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The Holocene silicon biogeochemistry of Yellowstone Lake, USA (2024)

Zahajská, P. ; Frings, P. ; Gaspard, F. ; [weitere]

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Publikationsdatum: 2024-07-11

Sprache: Englisch

Materialart: info:eu-repo/semantics/workingPaper

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A review of the genus Muusoctopus (Cephalopoda: Octopoda) from Arctic waters (2023)

Golikov, Alexey V. ; Gudmundsson, Gudmundur ; Blicher, Martin E. ; [weitere]

Springer | BioMed Central

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Publikationsdatum: 2024-07-11

Beschreibung: We report two Arctic species of incirrate octopods new to science. One is formally described here as Muusoctopus aegir Golikov, Gudmundsson & Sabirov sp. nov. while the other, Muusoctopus sp. 1, is not formally described due to a limited number of samples (all are immature individuals). These two species differ from each other, and from other Muusoctopus, especially in: 1) absence of stylets (in M. aegir sp. nov.); 2) proportions of mantle and head; 3) funnel organ morphology (W-shaped with medial and marginal limbs of equal length in M. aegir sp. nov., or medial are slightly longer; V V-shaped with medial limbs slightly longer and broader than marginal in Muusoctopus sp. 1); 4) sucker and gill lamellae counts; 5) relative arm length and sucker diameter; and 6) male reproductive system relative size and morphology. Species of Muusoctopus now comprise four of 12 known Arctic cephalopods. Additionally, this study provides: a) new data on the morphology and reproductive biology of M. johnsonianus and M. sibiricus, and a diagnosis of M. sibiricus; b) the equations to estimate mantle length and body mass from beak measurements of M. aegir sp. nov. and M. johnsonianus; c) a cytochrome c oxidase subunit I gene barcode for M. sibiricus; d) new data on the ecology and distribution of all studied species; and e) a data table for the identification of northern North Atlantic and Arctic species of Muusoctopus.

Materialart: Article , PeerReviewed , info:eu-repo/semantics/article

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Transcriptomic responses of Mediterranean sponges upon encounter with symbiont microbial consortia (2024)

Marulanda-Gomez, Angela M. ; Ribes, Marta ; Franzenburg, Sören ; [weitere]

Biomed Central | Springer

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Publikationsdatum: 2024-07-11

Beschreibung: Background: Sponges (phylum Porifera) constantly interact with microbes. They graze on microbes from the water column by filter-feeding and they harbor symbiotic partners within their bodies. In experimental setups, sponges take up symbionts at lower rates compared with seawater microbes. This suggests that sponges have the capacity to differentiate between microbes and preferentially graze in non-symbiotic microbes, although the underlying mechanisms of discrimination are still poorly understood. Genomic studies showed that, compared to other animal groups, sponges present an extended repertoire of immune receptors, in particular NLRs, SRCRs, and GPCRs, and a handful of experiments showed that sponges regulate the expression of these receptors upon encounter with microbial elicitors. We hypothesize that sponges may rely on differential expression of their diverse repertoire of poriferan immune receptors to sense different microbial consortia while filter-feeding. To test this, we characterized the transcriptomic response of two sponge species, Aplysina aerophoba and Dysidea avara, upon incubation with microbial consortia extracted from A. aerophoba in comparison with incubation with seawater microbes. The sponges were sampled after 1 h, 3 h, and 5 h for RNA-Seq differential gene expression analysis. Results: D. avara incubated with A. aerophoba-symbionts regulated the expression of genes related to immunity, ubiquitination, and signaling. Within the set of differentially-expressed immune genes we identified different families of Nucleotide Oligomerization Domain (NOD)-Like Receptors (NLRs). These results represent the first experimental evidence that different types of NLRs are involved in microbial discrimination in a sponge. In contrast, the transcriptomic response of A. aerophoba to its own symbionts involved comparatively fewer genes and lacked genes encoding for immune receptors. Conclusion: Our work suggests that: (i) the transcriptomic response of sponges upon microbial exposure may imply “fine-tuning” of baseline gene expression as a result of their interaction with microbes, (ii) the differential response of sponges to microbial encounters varied between the species, probably due to species-specific characteristics or related to host’s traits, and (iii) immune receptors belonging to different families of NLR-like genes played a role in the differential response to microbes, whether symbionts or food bacteria. The regulation of these receptors in sponges provides further evidence of the potential role of NLRs in invertebrate host-microbe interactions. The study of sponge responses to microbes exemplifies how investigating different animal groups broadens our knowledge of the evolution of immune specificity and symbiosis.

