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  • 2025-2025  (21)
  • 2010-2014  (567,335)
  • 2011  (567,335)
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  • 1
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    (Table 1) Dissolved iron concentration and ligand characteristics from 7 stations in the Central Arctic Ocean and Arctic Shelf Sea during POLARSTERN expedition ARK-XXII/2 (2011)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: -; Arctic Ocean; Area/locality; ARK-XXII/2; CTD/Rosette, ultra clean; CTD-UC; Date/Time of event; DEPTH, water; Event label; Iron, dissolved; Iron, dissolved, conditional complex stability; Iron, dissolved, standard deviation; Iron-binding ligand, dissolved; Langmuir model, non-linear fit (Gerringa et al. 1995); Latitude of event; Longitude of event; Polarstern; PS70/239-1; PS70/255-1; PS70/260-2; PS70/279-2; PS70/309-2; PS70/352-2; PS70/407-1; PS70 SPACE DAMOCLES; Ratio; Sensitivity; Size fraction; Standard deviation
    Type: Dataset
    Format: text/tab-separated-values, 1254 data points
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  • 2
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    (Table 2a) Determination of ligand characteristics in unfiltered samples taken during POLARSTERN expedition ARK-XXII/2 - determination of an upper limit using total dissolvable iron (2011)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Arctic Ocean; Area/locality; ARK-XXII/2; CTD/Rosette, ultra clean; CTD-UC; Date/Time of event; DEPTH, water; Event label; Iron, dissolvable; Iron, dissolvable, standard deviation; Iron, dissolved, conditional complex stability; Iron-binding ligand, dissolved; Langmuir model, non-linear fit (Gerringa et al. 1995); Latitude of event; Longitude of event; Polarstern; PS70/239-1; PS70/255-1; PS70/260-2; PS70/279-2; PS70/309-2; PS70/352-2; PS70 SPACE DAMOCLES; Ratio; Sensitivity; Standard deviation
    Type: Dataset
    Format: text/tab-separated-values, 436 data points
    Location Call Number Expected Availability
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    DATA PANGAEA
  • 3
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    Beryllium 7 measured on surface sea ice during POLARSTERN cruise ARK-XXII/2 (2011)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Arctic Ocean; ARK-XXII/2; Beryllium-7; Beryllium-7, standard deviation; CT; DATE/TIME; DEPTH, ice/snow; GEOTRACES; Global marine biogeochemical cycles of trace elements and their isotopes; LATITUDE; LONGITUDE; Polarstern; PS70/2-track; PS70 SPACE DAMOCLES; Sample ID; Sample volume; see further details; Station label; Underway cruise track measurements
    Type: Dataset
    Format: text/tab-separated-values, 90 data points
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  • 4
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    Beryllium 7 in sea ice sediments during POLARSTERN cruise ARK-XXII/2 (2011)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Arctic Ocean; ARK-XXII/2; Beryllium-7; Beryllium-7, standard deviation; CT; DATE/TIME; DEPTH, ice/snow; GEOTRACES; Global marine biogeochemical cycles of trace elements and their isotopes; LATITUDE; LONGITUDE; Polarstern; PS70/2-track; PS70 SPACE DAMOCLES; Sample ID; see further details; Underway cruise track measurements
    Type: Dataset
    Format: text/tab-separated-values, 48 data points
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  • 5
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    Stable oxygen isotope and Mg/Ca ratios on Globorotalia inflata (2011)
    PANGAEA
    In:  Supplement to: Groeneveld, Jeroen; Chiessi, Cristiano Mazur (2011): Mg/Ca ratios of Globorotalia inflata as a recorder of permanent thermocline temperatures in the South Atlantic. Paleoceanography, 26, PA2203, https://doi.org/10.1029/2010PA001940
    Details
    Publication Date: 2024-07-01
    Description: We present a species-specific Mg/Ca-calcification temperature calibration for Globorotalia inflata from a suite of 38 core top samples from the South Atlantic (from 8° to 49°S). G. inflata is a deep-dwelling planktonic foraminifer commonly occurring in subtropical to subpolar conditions, which qualifies it for reconstructions of the permanent thermocline. Apparent calcification depths and calcification temperatures were determined by comparing measured d18O with equilibrium d18O of calcite based on water column properties. Based on our core top samples, G. inflata apparent calcification depth is constant throughout the South Atlantic mid-latitudes with a depth of 350-400 m within the permanent thermocline. The resulting Mg/Ca-calcification temperature calibration is Mg/Ca = 0.72 +/-0.045/0.042 exp (0.076 +0.006 calcification 2 temperature) (r2 = 0.81) and covers the temperature range 3.1-16.5°C. We applied our Mg/Ca calibration to gravity core PS2495-3 from the Mid-Atlantic Ridge at ca. 41°S to test its validity by reconstructing a low-resolution record covering the last two glacial-interglacial cycles. Our paleotemperature record reveals large changes in temperature for Terminations I and II, when permanent thermocline temperature increased by as much as 8°C. The G. inflata paleotemperature record suggests that oceanic fronts repeatedly migrated over the location of site PS2495-3 during the last 160 kyr. This study shows the potential of G. inflata Mg/Ca to reconstruct paleotemperatures in the permanent thermocline.
