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  • 1
    Online Resource
    Online Resource
    Report and preliminary results of R/V POSEIDON cruise POS539, Varna (Bulgaria) - Varna (Bulgaria) November 6 - November 21, 2019 (2020)
    Bremen : MARUM - Zentrum für Marine Umweltwissenschaften, Fachbereich Geowissenschaften, Universität Bremen
    Details Availability
    Keywords: Black Sea ; biogeochemistry ; paleoceanography ; microbiology ; polysaccharides ; greenhouse gases ; nitrification ; Forschungsbericht
    Description / Table of Contents: The R/V POSEIDON cruise POS539 took place in the northwestern basin of the Black Sea (42°30’N to 44°N and 29°E to 31°E). The overarching aim of the campaign was to obtain sediment and water samples, including suspended particle material, from the various redox zones of the Black Sea. The campaign lasted between November 6th and November 21st 2019 and the collected samples were taken in order to investigate the activity and physiology of microorganisms involved in the conversion of nitrogen compounds and degradation of organic carbon under various oxygen conditions. The main topics of the cruise were: (a) to quantify the contribution of archaeal nitrifiers to the nitrogen and carbon cycles, b) to measure the production and consumption of the powerful greenhouse gases CH4 and N2O, c) to record palaeoenvironmental changes in high resolution, and d) to describe the complexity and identity of biopolymers. For this, water and sediment samples were retrieved from 10 discrete shelf and slope stations. First, ‘deep water’ transect was conducted, which included three stations with water depths over 2000 m. The second perpendicular transect encompassed stations that gradually transitioned from the deep parts of the slope towards the shelf (ca. 80 m depth). Additionally, two stations were setup north and south of the shelf transect, respectively, for paleoceanographic studies. Throughout the cruise the weather conditions were overwhelmingly good, only towards the end of the campaign gusty winds of 7 Bft were recorded. The recorded oceanographic conditions were in agreement with the expected water properties at all stations. Station activities were completed on November 20th at 14:00 local board time. On November 21st at 10:30 local time, R/V POSEIDON reached the port of Varna, Bulgaria, thus concluding the POS539 expedition. Analyses and results from the samples and experiments will provide a basis for our understanding of the microbial control on the carbon and nitrogen cycle of the Black Sea.
    Type of Medium: Online Resource
    Pages: 1 Online-Ressource (34 Seiten)
    Series Statement: Berichte aus dem MARUM und dem Fachbereich Geowissenschaften der Universität Bremen No. 325
    URL: http://dx.doi.org/10.26092/elib/349
    URL: https://nbn-resolving.org/urn:nbn:de:gbv:46-elib45525
    URL: https://d-nb.info/122252483X/34
    URN: urn:nbn:de:gbv:46-elib45525
    DOI: 10.26092/elib/349
    DDC: 551.461
    Language: English
    Location Call Number Limitation Availability
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  • 2
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    Ideas and perspectives: A strategic assessment of methane and nitrous oxide measurements in the marine environment (2020)
    Copernicus Publications (EGU)
    Details
    Publication Date: 2023-02-08
    Description: In the current era of rapid climate change, accurate characterization of climate-relevant gas dynamics-namely production, consumption, and net emissions-is required for all biomes, especially those ecosystems most susceptible to the impact of change. Marine environments include regions that act as net sources or sinks for numerous climateactive trace gases including methane (CH4) and nitrous oxide (N2O). The temporal and spatial distributions of CH4 and N2O are controlled by the interaction of complex biogeochemical and physical processes. To evaluate and quantify how these mechanisms affect marine CH4 and N2O cycling requires a combination of traditional scientific disciplines including oceanography, microbiology, and numerical modeling. Fundamental to these efforts is ensuring that the datasets produced by independent scientists are comparable and interoperable. Equally critical is transparent communication within the research community about the technical improvements required to increase our collective understanding of marine CH4 and N2O. A workshop sponsored by Ocean Carbon and Biogeochemistry (OCB) was organized to enhance dialogue and collaborations pertaining to marine CH4 and N2O. Here, we summarize the outcomes from the workshop to describe the challenges and opportunities for near-future CH4 and N2O research in the marine environment.
    Type: Article , PeerReviewed
    Format: text
    Format: video
    Location Call Number Limitation Availability
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    OceanRep: Article in a Scientific Journal - peer-reviewed
  • 3
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    Small sinking particles control anammox rates in the Peruvian oxygen minimum zone (2021)
    Nature Research
    Details
    Publication Date: 2024-02-07
    Description: Anaerobic oxidation of ammonium (anammox) in oxygen minimum zones (OMZs) is a major pathway of oceanic nitrogen loss. Ammonium released from sinking particles has been suggested to fuel this process. During cruises to the Peruvian OMZ in April–June 2017 we found that anammox rates are strongly correlated with the volume of small particles (128–512 µm), even though anammox bacteria were not directly associated with particles. This suggests that the relationship between anammox rates and particles is related to the ammonium released from particles by remineralization. To investigate this, ammonium release from particles was modelled and theoretical encounters of free-living anammox bacteria with ammonium in the particle boundary layer were calculated. These results indicated that small sinking particles could be responsible for ~75% of ammonium release in anoxic waters and that free-living anammox bacteria frequently encounter ammonium in the vicinity of smaller particles. This indicates a so far underestimated role of abundant, slow-sinking small particles in controlling oceanic nutrient budgets, and furthermore implies that observations of the volume of small particles could be used to estimate N-loss across large areas.