Materialart: Article , PeerReviewed , info:eu-repo/semantics/article

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Video In Situ Snowfall Sensor (VISSS) data for Ny-Ålesund (July 2022 - December 2023) (2024)

Maahn, Maximilian ; Maherndl, Nina

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Publikationsdatum: 2024-07-11

Beschreibung: The open source Video In Situ Snowfall Sensor (VISSS) is a novel instrument for the characterization of particle shape and size in snowfall. The VISSS consists of two cameras with LED backlights and telecentric lenses that allow accurate sizing and combine a large observation volume with relatively high resolution and a design that limits wind disturbance. Here, movies and images of falling precipitation particles are provided for station Ny-Ålesund from July 2022 to December 2023. For further details on the VISSS Sensor see Maahn et al. (2024).

Schlagwort(e): AC3; Arctic Amplification; In-situ; Ny-Ålesund; snowfall; snowflake

Materialart: Dataset

Format: application/zip, 523 datasets

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A global database of measured values of Li/Mg, Mg/Ca, Sr/Ca, Ba/Ca, U/Ca and Sr-U for coral and coralline algae paleoenvironment calibrations (2023)

Williams, Thomas J ; Standish, Christopher D ; Archambault, Philippe ; [weitere]

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Publikationsdatum: 2024-07-11

Beschreibung: Calcifying marine organisms provide a valuable means to access high-resolution historical records of the marine environment captured within their skeletal geochemistry. These records are essential for comprehending the effects of human-induced climate change and reducing uncertainties in future projections. Integrating investigations across various taxa, depths, and geographic locations can help identify universal environmental proxies and serve as a basis for targeted studies in the future. Here, we provide a comprehensive georeferenced database of measured values of Li/Mg, Mg/Ca, Sr/Ca, Ba/Ca, U/Ca and Sr-U in coral and coralline algae compiled from the scientific literature (1950-2021; http://www.webofknowledge.com, accessed 2022-09-30) for the purpose of interrogating and refining global, mineralogy specific and/or taxon-specific proxies for seawater temperature and barium. We include metadata relating to the source, timing and location of each study, the methodology used, and environmental and experimental information. The dataset presents an opportunity to quantify uncertainty and test the robustness of trace and minor element proxies for past environmental conditions, of which will be of value within the fields of geochemistry, ecology, climate, and palaeobiology. Full methodology and additional information provided in Williams et al. (2024).

Schlagwort(e): aragonite; Ba/Ca; coralline algae; Corals; high-Mg calcitic corals; Li/Mg; Mg/Ca; octocorals; paleotemperature proxy; seawater barium; Sr/Ca; Sr-U; U/Ca

Materialart: Dataset

Format: application/zip, 2 datasets

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Global marine radiocarbon data compilation for the last deglaciation (2023)

Skinner, Luke C ; Primeau, Francois ; Jeltsch-Thömmes, Aurich ; [weitere]

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Publikationsdatum: 2024-07-11

Beschreibung: Compiled marine radiocarbon data from the global ocean, derived from planktonic/benthic foraminifera and corals, spanning the last deglaciation, with associated calendar ages that are independently derived and/or are consistent with the Marine20 radiocarbon calibration curve. The data have been screened and include data flags pertaining to anomalous values (e.g. negative offsets relative to the contemporary atmosphere), low sedimentation rates 〈2 cm/kyr, and/or deviations from dominant regional-temporal trends. The data are further grouped by ocean basin, and according to their associated calendar ages as belonging to a succession of time slices across the last deglaciation: the Last Glacial Maximum (LGM), Heinrich Stadial 1 (HS1), the Bolling-Allerod (BA), the Younger Dryas, the Early Holocene (7-11ka BP), and the late Holocene (〈6 ka BP).