    Keywords: ANT-XI/2; Ascencion Island; AWI_Paleo; Brazil Basin; Cape Basin; Center for Marine Environmental Sciences; Central South Atlantic; GeoB1216-2; GeoB1217-1; GeoB1218-1; GeoB1417-2; GeoB1728-3; GeoB2109-3; GeoB2119-2; GeoB2707-4; GeoB2715-1; GeoB2719-2; GeoB2722-2; GeoB2723-2; GeoB2726-3; GeoB2803-1; GeoB2804-2; GeoB2805-1; GeoB3807-1; GeoB3808-7; GeoB5002-2; GeoB6202-5; GeoB6205-1; GeoB6210-1; GeoB6214-5; GeoB6216-1; GeoB6217-2; GeoB6220-1; GeoB6232-1; GeoB6233-1; GeoB6234-1; GeoB6310-1; GeoB6311-2; GeoB6313-2; GeoB6314-2; GeoB6334-2; GeoB6413-4; GeoB6416-2; GeoB6908-1; GeoB6909-2; Giant box corer; GKG; Gravity corer (Kiel type); M12/1; M16/1; M20/2; M23/2; M29/1; M29/2; M34/3; M41/2; M46/2; M46/3; M46/4; M49/3; MARUM; Meteor (1986); Mid Atlantic Ridge; MUC; MultiCorer; Namibia Continental Margin; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Polarstern; Priority Programme 1158 Antarctic Research with Comparable Investigations in Arctic Sea Ice Areas; PS2495-3; PS28; PS28/293; SL; Slope off Argentina; South Atlantic; SPP1158; Uruguay continental margin; Walvis Ridge; western South Atlantic
    Type: Dataset
    Format: application/zip, 2 datasets
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  • 6
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    Physical properties of 4 cores from the Bengal Fan (2011)
    PANGAEA
    In:  Supplement to: Weber, Michael E; Wiedicke-Hombach, Michael; Kudrass, Hermann-Rudolph; Hübscher, Christian; Erlenkeuser, Helmut (1997): Active Growth of the Bengal Fan during sea-level rise and highstand. Geology, 25(4), 315-318, https://doi.org/10.1130/0091-7613(1997)025%3C0315:AGOTBF%3E2.3.CO;2
    Details
    Publication Date: 2024-07-01
    Description: New stratigraphic and high-resolution seismic data from the Bengal Fan indicate that the world's largest fan shows active growth during the most recent sea-level rise and the recent highstand. This unique phenomenon contradicts common sequence-stratigraphic models, and the sediment preserved provides new insight into the sedimentological response of a fan system to sea-level rise, climatic terminations, and monsoon intensity during the past climatic cycle. We present a detailed dated sequence of turbidite sedimentation based on a core transect perpendicular to the active channel-levee system in the upper mid-fan area. Between the two major terminations 1a (12 800 14C yr B.P.) and 1b (9700 14C yr B.P.), and especially at the end of the Younger Dryas, a 13-km-wide channel built up levees 50 m high. With decreasing sediment supply, continued sea-level rise, and increasing monsoon intensity during the early Holocene, turbidity currents were confined to the channel and gradually filled it. The canyon "Swatch of No Ground," a shelf depocenter that serves as the source for frequent turbidity currents, and the channel-levee system provide the unique opportunity for studying an active highstand system. Many fans showed this behavior only during lowered sea-level.
