94_31; AOS94_32; AOS94_33; AOS94_6; AOS94_7; AOS94_8; Arlis Plateau; Atlantic Data Base for Exchange Processes at the Deep Sea Floor; Barents abyssal plain; BC; Box corer; Chukchi Abyssal Plain; Chukchi shelf; Chukchi solpe; Counting 〉250 µm fraction; DEPTH, sediment/rock; Event label; Foraminifera, benthic; Foraminifera, benthic, biomass as carbon; Infauna; Infauna, biomass as carbon; Lomonosov Ridge, Arctic Ocean; Meiofauna, abundance of metazoa; Meiofauna, metazoa, biomass as carbon; Mendeleev Ridge, Arctic Ocean; Mendeleev slope; North Pole; Polychaeta; Polychaeta, biomass as carbon; Siberia Abyssal Plain; Wrangel Abyssal Plain
    Type: Dataset
    Format: text/tab-separated-values, 150 data points
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  • 4
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    (Table 1) Sea ice cover, bottom salinity and bottom temperature of stations sampled during a CCGS Amundsen cruise in 2008 (2011)
    PANGAEA
    Details
    Publication Date: 2023-10-16
    Keywords: Amundsen Gulf, Canada; CCGSA_4-10_CFL08; CCGS Amundsen; CFL08_1020A-1; CFL08_1020A-2; CFL08_1116; CFL08_405; CFL08_405B-1; CFL08_405B-2; CFL08_D34-1; CFL08_D34-2; CFL08_D35; CFL08_D37-1; CFL08_D37-2; CFL08_FB3; Circumpolar Flaw Lead Leg 4-10a; DATE/TIME; ELEVATION; Event label; Ice coverage; Latitude of event; Longitude of event; MULT; Multiple investigations; Salinity; Season; Station label; Temperature, water
    Type: Dataset
    Format: text/tab-separated-values, 69 data points
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  • 5
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    (Table 2) C remineralisation, pigments and macrobenthic biomass at stations sampled during a CCGS Amundsen cruise in 2008 (2011)
    PANGAEA
    Details
    Publication Date: 2023-11-23
    Keywords: Amundsen Gulf, Canada; Area/locality; Biomass as carbon, standard deviation; Calculated; CCGSA_4-10_CFL08; CCGS Amundsen; CFL08_1020A-1; CFL08_1020A-2; CFL08_1116; CFL08_405; CFL08_405B-1; CFL08_405B-2; CFL08_D34-1; CFL08_D34-2; CFL08_D35; CFL08_D37-1; CFL08_D37-2; CFL08_FB3; Chlorophyll a, standard deviation; Chlorophyll a per unit sediment mass; Circumpolar Flaw Lead Leg 4-10a; Counting 〉500 µm fraction; DATE/TIME; DEPTH, sediment/rock; Derived from sediment oxygen demand; Elevation of event; Event label; Fluorometry; Foraminifera, biomass as carbon; Infauna, biomass as carbon; Latitude of event; Longitude of event; MULT; Multiple investigations; Phaeopigments, standard deviation; Phaeopigments per unit sediment mass; Remineralisation rate, standard deviation; Remineralisation rate of carbon; Season
    Type: Dataset
    Format: text/tab-separated-values, 136 data points
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  • 6
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    Benthic polychaeta diversity on the Northeast Greenland (NEG) shelf collected between July - August 1992 and between May and August 1993 (2024)
    PANGAEA
    Details
    Publication Date: 2024-02-06
    Description: Benthic polychaetes were sampled on the NEG shelf between July - August 1992 with the United States Coast Guard Cutter (USCGC) Polar Sea, and between May and August 1992 with USCGC Polar Sea and R/V Polarstern (ARKVIII/2). Boxcorers (US NEL-Mark III, 0.25 m²) were deployed in 2-5 replicates per station and from each boxcore 3 replicate subcores (6 cm diameter x 15 cm deep), subsequently sieved over a 500 µm mesh sieve, fixed with 6 % buffered formaldehyde and stained with Rose Bengal. Individuals were identified to family level, or the lowest possible taxonomic level, and counted. Individuals were identified to the lowest possible taxonomic level and counted.