Schlagwort(e): 0050PG; 0066PG; 145-887; 146-893A; 167-1019; 17/1GCA; 1K-SUERC; 1P-OS-75; 1P-SUERC; 202-1240; 22SL; 310-M0015A; 310-M0016A; 310-M0018A; 310-M0020A; 310-M0021A; 310-M0023A; 310-M0023B; 310-M0024A; 310-M0025A; 310-M0025B; 310-M0026A; 313-M0027A; 313-M0029A; 341-U1419; 35MF20120125, OISO_21, INDIEN SUD 2; 47396B; 4P-OS-75; 4P-SUERC; 50-37KL; 5P-OS-79; 5P-SUERC; 64-480; 90b; 94-609; Age, 14C AMS; Age, comment; Age, dated; Age, dated standard error; Age, difference; Age, difference error; AII125-8-55; AII125-8-56; AK-AA-1; Akademik M.A. Lavrentyev; AK-BC-2; AK-F-1; AK-L-1; ALIENOR; also published as VM28-122; ALV; ALV-3884; ALV-3885; ALV-3887; ALV-3890; ALV-3891; ALV-3892; ALV-4162; ALVIN; ANT-XI/4; ANT-XXIII/9; ANT-XXVI/2; ARA04-43E; Argentine Basin; ARK-II/5; ARK-X/2; AT07-35; AT12-01; Atlantis (1997); B34-91; Basin; BC; Bering Sea; BO04-PC11; Box corer; Brazil Basin; Burdwood_Bank; calculated, 1 sigma; Calendar age; Calendar age, standard error; CALYPSO; CALYPSO2; Calypso Corer; Calypso Corer II; Calypso square corer; Calypso Square Core System; CASQ; CASQS; CD159; CD159-10; CD38-17P; CDRILL; Cenderawasih Bay; CH84-14; Charles Darwin; CHAT 10K; CHAT-10K; CHAT-16K; CHAT-3K; CHAT-5K; CHR-4; CHR-5; CHR-6; CHR-7; Comment; COMPCORE; Composite Core; Conrad Rise; Coral; Core; CORE; Core drilling; Corner Rise; DAPC2; deglacial; Denmark Strait; DH117; DH43; DH74; DP Hunter; DR23; DR27; DR34; DR35; DR38; DR40; Drake Passage; Dredge; DRG; DRILL; Drill9A_Tasmaloum; Drilling/drill rig; Eastern Equatorial Pacific; Eastern slope of Kurile Basin; East Pacific; EBA1; EBA10; EBA11; EBA2; EBA3; EBA4; EBA5; EBA6; EBA7; EBA8; EBA9; EBB1; EBB2; EBB3; EBB4; EBB5; EBB6; EBB7; ELEVATION; ENG-111; Equatorial East Pacific; Equatorial Indian Ocean; ESTASE1; ET97-7T; Event label; EW0408; EW0408-26JC; EW0408-87JC; Exp310; Exp313; Exp341; f0001carcs; F2-92-P3; F8-90-G21; Flag; FLAMINGO; Foraminifera; GC; GC_POI; GeoB1503-1; GeoB2104-3; GeoB7149-2; GeoB7162-6; GeoB7163-7; GeoB7167-6; Geological time slice; GEOSCIENCES, MARMARCORE; GGC; GGC5; gh02-1030; Giant box corer; Giant gravity corer; Giant piston corer; GIK23243-2 PS05/431; GIK23415-9; GKG; Glomar Challenger; GPC; Gramberg Seamount; Gravity corer; Gravity corer (Kiel type); Gravity corer (POI); GS07-150-20/2A; Gulf of California; H209; H213; HU72-021-3; HU72-021-7; HU89038-8PC; IMAGES I; IMAGES III - IPHIS; IMAGES IV-IPHIS III; IMAGES V; IMAGES VII - WEPAMA; IMAGES XII - MARCO POLO; IMAGES XV - Pachiderme; Indian Ocean; INOPEX; Interim_Seamount; James Cook; Japan Trench; JC094; JC094_GRM; Jean Charcot; JFA17; JFA2; JFA20; JFA24; JF-FI-19PC; Joides Resolution; JPC; JT96-09; JT96-09PC; Jumbo Piston Core; KAL; KALMAR II; Kasten corer; Kayd; KL; KN_USA; KN11002; KN159-5; Knorr; KNR110-50; KNR110-66; KNR110-82a; KNR110-82GGC; KNR140; KNR140-01JPC; KNR140-02JPC; KNR140-12JPC; KNR140-2-12JPC; KNR140-2-22JPC; KNR140-22JPC; KNR140-2-30GGC; KNR140-2-51GGC; KNR140-26GGC; KNR140-30GGC; KNR140-37JPC; KNR140-39GGC; KNR140-43GGC; KNR140-50GGC; KNR140-51GGC; KNR140-56GGC; KNR140-66GGC; KNR159-5; KNR159-5-78GGC; KNR176-17GC; KNR176-2; KNR176-2-JPC30; KNR178; KNR178-2GGC; KNR178-32JPC; KNR195-5-CDH23; KNR195-5-CDH26; KNR195-5-CDH41; KNR195-5-GGC43; KNR197-10; KNR197-10CDH42; KNR197-10-CDH42; KNR197-10-CDH46; KNR197-10-GGC17; KNR197-10-GGC5; KNR198-CDH36; KNR198-GGC15; KNR198-GGC35; KNR31GPC5; KNR73-3PC; KNR73-4PC; KNR73-6PG; KOL; KOMEX; KOMEX II; KR02-15-PC06; Kronotsky Peninsula; KT89-18-P4; Lakshadweep Sea; LATITUDE; Laurentian fan; Leg145; Leg146; Leg167; Leg202; Leg64; Leg94; Le Suroît; LMG06-05-9; LONGITUDE; LPAZ21P; LV27/GREGORY; LV27-2-4; LV29-114-3; LV29-2; M16/2; M17/2; M23/2; marine; Marion Dufresne (1972); Marion Dufresne (1995); MAT-1A; MAT-3A; Maurice