    Keywords: Bay of Bengal; BENGAL FAN; KL; Piston corer (BGR type); SO93/3; SO93/3_117KL; SO93/3_118KL; SO93/3_119KL; SO93/3_120KL; Sonne
    Type: Dataset
    Format: application/zip, 4 datasets
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  • 7
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    Chemistry of sediment cores of POSEIDON cruise POS392 (2011)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Description: Measurements of geochemical parameters in Bornholm Basin sediment cores, Poseidon cruise P392.
    Keywords: 373860; 373860-2RL; 373860-4RL; 373870; 373870-2RL; 373870-4RL; 373870-6GC; 373880; 373880-2RL; 373880-4RL; 373880-6GC; 373900; 373900-2RL; 373900-4GC; 373920; 373920-2RL; 373920-4GC; 373940; 373940-2RL; 373940-4GC; 373950; 373950-2RL; 373950-4RL; 373950-6GC; 373960; 373960-2RL; 373960-4RL; 373960-6GC; 374050; 374050-2RL; 374050-3RL; 374050-5GC; 374060; 374060-2RL; 374070; 374070-2RL; 374080; 374080-2RL; 374090; 374090-2RL; 374100; 374100-2RL; 374110; 374110-1RL; 374130; 374130-1RL; 374140; 374140-1RL; 374170; 374170-2RL; 374170-4RL; 374170-6GC; 374175; 374175-1RL; 374175-3RL; 374175-5GC; 374180; 374180-2RL; 374180-4RL; 374180-6GC; 374190; 374190-2RL; 374190-4RL; 374190-6GC; 374200; 374200-2RL; 374200-4RL; 374200-6GC; 374280; 374280-2RL; 374290; 374290-2RL; 374300; 374300-2RL; 374320; 374320-2RL; 374330; 374330-1RL; 374380; 374380-2RL; 374380-4RL; 374380-6GC; 374390; 374390-2RL; 374390-4RL; 374390-6GC; 374400; 374400-2RL; 374400-4RL; 374400-6GC; 374410; 374410-2RL; 374420; 374420-3RL; 374430; 374430-2RL; 374450; 374450-2RL; Arkona Basinn; BALTIC Gas; BALTIC-GAS; Baltic Sea, Mecklenburg Bay; Baltic Sea, Stolpe Channel and Fore Delta; Bornholm Basin; GC; Gotland Basin; Gravity corer; Methane emission in the Baltic Sea; POS392; Poseidon; RL; Rumohr-Lot
    Type: Dataset
    Format: application/zip, 64 datasets
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  • 8
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    Beryllium 7 measured during POLARSTERN cruise ARK-XXII/2 (2011)
    PANGAEA
    In:  Supplement to: Cámara-Mor, Patricia; Masqué, Pere; García-Orellana, Jordi; Kern, Stefan; Cochran, J Kirk; Hanfland, Claudia (2011): Interception of atmospheric fluxes by Arctic sea ice: Evidence from cosmogenic 7Be. Journal of Geophysical Research: Oceans, 116, C12041, https://doi.org/10.1029/2010JC006847
    Details
    Publication Date: 2024-07-01
    Description: The natural cosmogenic radionuclide 7Be (T1/2 = 53.4 d) is supplied to the surface ocean from the atmosphere and, in the Arctic Ocean, can be used as a tracer of the efficiency with which sea ice intercepts the atmospheric fluxes of chemical species and of the importance of ice as a transport mechanism for particulate matter and chemical species. Analyses of 7Be in samples of surface water, surface sea ice, water beneath the ice, sea ice sediments, and precipitation from the Eurasian Basin of the Arctic Ocean show that the fraction of sea ice coverage determines the amount of 7Be in the surface water. When sea ice coverage is 〈40%, the 7Be inventory in the upper ocean (130 ± 19 Bq m**-2) is in good agreement with that expected from the inventory from 7Be atmospheric flux (128 ± 21 Bq m**-2). In contrast, when ice coverage is 〉80%, the water column inventory drops to 58 ± 20 Bq m**-2. The 7Be inventory in sea ice is 39 ± 23 Bq m**-2, and mass balance calculations show that sea ice can intercept 30 ± 18% of the atmospheric flux of 7Be during the studied period. We suggest that other atmospherically transported contaminants should be similarly intercepted. 7Be in the ice also can be used to estimate that the annual transport and release of sediment to the ablation area of the Fram Strait is -500 g m**-2, a value comparable to previously measured fluxes in sediment traps deployed in the area.