    Keywords: 119; 145; 177; 218; 238; 271; 273; Annelida; ARK-IX/3; Basis of event; Campaign of event; Counted; Date/Time of event; Event label; Family; Latitude of event; Longitude of event; Macrofauna; MULT; Multiple investigations; NEGIS; NEWP_P2; NEWP_P25; NEWP_P29; NEWP_P3; NEWP_P36; NEWP_P4; NEWP_P42; NEWP_P43; NEWP_P56; NEWP_P62; NEWP_P63; NEWP_P64; NEWP_P65; NEWP_P72; NEWP_P73; NEWP_P75; NEWP_X63; NEWP_X67; NEWP_X80; NEWP_X93; NEWP_X98; NEWP92; NEWP93; NEW Polynya; Northeast Water Polynya; Optional event label; P2; P25; P29; P3; P36; P4; P42; P43; P56; P62; P63; P64; P65; P72; P73; P75; Polar Sea; Polarstern; Polychaeta; PS26/119; PS26/145; PS26/177; PS26/218; PS26/238; PS26/271; PS26/273; PS26 NEW; sediment; Species; Species, unique identification; Species, unique identification (Semantic URI); Species, unique identification (URI); Station label; X63; X67; X80; X93; X98
    Type: Dataset
    Format: text/tab-separated-values, 8477 data points
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  • 7
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    Benthic fauna in soft sediments from the Barents and Pechora Seas (2017)
    PANGAEA
    In:  Supplement to: Andrade, Hector; Renaud, Paul E; Wlodarska-Kowalczuk, Maria; Pardus, Joanna; Carroll, Michael L; Cochrane, Sabine K J; Dahle, Salve; Palerud, Rune (2017): Benthic fauna in soft sediments from the Barents and Pechora Seas. Metadata and database from Akvaplan-niva AS research expeditions, from 1992-2005. Akvaplan-niva Rapport, APN-6770-001, 14 pp, hdl:10013/epic.51439.d001
    Details
    Publication Date: 2023-12-13
    Description: Benthic infaunal abundance data from 138 stations in the Barents Sea and surrounding waters are provided in a public database. All samples were collected with a 0.1 m2 van Veen grab and identification was carried out by professional taxonomists. Most abundance data are presented at the species level.
    Keywords: Abietinaria sp.; Abyssoninoe hibernica; Abyssoninoe sp.; Acanthonotozoma cristatum; Acanthonotozoma inflatum; Acanthonotozoma serratum; Acanthonotozoma sp.; Acanthostepheia behringiensis; Acanthostepheia malmgreni; Aceroides latipes; Aceroides sedovi; Acidostoma obesum; Actiniaria indeterminata; Actinia sp.; Actiniidae indeterminata; Admete couthouyi; Admete sp.; Admete viridula; Aeginina longicornis; Aeta sp.; Aglaophamus malmgreni; Alcyonacea indeterminata; Alcyonidium disciforme; Alcyonidium excavatum; Alcyonidium gelatinosum; Alcyonidium gelatinosum andessoni; Alcyonidium mamillatum; Alcyonidium mytili; Alcyonidium protoseideum; Alcyonidium radicellatum; Alcyonidium sp.; Allia sp.; Alvania jeffreysi; Alvania moerchi; Alvania scrobiculata; Alvania sp.; Alvania viridula; Alvania wyvillethomsoni; Amaeana trilobata; Amage auricula; Amauropsis islandica; Ampelisca eschrichtii; Ampelisca macrocephala; Ampelisca sp.; Ampeliscidae indeterminata; Ampharete acutifrons; Ampharete baltica; Ampharete borealis; Ampharete finmarchica; Ampharete goesi; Ampharete lindstroemi; Ampharete sp.; Ampharete vega; Ampharetidae