Ewing; MD012386; MD01-2386; MD012420; MD01-2420; MD01-2461; MD02-2461; MD022489; MD02-2489; MD03-2697; MD03-2707; MD04-2829CQ; MD04-2845; MD052896; MD05-2896; MD052904; MD05-2904; MD07-3076; MD07-3076Q; MD07-3088; MD08-3169; MD09-3256; MD09-3256Q; MD09-3257; MD101; MD106; MD111; MD114; MD122; MD123; MD12-3396Cq; MD13; MD134; MD141; MD147; MD159; MD173; MD189; MD77-176; MD952002; MD95-2002; MD952007; MD95-2007; MD972106; MD97-2106; MD972121; MD97-2121; MD972138; MD97-2138; MD982165; MD98-2165; MD982181; MD98-2181; MD99-2331; MD99-2334; ME0005-24JC; Melville; Meriadzec; Meteor (1986); ML1208-01PC; MR01-K03; MR06-04_PC04A; MUC; MULT; MultiCorer; Multiple investigations; Mururoa; MV1007; MV1007-DO3; MV99-GC31; MV99-GC38; MV99-MC17/GC32/PC10; MV99-MC19; MV99-PC08; NA064-117-1; NA064-118-1; NA87-22; Nathaniel B. Palmer; NBP0805; NBP0805-DR23; NBP0805-DR27; NBP0805-DR34; NBP0805-DR35; NBP0805-DR36; NBP0805-DR38; NBP0805-DR40; NBP0805-TB04; NBP1103; NBP1103-DH07; NBP1103-DH112; NBP1103-DH113; NBP1103-DH115; NBP1103-DH117; NBP1103-DH120; NBP1103-DH134; NBP1103-DH14; NBP1103-DH140; NBP1103-DH143; NBP1103-DH15; NBP1103-DH22; NBP1103-DH43; NBP1103-DH74; NBP1103-DH95; Nesmeyanov25-1-GGC15; Nesmeyanov25-1-GGC18; Nesmeyanov25-1-GGC20; Nesmeyanov25-1-GGC27; New England Mountains; New Jersey Shallow Shelf; North Atlantic; North Atlantic/FLANK; Northeast Atlantic; North East Atlantic; North Pacific/Gulf of California/BASIN; North Pacific Ocean; Northwest Atlantic; Norwegian Sea; OCE326-GGC14; OCE326-GGC26; OCE326-GGC5; off Chile; off Nova Scotia; OK-3; OK-8; OKB-36A; OKB-53B; OKB-B3; OSIRIS III; Pacific Ocean; PALEOCINAT; PALEOCINAT II; papua; PC; PC75-1; PC75-2; Philippine Sea; PICABIA; Piston corer; Piston corer (BGR type); Piston corer (Kiel type); PLDS-007G; PLDS-1; Pleiades; Polarstern; PS05; PS1243-2; PS2606-6; PS2644-5; PS30; PS30/144; PS31; PS31/160-5; PS69; PS69/907-2; PS69/912-3; PS69/912-4; PS75/059-2; PS75/100-4; PS75/104-1; PS75 BIPOMAC; PUCK; radiocarbon dates; RAPiD-10-1P; RBDASS05; RBDASS05_H11; RBDASS05_H15; RC11; RC1112; RC11-238; RC24; RC24-8GC; RC27; RC27-14; RC27-23; Record number; Reference/source; Remote operated vehicle; Remote operated vehicle Jason II; Reservoir age; Reservoir age, standard error; RETRO-2; RGF_Barbados; RGF-12; RGF-15; RGF-16; RGF-9; RNDB-GGC15; RNDB-GGC5; RNDB-PC11; RNDB-PC13; Robert Conrad; ROV; ROVJ; RR0503-06JPC; RR0503-36JPC; RR0503-64JPC; RR0503-79JPC; RR0503-831C; RR0503-83GC; S67-FFC15; S794; S931; S938; Sakhalin shelf and slope; Sars_Seamount; SC4_ST2_SW2_SX1; Scotia Sea; Sea of Okhotsk; SEDCO; Sedimentation rate; Sediment corer; Shackleton_Fracture_Zone; SHAK03-6K; SHAK05-3K; SHAK06-4K; SHAK10-10K; SHAK14-4G; Shirshov Ridge; Sindhu Sadhana; Site; Site_1471; Site_2088; Site_21210009; Site_2307; Site_2631; Site_2657; Site_2706; Site_2774; Site_47396; Site_654; Site_660; Site_936; SK129-CR2; SL; Smithsonian_48735.1; SO156/2; SO156/3; SO161/5; SO161/5_22SL; SO178; SO178-13-6; SO201/2; SO201-2-101; SO201-2-12KL; SO201-2-77; SO201-2-85; SO202/1; SO202/1_18-6; SO213/2; SO213/2_76-2; SO213/2_79-2; SO213/2_82-1; SO213/2_84-1; Sonne; SOPATRA; South Atlantic; South Atlantic Ocean; South China Sea; Southern Alaska Margin: Tectonics, Climate and Sedimentation; South of Iceland; South Pacific Ocean; South Tasman Rise; Southwest Pacific; Southwest Pacific Ocean; SPOC; SS152; SS172; SSD-044; SSD044_GC-01; Station 6, MD189-3396; St Kildas Basin; SU90-08; SU92; SU92-03; Submersible Alvin; TAH-01A-3A; TAH-02A-4F; TAH-02A-4G; TAH-02A-4H; TAH-02A-5D; TAH-02A-5F; TAH-02A-5G; TAH-02A-5H; TAH-03A-1; TAH-03A-1A; TAH-03A-1E; Tahiti, offshore Faaa; Tahiti, offshore Maraa; Tahiti, offshore Tiarei; Tahiti Sea Level; Ta-P6; Ta-P7; Ta-P8; Tasman Sea; Thomas G. Thompson; Thomas G. Thompson (1964); Thomas Washington; TN228; TN228_J2_382; TN228_J2_383; TN228_J2_387; TN228_J2_389; TN228_J2_393; TN228_J2_395; TNO57-21; TR163-22; TR163-23; TR163-31; TROPICS; TT154-10; TTN013-18; TTXXX; U938; U939; urlepa; V19; V19-27; V21; V21-40; V28; V28-122; V28-238; V34; V34-98; V35; V35-5; V35-6; VAY1; VEM1_8; Vema; ventilation; Vigo; VINO19-4-GGC17; VINO19-4GGC-37; VINO19-4-GGC37; VM21-30; VNTR01; VNTR01-10GC; Vuolep Allakasjaure; W8709A; W8709A-13; Wecoma