    Keywords: Arctic Ocean; ARK-XXII/2; CT; GEOTRACES; Global marine biogeochemical cycles of trace elements and their isotopes; Polarstern; PS70/2-track; PS70 SPACE DAMOCLES; Underway cruise track measurements
    Type: Dataset
    Format: application/zip, 5 datasets
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  • 9
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    Sedimentology on various cores from the South Atlantic (2011)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Keywords: Agulhas Basin; Agulhas Ridge; America Antarctic Ridge; ANT-IX/3; ANT-IX/4; ANT-VI/3; ANT-VIII/3; ANT-X/4; ANT-X/5; ANT-X/6; ANT-XI/2; ANT-XI/4; ANT-XII/4; Atka Bay; Atlantic Indik Ridge; Atlantic Ridge; AWI_Paleo; Cape Basin; Conrad Rise; Cosmonauts Sea; CTD/Rosette; CTD-RO; Falkland Islands; Filchner Trough; Giant box corer; Giant gravity corer AWI; GKG; Gravity corer (Kiel type); GSL; Halley Bay; Indian-Antarctic Ridge; Islas Orcadas; KAL; Kapp Norvegia; Kasten corer; KL; Lazarev Sea; Maud Rise; Meteor Rise; MG; MIC; MiniCorer; MUC; Multiboxcorer; MultiCorer; Paleoenvironmental Reconstructions from Marine Sediments @ AWI; Piston corer (BGR type); Polarstern; PS12; PS12/336; PS12/338; PS12/344; PS12/348; PS12/352; PS12/364; PS12/374; PS12/380; PS12/382; PS12/458; PS12/472; PS12/486; PS12/490; PS12/545; PS12/551; PS12/553; PS12/555; PS12/557; PS16; PS16/267; PS16/271; PS16/278; PS16/281; PS16/284; PS16/294; PS16/303; PS16/306; PS16/311; PS16/316; PS16/321; PS16/323; PS16/329; PS16/334; PS16/337; PS16/342; PS16/345; PS16/351; PS16/354; PS16/362; PS16/372; PS1605-3; PS1606-1; PS1609-2; PS1611-1; PS1613-2; PS1618-1; PS1622-1; PS1625-1; PS1626-1; PS1635-2; PS1637-1; PS1638-1; PS1639-1; PS1649-1; PS1649-2; PS1651-2; PS1652-2; PS1653-2; PS1654-1; PS1751-2; PS1752-5; PS1754-2; PS1755-1; PS1756-6; PS1759-1; PS1764-2; PS1765-1; PS1765-2; PS1768-1; PS1771-4; PS1772-6; PS1773-2; PS1774-1; PS1775-5; PS1776-6; PS1777-7; PS1778-1; PS1779-3; PS1780-1; PS1782-5; PS1782-6; PS1786-2; PS18; PS18/227; PS18/229; PS18/236; PS18/237; PS18/238; PS18/243; PS18/244; PS18/249; PS18/250; PS18/251; PS18/252; PS18/253; PS18/254; PS18/255; PS18/256; PS18/257; PS18/261; PS18/262; PS18/263; PS18/266; PS18/267; PS2072-2; PS2073-1; PS2080-1; PS2081-1; PS2082-1; PS2086-3; PS2087-1; PS2091-1; PS2092-1; PS2093-1; PS2094-1; PS2095-1; PS2096-1; PS2097-1; PS2098-1; PS2099-1; PS2103-2; PS2104-1; PS2105-2; PS21 06AQANTX_4; PS2108-1; PS2109-3; PS22; PS22/678; PS22/718; PS22/730; PS22/747; PS22/748; PS22/755; PS22/758; PS22/780; PS22/783; PS22/786; PS22/802; PS22/803; PS22/804; PS22/805; PS22/806; PS22/811; PS22/812; PS22/813; PS22/814; PS22/815; PS22/823; PS22/825; PS22/826; PS22/828; PS22/829; PS22/830; PS22/831; PS22/832; PS22/833; PS22/834; PS22/835; PS22/837; PS22/838; PS22/840; PS22/846; PS22/849; PS22/850; PS22/851; PS22/852; PS22/853; PS22/855; PS22/857; PS22/872; PS22/876; PS22/879; PS22/886; PS22/891; PS22/899; PS22/902; PS22/908; PS22/911; PS22/917; PS22/941; PS22/947; PS22/956; PS22/973; PS22 