indeterminata; Amphiblestrum auritum; Amphiblestrum septentrionalis; Amphiblestrum solidum; Amphicteis gunneri; Amphicteis ninonae; Amphicteis sundevalli; Amphictene auricoma; Amphilochidae indeterminata; Amphilochus manudens; Amphilochus sp.; Amphipholis torelli; Amphipoda indeterminata; Amphiporidae indeterminata; Amphitrite cirrata; Amphitrite groenlandica; Amphitritinae indeterminata; Amphiura sp.; Amphiura sundevalli; Ampithoe sp.; Anasca spp.; Anatoma crispata; Anobothrus gracilis; Anonyx laticoxae; Anonyx lilljeborgii; Anonyx nugax; Anonyx sarsi; Anonyx sp.; Anopla indeterminata; Antalis entalis; Antalis sp.; Anthozoa indeterminata; Antinoella badia; Antinoella sp.; Aoridae indeterminata; Aphelochaeta marioni; Aphelochaeta sp.; Apherusa sarsii; Aphroditidae indeterminata; Apistobranchus sp.; Apistobranchus tullbergi; Aplacophora spp.; Apomatus sp.; Apseudidae indeterminata; Arachnidium simplex; Arctic_sta1; Arctic_sta10; Arctic_sta11; Arctic_sta118; Arctic_sta119; Arctic_sta12; Arctic_sta122; Arctic_sta128; Arctic_sta13; Arctic_sta133; Arctic_sta135; Arctic_sta140; Arctic_sta141; Arctic_sta145; Arctic_sta148; Arctic_sta15; Arctic_sta151; Arctic_sta159; Arctic_sta16; Arctic_sta161; Arctic_sta162; Arctic_sta163; Arctic_sta17; Arctic_sta171; Arctic_sta174; Arctic_sta178; Arctic_sta18; Arctic_sta21; Arctic_sta22; Arctic_sta24; Arctic_sta26; Arctic_sta28; Arctic_sta29; Arctic_sta31; Arctic_sta32; Arctic_sta34; Arctic_sta4; Arctic_sta45; Arctic_sta47; Arctic_sta48; Arctic_sta5; Arctic_sta50; Arctic_sta5191; Arctic_sta5192; Arctic_sta5193; Arctic_sta52; Arctic_sta54; Arctic_sta5531; Arctic_sta5532; Arctic_sta5533; Arctic_sta5534; Arctic_sta5535; Arctic_sta5536; Arctic_sta5537; Arctic_sta5538; Arctic_sta56; Arctic_sta57; Arctic_sta58; Arctic_sta6; Arctic_sta617; Arctic_sta618; Arctic_sta619; Arctic_sta620; Arctic_sta621; Arctic_sta622; Arctic_sta623; Arctic_sta624; Arctic_sta625; Arctic_sta626; Arctic_sta627; Arctic_sta628; Arctic_sta629; Arctic_sta630; Arctic_sta65; Arctic_sta7; Arctic_sta8; Arctic_sta811; Arctic_sta812; Arctic_sta813; Arctic_sta814; Arctic_sta815; Arctic_sta816; Arctic_sta817; Arctic_sta818; Arctic_sta819; Arctic_sta820; Arctic_sta821; Arctic_sta822; Arctic_sta823; Arctic_sta824; Arctic_sta9; Arctic_staBS1; Arctic_staBS10; Arctic_staBS11; Arctic_staBS12; Arctic_staBS13; Arctic_staBS14; Arctic_staBS15; Arctic_staBS16; Arctic_staBS17; Arctic_staBS18; Arctic_staBS19; Arctic_staBS2; Arctic_staBS20; Arctic_staBS21; Arctic_staBS22; Arctic_staBS23; Arctic_staBS24; Arctic_staBS25; Arctic_staBS26; Arctic_staBS27; Arctic_staBS28; Arctic_staBS29; Arctic_staBS3; Arctic_staBS30; Arctic_staBS31; Arctic_staBS32; Arctic_staBS33; Arctic_staBS34; Arctic_staBS35; Arctic_staBS36; Arctic_staBS37; Arctic_staBS38; Arctic_staBS39; Arctic_staBS4; Arctic_staBS40; Arctic_staBS41; Arctic_staBS42; Arctic_staBS43; Arctic_staBS44; Arctic_staBS45; Arctic_staBS46; Arctic_staBS47; Arctic_staBS5; Arctic_staBS6; Arctic_staBS7; Arctic_staBS8; Arctic_staBS9; Arctica islandica; Arctinula greenlandica; Arctolembos arcticus; Arctonula arctica; Argissa