Materialart: Dataset

Format: text/tab-separated-values, 63496 data points

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Global marine radiocarbon data compilation for the last deglaciation, zonal averages for each major ocean basin and each deglacial time-slice (2023)

Skinner, Luke C ; Primeau, Francois ; Jeltsch-Thömmes, Aurich ; [weitere]

PANGAEA

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Publikationsdatum: 2024-07-11

Beschreibung: Compiled marine radiocarbon data from the global ocean, derived from planktonic/benthic foraminifera and corals, spanning the last deglaciation, with associated calendar ages that are independently derived and/or are consistent with the Marine20 radiocarbon calibration curve. The data have been screened and include data flags pertaining to anomalous values (e.g. negative offsets relative to the contemporary atmosphere), low sedimentation rates 〈2 cm/kyr, and/or deviations from dominant regional-temporal trends. The data are further grouped by ocean basin, and according to their associated calendar ages as belonging to a succession of time slices across the last deglaciation: the Last Glacial Maximum (LGM), Heinrich Stadial 1 (HS1), the Bolling-Allerod (BA), the Younger Dryas, the Early Holocene (7-11ka BP), and the late Holocene (〈6 ka BP).

Schlagwort(e): 0050PG; 0066PG; 145-887; 146-893A; 167-1019; 17/1GCA; 1K-SUERC; 1P-OS-75; 1P-SUERC; 202-1240; 22SL; 310-M0015A; 310-M0016A; 310-M0018A; 310-M0020A; 310-M0021A; 310-M0023A; 310-M0023B; 310-M0024A; 310-M0025A; 310-M0025B; 310-M0026A; 313-M0027A; 313-M0029A; 341-U1419; 35MF20120125, OISO_21, INDIEN SUD 2; 47396B; 4P-OS-75; 4P-SUERC; 50-37KL; 5P-OS-79; 5P-SUERC; 64-480; 90b; 94-609; AII125-8-55; AII125-8-56; AK-AA-1; Akademik M.A. Lavrentyev; AK-BC-2; AK-F-1; AK-L-1; ALIENOR; also published as VM28-122; ALV; ALV-3884; ALV-3885; ALV-3887; ALV-3890; ALV-3891; ALV-3892; ALV-4162; ALVIN; ANT-XI/4; ANT-XXIII/9; ANT-XXVI/2; ARA04-43E; Argentine Basin; ARK-II/5; ARK-X/2; AT07-35; AT12-01; Atlantis (1997); B34-91; BC; Bering Sea; BO04-PC11; Box corer; Brazil Basin; Burdwood_Bank; CALYPSO; CALYPSO2; Calypso Corer; Calypso Corer II; Calypso square corer; Calypso Square Core System; CASQ; CASQS; CD159; CD159-10; CD38-17P; CDRILL; Cenderawasih Bay; CH84-14; Charles Darwin; CHAT 10K; CHAT-10K; CHAT-16K; CHAT-3K; CHAT-5K; CHR-4; CHR-5; CHR-6; CHR-7; COMPCORE; Composite Core; Conrad Rise; Coral; Core; CORE; Core drilling; Corner Rise; DAPC2; deglacial; Denmark Strait; DH117; DH43; DH74; DP Hunter; DR23; DR27; DR34; DR35; DR38; DR40; Drake Passage; Dredge; DRG; DRILL; Drill9A_Tasmaloum; Drilling/drill rig; Eastern Equatorial Pacific; Eastern slope of Kurile Basin; East Pacific; EBA1; EBA10; EBA11; EBA2; EBA3; EBA4; EBA5; EBA6; EBA7; EBA8; EBA9; EBB1; EBB2; EBB3; EBB4; EBB5; EBB6; EBB7; ENG-111; Equatorial East Pacific; Equatorial Indian