06AQANTX_5; PS2230-1; PS2231-1; PS2233-1; PS2234-1; PS2235-1; PS2237-1; PS2238-1; PS2239-1; PS2240-1; PS2241-1; PS2242-1; PS2243-1; PS2244-1; PS2245-1; PS2246-1; PS2247-1; PS2248-1; PS2250-6; PS2260-1; PS2266-1; PS2269-5; PS2270-5; PS2272-1; PS2273-1; PS2283-6; PS2285-3; PS2288-1; PS2304-2; PS2305-1; PS2306-1; PS2307-2; PS2308-1; PS2313-1; PS2314-1; PS2315-1; PS2316-1; PS2317-1; PS2325-1; PS2327-1; PS2328-1; PS2329-1; PS2330-1; PS2331-1; PS2332-2; PS2333-1; PS2334-1; PS2335-4; PS2336-1; PS2338-1; PS2339-1; PS2341-1; PS2347-1; PS2350-1; PS2351-1; PS2352-1; PS2353-2; PS2354-1; PS2355-1; PS2356-1; PS2361-1; PS2362-1; PS2363-1; PS2364-1; PS2365-2; PS2366-1; PS2367-1; PS2368-4; PS2369-4; PS2370-4; PS2371-1; PS2372-1; PS2374-2; PS2376-1; PS2487-2; PS2488-1; PS2489-4; PS2489-7; PS2491-5; PS2492-1; PS2493-3; PS2494-1; PS2495-1; PS2496-2; PS2498-1; PS2498-2; PS2499-1; PS2499-5; PS2501-4; PS2502-1; PS2503-1; PS2505-2; PS2506-1; PS2507-1; PS2508-1; PS2509-2; PS2511-3; PS2512-1; PS2513-1; PS2514-3; PS2515-2; PS2516-1; PS2517-5; PS2518-2; PS2519-1; PS2520-1; PS2557-1; PS2557-2; PS2560-3; PS2561-1; PS2562-1; PS2563-3; PS2564-2; PS2564-3; PS2565-2; PS2567-1; PS2568-3; PS2569-1; PS2570-1; PS2571-1; PS2572-1; PS2574-1; PS2575-1; PS2576-1; PS2577-2; PS2579-1; PS2580-1; PS2581-1; PS2582-1; PS2583-1; PS2587-1; PS2588-2; PS2589-2; PS2598-1; PS2599-1; PS2600-2; PS2601-1; PS2602-3; PS2603-1; PS2603-3; PS2604-4; PS2605-1; PS2606-3; PS2606-6; PS2609-1; PS2609-2; PS2610-1; PS2611-2; PS2657-1; PS2659-2; PS2661-4; PS2663-4; PS2664-4; PS2667-3; PS2668-1; PS2675-4; PS2676-1; PS2677-4; PS2678-2; PS2679-1; PS2680-4; PS2684-1; PS2686-2; PS2687-5; PS2688-4; PS2691-1; PS2692-1; PS2694-1; PS2695-1; PS2696-4; PS2697-1; PS2699-5; PS2700-5; PS2701-2; PS2714-6; PS2715-3; PS2716-2; PS28; PS28/236; PS28/243; PS28/256; PS28/264; PS28/277; PS28/280; PS28/289; PS28/293; PS28/298; PS28/304; PS28/314; PS28/329; PS28/334; PS28/337; PS28/342; PS28/345; PS28/347; PS28/350; PS28/352; PS28/361; PS28/367; PS28/373; PS28/375; PS28/378; PS28/385; PS28/390; PS28/395; PS28/404; PS28/408; PS30; PS30/004; PS30/023; PS30/030; PS30/038; PS30/043; PS30/048; PS30/051; PS30/097; PS30/104; PS30/105; PS30/106; PS30/107; PS30/108; PS30/110; PS30/111; PS30/112; PS30/113; PS30/115; PS30/116; PS30/117; PS30/118; PS30/119; PS30/126; PS30/127; PS30/128; PS30/136; PS30/137; PS30/138; PS30/139; PS30/140; PS30/141; PS30/143; PS30/144; PS30/147; PS30/155; PS30/156; PS35/003; PS35/009; PS35/021; PS35/031; PS35/032; PS35/047; PS35/048; PS35/055; PS35/056; PS35/058; PS35/060; PS35/062; PS35/069; PS35/103; PS35/135; PS35/138; PS35/141; PS35/152; PS35/154; PS35/157; PS35/158; PS35/162; PS35/166; PS35/177; PS35/182; PS35/186; PS35/207b; PS35/210; PS35/218; PS35 06AQANTXII_4; Riiser-Larsen Sea; Scotia Sea, southwest Atlantic; Shona Ridge; Silicon Cycling in the World Ocean; SINOPS; SL; South Atlantic; South Atlantic Ocean; Southeast Pacific; South Indian Ridge, South Indian Ocean; South Sandwich; South Sandwich Basin; South Sandwich Trough; Weddell Sea