hamatipes; Ariadnaria borealis; Aricidea catherinae; Aricidea hartmani; Aricidea nolani; Aricidea quadrilobata; Aricidea sp.; Arrhinopsis longicornis; Arrhis phyllonyx; Arrhis phyllonyx arcticus; Artacama proboscidea; Ascidiacea indeterminata; Ascidia sp.; Asellota indeterminata; Astarte borealis; Astarte crebricostata; Astarte crenata; Astarte elliptica; Astarte montagui; Astarte sp.; Astarte sulcata; Astartidae indeterminata; Asterias rubens; Asteroidea indeterminata; Astrorhiza limicola; Asychis biceps; Athecata indeterminata; Atylus carinatus; Atylus smittii; Atylus sp.; Augeneria algida; Autolytus sp.; Axinopsida orbiculata; Axionice flexuosa; Axionice maculata; Axiothella sp.; Balanidae indeterminata; Balanus balanus; Balanus crenatus; Balanus sp.; Barents Sea; Bathyarca frielei; Bathyarca glacialis; Bathyarca pectunculoides; Bathyarca sp.; Bispira crassicornis; Bivalvia; Boltenia echinata; Boreonymphon robustum; Boreotrofon sp.; Boreotrophon truncatus; Bowerbankia arctica; Bowerbankia caudata; Bowerbankia imbricata; Bowerbankia sp.; Brachiopoda indeterminata; Brachydiastylis resima; Brachyura indeterminata; Brada granulosa; Brada inhabilis; Brada rugosa; Brada sp.; Brada villosa; Branchiomma arcticum; Branchiomma bombyx; Branchiomma infarctum; Branchiomma sp.; Brisaster fragilis; Brookesena turrita; Bryozoa indeterminata; Buccinidae indeterminata; Buccinum cyaneum; Buccinum glaciale; Buccinum sp.; Buccinum undatum; Buffonellaria biaperta; Buffonellaria divergens; Bugula elongata; Bugula fastigiata; Bugula harmsworthi; Bugula purpurotincta; Bushiella (Jungaria) quadrangularis; Byblis arcticus; Byblis erythrops; Byblis gaimardi; Byblis longicornis; Byblis minuticornis; Byblis sp.; Bylgides elegans; Bylgides groenlandicus; Bylgides promamme; Bylgides sarsi; Bylgides sp.; Caecognathia elongata; Calanoida indeterminata; Calathura brachiata; Calliopiidae indeterminata; Calliopius laeviusculus; Callopora craticula; Callopora lata; Callopora lineata; Callopora obesa; Callopora smitti; Callopora sp.; Callopora whiteavesi; Campanularia volubilis; Campylaspis costata; Campylaspis glabra; Campylaspis horrida; Campylaspis rubicunda; Campylaspis sp.; Campylaspis stephenseni; Campylaspis sulcata; Campylaspis umbensis; Capitella capitata; Capitella sp.; Capitellidae indeterminata; Capnella florida; Capnella glomerata; Caprellidae indeterminata; Cardiidae indeterminata; Carinina sp.; Carinoma sp.; Caudofoveata indeterminata; Cauloramphopus spiniferum; Cellepora nodulosa; Cellepora pumicosa; Cellepora sp.; Celleporella hyalina; Celleporina incrassata; Celleporina sp.; Celleporina surcularis; Celleporina ventricosa; Ceradocus torelli; Cerebratulus longifissus; Cerebratulus sp.; Cerianthus lloydii; Cerianthus sp.; Cerithiella metula; Chaetoderma intermedium; Chaetoderma nitidulum; Chaetoderma sp.; Chaetonymphon sp.; Chaetozone setosa; Chaetozone sp.; Chartella membranaceotruncata; Cheilopora sincera; Cheiloporina sincera; Cheiloporina sp.; Cheilostomatida indeterminata; Chirimia biceps; Chironomidae indeterminata; Chitinopoma