Ocean; ESTASE1; ET97-7T; EW0408; EW0408-26JC; EW0408-87JC; Exp310; Exp313; Exp341; f0001carcs; F2-92-P3; F8-90-G21; FLAMINGO; Foraminifera; GC; GC_POI; GeoB1503-1; GeoB2104-3; GeoB7149-2; GeoB7162-6; GeoB7163-7; GeoB7167-6; GEOSCIENCES, MARMARCORE; GGC; GGC5; gh02-1030; Giant box corer; Giant gravity corer; Giant piston corer; GIK23243-2 PS05/431; GIK23415-9; GKG; Glomar Challenger; GPC; Gramberg Seamount; Gravity corer; Gravity corer (Kiel type); Gravity corer (POI); GS07-150-20/2A; Gulf of California; H209; H213; HU72-021-3; HU72-021-7; HU89038-8PC; IMAGES I; IMAGES III - IPHIS; IMAGES IV-IPHIS III; IMAGES V; IMAGES VII - WEPAMA; IMAGES XII - MARCO POLO; IMAGES XV - Pachiderme; Indian Ocean; INOPEX; Interim_Seamount; James Cook; Japan Trench; JC094; JC094_GRM; Jean Charcot; JFA17; JFA2; JFA20; JFA24; JF-FI-19PC; Joides Resolution; JPC; JT96-09; JT96-09PC; Jumbo Piston Core; KAL; KALMAR II; Kasten corer; Kayd; KL; KN_USA; KN11002; KN159-5; Knorr; KNR110-50; KNR110-66; KNR110-82a; KNR110-82GGC; KNR140; KNR140-01JPC; KNR140-02JPC; KNR140-12JPC; KNR140-2-12JPC; KNR140-2-22JPC; KNR140-22JPC; KNR140-2-30GGC; KNR140-2-51GGC; KNR140-26GGC; KNR140-30GGC; KNR140-37JPC; KNR140-39GGC; KNR140-43GGC; KNR140-50GGC; KNR140-51GGC; KNR140-56GGC; KNR140-66GGC; KNR159-5; KNR159-5-78GGC; KNR176-17GC; KNR176-2; KNR176-2-JPC30; KNR178; KNR178-2GGC; KNR178-32JPC; KNR195-5-CDH23; KNR195-5-CDH26; KNR195-5-CDH41; KNR195-5-GGC43; KNR197-10; KNR197-10CDH42; KNR197-10-CDH42; KNR197-10-CDH46; KNR197-10-GGC17; KNR197-10-GGC5; KNR198-CDH36; KNR198-GGC15; KNR198-GGC35; KNR31GPC5; KNR73-3PC; KNR73-4PC; KNR73-6PG; KOL; KOMEX; KOMEX II; KR02-15-PC06; Kronotsky Peninsula; KT89-18-P4; Lakshadweep Sea; Laurentian fan; Leg145; Leg146; Leg167; Leg202; Leg64; Leg94; Le Suroît; LMG06-05-9; LPAZ21P; LV27/GREGORY; LV27-2-4; LV29-114-3; LV29-2; M16/2; M17/2; M23/2; marine; Marion Dufresne (1972); Marion Dufresne (1995); MAT-1A; MAT-3A; Maurice Ewing; MD012386; MD01-2386; MD012420; MD01-2420; MD01-2461; MD02-2461; MD022489; MD02-2489; MD03-2697; MD03-2707; MD04-2829CQ; MD04-2845; MD052896; MD05-2896; MD052904; MD05-2904; MD07-3076; MD07-3076Q; MD07-3088; MD08-3169; MD09-3256; MD09-3256Q; MD09-3257; MD101; MD106; MD111; MD114; MD122; MD123; MD12-3396Cq; MD13; MD134; MD141; MD147; MD159; MD173; MD189; MD77-176; MD952002; MD95-2002; MD952007; MD95-2007; MD972106; MD97-2106; MD972121; MD97-2121; MD972138; MD97-2138; MD982165; MD98-2165; MD982181; MD98-2181; MD99-2331; MD99-2334; ME0005-24JC; Melville; Meriadzec; Meteor (1986); ML1208-01PC; MR01-K03; MR06-04_PC04A; MUC; MULT; MultiCorer; Multiple investigations; Mururoa; MV1007; MV1007-DO3; MV99-GC31; MV99-GC38; MV99-MC17/GC32/PC10; MV99-MC19; MV99-PC08; NA064-117-1; NA064-118-1; NA87-22; Nathaniel B. Palmer; NBP0805; NBP0805-DR23; NBP0805-DR27; NBP0805-DR34; NBP0805-DR35; NBP0805-DR36; NBP0805-DR38; NBP0805-DR40; NBP0805-TB04; NBP1103; NBP1103-DH07; NBP1103-DH112; NBP1103-DH113; NBP1103-DH115; NBP1103-DH117; NBP1103-DH120; NBP1103-DH134; NBP1103-DH14; NBP1103-DH140; NBP1103-DH143; NBP1103-DH15; NBP1103-DH22; NBP1103-DH43; NBP1103-DH74; NBP1103-DH95; Nesmeyanov25-1-GGC15; Nesmeyanov25-1-GGC18; Nesmeyanov25-1-GGC20; Nesmeyanov25-1-GGC27; New