    Type: Dataset
    Format: application/zip, 12 datasets
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  • 10
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    Radiocarbon, stable isotopic compositions and seawater chemical properties of Black Sea core-top sediments and CTD stations (2011)
    PANGAEA
    Details
    Publication Date: 2024-07-01
    Description: Chloropigments and their derivative pheopigments preserved in sediments can directly be linked to photosynthesis. Their carbon and nitrogen stable isotopic compositions have been shown to be a good recorder of recent and past surface ocean environmental conditions tracing the carbon and nitrogen sources and dominant assimilation processes of the phytoplanktonic community. In this study we report results from combined compound-specific radiocarbon and stable carbon and nitrogen isotope analysis to examine the time-scales of synthesis and fate of chlorophyll-a and its degradation products pheophytin-a, pyropheophytin-a, and 132,173-cyclopheophorbide-a-enol until burial in Black Sea core-top sediments. The pigments are mainly of marine phytoplanktonic origin as implied by their stable isotopic compositions. Pigment ?15N values indicate nitrate as the major uptake substrate but 15N-depletion towards the open marine setting indicates either contribution from N2-fixation or direct uptake of ammonium from deeper waters. Radiocarbon concentrations translate into minimum and maximum pigment ages of approximately 40 to 1200 years. This implies that protective mechanisms against decomposition such as association with minerals, storage in deltaic anoxic environments, or eutrophication-induced hypoxia and light limitation are much more efficient than previously thought. Moreover, seasonal variations of nutrient source, growth period, and habitat and their associated isotopic variability are likely at least as strong as long-term trends. Combined triple isotope analysis of sedimentary chlorophyll and its primary derivatives is a powerful tool to delineate biogeochemical and diagenetic processes in the surface water and sediments, and to assess their precise time-scales.
    Keywords: 120_DD7; 169_DP2; Black Sea; Center for Marine Environmental Sciences; CTD/Rosette; CTD-RO; MARUM; MUC; MultiCorer; NW Black Sea; P120; P128; P167; P169; P177; POS363; POS363_120-2; POS363_120-5; POS363_128-15; POS363_128-18; POS363_167-5; POS363_167-CTD; POS363_169-1; POS363_169-4; POS363_177-10; POS363_177-11; Poseidon
    Type: Dataset
    Format: application/zip, 4 datasets
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