serrula; Chlamys islandica; Chlamys sp.; Chone analis; Chone duneri; Chone filicaudata; Chone infundibuliformis; Chone murmanica; Chone paucibranchiata; Chone perseyi; Chone sp.; Ciliatocardium ciliatum; Cingula globosus; Cingula sp.; Circeis armoricana; Circeis spirillum; Cirratulidae indeterminata; Cirratulus caudatus; Cirratulus cirratus; Cirratulus sp.; Cirripedia indeterminata; Cirrophorus branchiatus; Cirrophorus furcatus; Cistenides hyperborea; Clavodorum sp.; Clinocardium ciliatum; Clione limacina; Clymenura borealis; Clymenura polaris; Clymenura sp.; Cnemidocarpa rhizopus; Cnidaria indeterminata; Colus sabini; Colus sp.; Copepoda indeterminata; Corophiidae indeterminata; Corophium bonnellii; Corophium
    Type: Dataset
    Format: text/tab-separated-values, 190164 data points
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  • 8
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    Sea ice cover, and bottom water and sediment characteristics at stations in the Amundsen Gulf, Canada (2011)
    PANGAEA
    In:  Supplement to: Link, Heike; Archambault, Philippe; Tamelander, Tobias; Renaud, Paul E; Piepenburg, Dieter (2011): Spring-to-summer changes and regional variability of benthic processes in the western Canadian Arctic. Polar Biology, 34(12), 2025-2038, https://doi.org/10.1007/s00300-011-1046-6
    Details
    Publication Date: 2023-12-13
    Description: Seasonal dynamics in the activity of Arctic shelf benthos have been the subject of few local studies, and the pronounced among-site variability characterizing their results makes it difficult to upscale and generalize their conclusions. In a regional study encompassing five sites at 100-595 m water depth in the southeastern Beaufort Sea, we found that total pigment concentrations in surficial sediments, used as proxies of general food supply to the benthos, rose significantly after the transition from ice-covered conditions in spring (March-June 2008) to open-water conditions in summer (June-August 2008), whereas sediment Chl a concentrations, typical markers of fresh food input, did not. Macrobenthic biomass (including agglutinated foraminifera 〉500 µm) varied significantly among sites (1.2-6.4 g C/m**2 in spring, 1.1-12.6 g C/m**2 in summer), whereas a general spring-to-summer increase was not detected. Benthic carbon remineralisation also ranged significantly among sites (11.9-33.2 mg C/m**2/day in spring, 11.6-44.4 mg C/m**2/day in summer) and did in addition exhibit a general significant increase from spring-to-summer. Multiple regression analysis suggests that in both spring and summer, sediment Chl a concentration is the prime determinant of benthic carbon remineralisation, but other factors have a significant secondary influence, such as foraminiferan biomass (negative in both seasons), water depth (in spring) and infaunal biomass (in summer). Our findings indicate the importance of the combined and dynamic effects of food supply and benthic community patterns on the carbon remineralisation of the polar shelf benthos in seasonally ice-covered seas.