England Mountains; New Jersey Shallow Shelf; North Atlantic; North Atlantic/FLANK; Northeast Atlantic; North East Atlantic; North Pacific/Gulf of California/BASIN; North Pacific Ocean; Northwest Atlantic; Norwegian Sea; OCE326-GGC14; OCE326-GGC26; OCE326-GGC5; off Chile; off Nova Scotia; OK-3; OK-8; OKB-36A; OKB-53B; OKB-B3; OSIRIS III; Pacific Ocean; PALEOCINAT; PALEOCINAT II; papua; PC; PC75-1; PC75-2; Philippine Sea; PICABIA; Piston corer; Piston corer (BGR type); Piston corer (Kiel type); PLDS-007G; PLDS-1; Pleiades; Polarstern; PS05; PS1243-2; PS2606-6; PS2644-5; PS30; PS30/144; PS31; PS31/160-5; PS69; PS69/907-2; PS69/912-3; PS69/912-4; PS75/059-2; PS75/100-4; PS75/104-1; PS75 BIPOMAC; PUCK; radiocarbon dates; RAPiD-10-1P; RBDASS05; RBDASS05_H11; RBDASS05_H15; RC11; RC1112; RC11-238; RC24; RC24-8GC; RC27; RC27-14; RC27-23; Remote operated vehicle; Remote operated vehicle Jason II; RETRO-2; RGF_Barbados; RGF-12; RGF-15; RGF-16; RGF-9; RNDB-GGC15; RNDB-GGC5; RNDB-PC11; RNDB-PC13; Robert Conrad; ROV; ROVJ; RR0503-06JPC; RR0503-36JPC; RR0503-64JPC; RR0503-79JPC; RR0503-831C; RR0503-83GC; S67-FFC15; S794; S931; S938; Sakhalin shelf and slope; Sars_Seamount; SC4_ST2_SW2_SX1; Scotia Sea; Sea of Okhotsk; SEDCO; Sediment corer; Shackleton_Fracture_Zone; SHAK03-6K; SHAK05-3K; SHAK06-4K; SHAK10-10K; SHAK14-4G; Shirshov Ridge; Sindhu Sadhana; Site_1471; Site_2088; Site_21210009; Site_2307; Site_2631; Site_2657; Site_2706; Site_2774; Site_47396; Site_654; Site_660; Site_936; SK129-CR2; SL; Smithsonian_48735.1; SO156/2; SO156/3; SO161/5; SO161/5_22SL; SO178; SO178-13-6; SO201/2; SO201-2-101; SO201-2-12KL; SO201-2-77; SO201-2-85; SO202/1; SO202/1_18-6; SO213/2; SO213/2_76-2; SO213/2_79-2; SO213/2_82-1; SO213/2_84-1; Sonne; SOPATRA; South Atlantic; South Atlantic Ocean; South China Sea; Southern Alaska Margin: Tectonics, Climate and Sedimentation; South of Iceland; South Pacific Ocean; South Tasman Rise; Southwest Pacific; Southwest Pacific Ocean; SPOC; SS152; SS172; SSD-044; SSD044_GC-01; Station 6, MD189-3396; St Kildas Basin; SU90-08; SU92; SU92-03; Submersible Alvin; TAH-01A-3A; TAH-02A-4F; TAH-02A-4G; TAH-02A-4H; TAH-02A-5D; TAH-02A-5F; TAH-02A-5G; TAH-02A-5H; TAH-03A-1; TAH-03A-1A; TAH-03A-1E; Tahiti, offshore Faaa; Tahiti, offshore Maraa; Tahiti, offshore Tiarei; Tahiti Sea Level; Ta-P6; Ta-P7; Ta-P8; Tasman Sea; Thomas G. Thompson; Thomas G. Thompson (1964); Thomas Washington; TN228; TN228_J2_382; TN228_J2_383; TN228_J2_387; TN228_J2_389; TN228_J2_393; TN228_J2_395; TNO57-21; TR163-22; TR163-23; TR163-31; TROPICS; TT154-10; TTN013-18; TTXXX; U938; U939; urlepa; V19; V19-27; V21; V21-40; V28; V28-122; V28-238; V34; V34-98; V35; V35-5; V35-6; VAY1; VEM1_8; Vema; ventilation; Vigo; VINO19-4-GGC17; VINO19-4GGC-37; VINO19-4-GGC37; VM21-30; VNTR01; VNTR01-10GC; Vuolep Allakasjaure; W8709A; W8709A-13; Wecoma