    Keywords: International Polar Year (2007-2008); IPY
    Type: Dataset
    Format: application/zip, 2 datasets
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  • 9
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    (Table 3) Organic carbon and pigments in surface sediments from the Arctic Ocean (1997)
    PANGAEA
    Details
    Publication Date: 2024-01-08
    Keywords: ADEPD; ADEPDCruises; AOS94_1; AOS94_12; AOS94_13; AOS94_16; AOS94_17; AOS94_19; AOS94_21; AOS94_23; AOS94_24; AOS94_25; AOS94_26; AOS94_28; AOS94_30; AOS94_31; AOS94_32; AOS94_33; AOS94_6; AOS94_7; AOS94_8; Arlis Plateau; Atlantic Data Base for Exchange Processes at the Deep Sea Floor; Barents abyssal plain; BC; Box corer; Calculated; Carbon, organic, total; Chlorophyll a, areal concentration; Chukchi Abyssal Plain; Chukchi shelf; Chukchi solpe; DEPTH, sediment/rock; Element analyser CHN, LECO; Elevation of event; Event label; Fluorometric assay of acetone extraction (GF/F filtered); Latitude of event; Lomonosov Ridge, Arctic Ocean; Longitude of event; Mendeleev Ridge, Arctic Ocean; Mendeleev slope; Mixing depth; North Pole; Phaeopigments, areal concentration; Siberia Abyssal Plain; Wrangel Abyssal Plain
    Type: Dataset
    Format: text/tab-separated-values, 134 data points
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  • 10
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    Effects of Ocean Acidification and Warming on Sperm Activity and Early Life Stages of the Mediterranean Mussel (Mytilus galloprovincialis) (2013)
    PANGAEA
    In:  Supplement to: Vihtakari, Mikko; Hendriks, Iris; Holding, Johnna; Renaud, Paul E; Duarte, Carlos Manuel; Havenhand, Jonathan N (2013): Effects of Ocean Acidification and Warming on Sperm Activity and Early Life Stages of the Mediterranean Mussel (Mytilus galloprovincialis). Water, 5(4), 1890-1915, https://doi.org/10.3390/w5041890
    Details
    Publication Date: 2024-03-15
    Description: Larval stages are among those most vulnerable to ocean acidification (OA). Projected atmospheric CO2 levels for the end of this century may lead to negative impacts on communities dominated by calcifying taxa with planktonic life stages. We exposed Mediterranean mussel (Mytilus galloprovincialis) sperm and early life stages to pHT levels of 8.0 (current pH) and 7.6 (2100 level) by manipulating pCO2 level (380 and 1000 ppm). Sperm activity was examined at ambient temperatures (16-17 °C) using individual males as replicates. We also assessed the effects of temperature (ambient and = 20 °C) and pH on larval size, survival, respiration and calcification of late trochophore/early D-veliger stages using a cross-factorial design. Increased pCO2 had a negative effect on the percentage of motile sperm (mean response ratio R= 71%) and sperm swimming speed (R= 74%), possibly indicating reduced fertilization capacity of sperm in low concentrations. Increased temperature had a more prominent effect on larval stages than pCO2, reducing performance (RSize = 90% and RSurvival = 70%) and increasing energy demand (RRespiration = 429%). We observed no significant interactions between pCO2 and temperature. Our results suggest that increasing temperature might have a larger impact on very early larval stages of M. galloprovincialis than OA at levels predicted for the end of the century.
    Keywords: Abundance per volume; Alkalinity, total; Alkalinity, total, standard deviation; Animalia; Aragonite saturation state; Aragonite saturation state, standard deviation; Benthic animals; Benthos; Bicarbonate ion; Bottles or small containers/Aquaria (〈20 L); Calcification/Dissolution; Calcification rate of carbon; Calcification rate of carbon per individual; Calcite saturation state; Calculated using CO2SYS; Calculated using seacarb after Nisumaa et al. (2010); Carbon, inorganic, dissolved; Carbon, inorganic, dissolved, standard deviation; Carbonate ion; Carbonate system computation flag; Carbon dioxide; Coast and continental shelf; Date; Fugacity of carbon dioxide (water) at sea surface temperature (wet air); Growth/Morphology; Identification; Individual code; Laboratory experiment; Larvae; Mediterranean Sea; Mediterranean Sea Acidification in a Changing Climate; MedSeA; Mollusca; Mortality/Survival; Mytilus galloprovincialis; OA-ICC; Ocean Acidification International Coordination Centre; Partial pressure of carbon dioxide, standard deviation; Partial pressure of carbon dioxide (water) at sea surface temperature (wet air); Pelagos; pH; pH, standard deviation; Replicate; Replicates; Reproduction; Respiration; Respiration rate, oxygen; Respiration rate, oxygen, per individual; Respiration rate, oxygen, standard error; Salinity; Single species; Size; Species; Spectrophotometric; Speed, swimming; Speed, swimming, standard deviation; Speed, swimming, standard error; Sperm motility; Sperm motility, standard deviation; Sperm motility, standard error; Survival; Temperate; Temperature; Temperature, water; Temperature, water, standard deviation; Treatment; Zooplankton
    Type: Dataset
    Format: text/tab-separated-values, 36718 data points
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