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Glacier mass balance Hallstätter Gletscher 2018/19, Dachstein, Austria (2020)

Helfricht, Kay ; Reingruber, Klaus ; Fischer, Andrea

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Publikationsdatum: 2024-07-11

Beschreibung: The annual glacier mass balance of Hallstätter Gletscher in Austria is measured since 1.10.2006 with the direct glaciological method in the fixed date system (1.10. to 30. 09. of the following year). The accumulation of snow is measured by determination of the water equivalent in 6 snow pits, the ice ablation is measured with 15 stakes drilled into the ice. Results are the annual net mass balance in kg, the total accumulation and ablation, the glacier area and the portions of the area which are subject to ablation and accumulation, the elevation of the equilibrium line and the specific mass balance in kg/m² (= mm w.e.). The accumulation during the winter is determined by the 1 May. The project is funded by the Federal Government of Upper Austria. The measurements are carried out the Institute for Interdisciplinary Mountain Research of the Austrian Academy of Sciences and the company Blue Sky in Gmunden, Austria.

Schlagwort(e): Ablation area; Accumulation area; Accumulation area ratio; DATE/TIME; Equilibrium line altitude; Glaciers Austria; Hallstätter Gletscher, Dachstein, Austria; HSG; Mass balance, total; Mass balance in ablation area; Mass balance in accumulation area; Specific mass balance; Specific mass balance, summer; Specific mass balance, winter; Specific mass balance in the ablation area; Specific mass balance in the accumulation area; Total area

Materialart: Dataset

Format: text/tab-separated-values, 13 data points

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Video In Situ Snowfall Sensor (VISSS) data for Ny-Ålesund on 2023-11-28 (2024)

Maahn, Maximilian ; Maherndl, Nina

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Publikationsdatum: 2024-07-11

Beschreibung: The VISSS is a camera system recording precipitating snowfall from two perspectives. Here, movies and images of falling precipitation particles are provided for one day at station Ny-Ålesund. For further details on the VISS Sensor see Maahn et al. (2024).

Schlagwort(e): AC3; Arctic Amplification; AWIPEV; AWIPEV_based; DATE/TIME; Identification; Image, sky; Text file; Video; Video In Situ Snowfall Sensor, University of Cologne; VISSS; VISSS-NYA

Materialart: Dataset

Format: text/tab-separated-values, 1754 data points

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Laser dust logging of the EPICA Dome C borehole (2024)

Bay, Ryan C ; Tosi, Delia

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Publikationsdatum: 2024-07-11

Beschreibung: We deployed a laser dust logger in the EPICA Dome C Ice Core (EDC) borehole in order to obtain a detailed record of dust and ash in order to study the particulate stratigraphy, volcanology, glaciology and climatology at the site. The Dust Logger device is described in detail elsewhere, most recently here: Journal of Glaciology, Volume 59, Issue 218 (2013) pp. 1117 - 1128, DOI: https://doi.org/10.3189/2013JoG13J068. Because the borehole fluid was turbid at the time of the log, the resolution of the instrument was much lower (〉10 cm) than the nominal 2-3 mm thickness of the laser line. The instrument is lowered into the borehole and retrieved using a surface logging winch over the course of several hours. Data are acquired at the surface in real time using telemetry with the logger over the deployment cable. A small correction has been applied to compensate for the temperature dependence of the laser brightness.

Schlagwort(e): Backscatter intensity signal; borehole logging; DEPTH, ice/snow; Dome C; Dome C, Antarctica; Downhole logging; Dust logger; EDC; EPICA; EPICA Dome C; European Project for Ice Coring in Antarctica; Ice core; ICEDRILL; Ice drill

Materialart: Dataset

Format: text/tab-separated-values, 817079 data points

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