    Type: Article , PeerReviewed
    Format: text
    Location Call Number Limitation Availability
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    OceanRep: Article in a Scientific Journal - peer-reviewed
  • 4
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    The DynaDeep observatory – a unique approach to study high-energy subterranean estuaries (2023)
    Frontiers
    Details
    Publication Date: 2024-02-14
    Description: Subterranean estuaries are connective zones between inland aquifers and the open sea where terrestrial freshwater and circulating seawater mix and undergo major biogeochemical changes. They are biogeochemical reactors that modify groundwater chemistry prior to discharge into the sea. We propose that subterranean estuaries of high-energy beaches are particularly dynamic environments, where the effect of the dynamic boundary conditions propagates tens of meters into the subsurface, leading to strong spatio-temporal variability of geochemical conditions. We hypothesize that they form a unique habitat with an adapted microbial community unlike other typically more stable subsurface environments. So far, however, studies concerning subterranean estuaries of high-energy beaches have been rare and therefore their functioning, and their importance for coastal ecosystems, as well as for carbon, nutrient and trace element cycling, is little understood. We are addressing this knowledge gap within the interdisciplinary research project DynaDeep by studying the combined effect of surface (hydro- and morphodynamics) on subsurface processes (groundwater flow and transport, biogeochemical reactions, microbiology). A unique subterranean estuary observatory was established on the northern beach of the island of Spiekeroog facing the North Sea, serving as an exemplary high-energy research site and model system. It consists of fixed and permanent infrastructure such as a pole with measuring devices, multi-level groundwater wells and an electrode chain. This forms the base for autonomous measurements, regular repeated sampling, interdisciplinary field campaigns and experimental work, all of which are integrated via mathematical modelling to understand and quantify the functioning of the biogeochemical reactor. First results show that the DynaDeep observatory is collecting the intended spatially and temporally resolved morphological, sedimentological and biogeochemical data. Samples and data are further processed ex-situ and combined with experiments and modelling. Ultimately, DynaDeep aims at elucidating the global relevance of these common but overlooked environments.
    Type: Article , PeerReviewed
    Format: text
    Format: video
    Format: image
    Location Call Number Limitation Availability
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    OceanRep: Article in a Scientific Journal - peer-reviewed
  • 5
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    Carbon and nitrogen turnover during an in situ experiment with addition of Thalassiosira sp. and E. huxleyi phytodetritus at AWI-HAUSGARTEN S2 in 2013 (2018)
    PANGAEA
    In:  Supplement to: Braeckman, Ulrike; Janssen, Felix; Lavik, Gaute; Elvert, Marcus; Marchant, Hannah K; Buckner, Caroline; Bienhold, Christina; Wenzhöfer, Frank (2018): Carbon and nitrogen turnover in the Arctic deep sea: in situ benthic community response to diatom and coccolithophorid phytodetritus. Biogeosciences, 15(21), 6537-6557, https://doi.org/10.5194/bg-15-6537-2018
    Details
    Publication Date: 2023-03-16
    Description: This is a dataset from an in situ experiment at station S2 from the LTER monitoring site HAUSGARTEN, performed in June-July 2013 during Maria S Merian expedition MSM29. The in situ responses of Arctic deep-sea benthos to input of phytodetritus of a diatom (Thalassiosira sp.) as opposed to a coccolithophorid (Emiliania huxleyi) were investigated in incubation chambers of benthic landers. Using 13C and 15N labelled phytodetritus harvested from cultures of these species, we traced the fate of the respective phytodetritus into different parts of the food web (respiration, assimilation by bacteria and infauna 〉250 µm), in a short (4d) and long (14d) term experiment. The benthic landers were lowered to the sea floor, where they enclosed ~ 20cm of sediment and ~10 cm of overlying water. During respectively 4d and 14d, the temperature and concentrations of O2, DIC, 13C-DIC, NHx, NOx, 15N-NH4, 15N-NOx were measured. Upon recovery of the landers, the sediment was retrieved and subsampled in vertical horizons to measure pigment, TOC and TN, 13C-POC and 15N-PN concentrations, pore water concentrations of DIC, 13C-DIC, NHx, NOx, 15N-NH4 and 15N-NOx and the assimilation of 13C in bacterial fatty acids (iC15:0 and aiC15:0) and in fauna 〉 250 µm
    Keywords: Hausgarten; Long-term Investigation at AWI-Hausgarten off Svalbard
    Type: Dataset
    Format: application/zip, 10 datasets
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 6
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    (Table S4) Seasonal oxygen, nutrient, Mn, and Fe data for intertidal pore waters and adjacent seawater of Spiekeroog Island North Beach (Germany) (2019)
    PANGAEA
    Details
    Publication Date: 2023-01-30
    Keywords: ammonium; Ammonium; Calculated; Calculated: NOx - NO2; Calulated: NOx + NH4; Coastal section; Conductivity probe with integrated temperature sensor; CSEC; DATE/TIME; DEPTH, water; DGPS; estimated for North Beach Seawater; Event label; Flow through cell; optical measurement (PyroScience); High Energy Beach; iron; Iron; LATITUDE; LONGITUDE; manganese; Manganese; Mass spectrometry; nitrate; Nitrate; Nitrate and Nitrite; nitrite; Nitrite; Nitrogen, inorganic, dissolved; North Sea; Oxygen; Photometric; Salinity; Spiekeroog_S4_NBSW-01; Spiekeroog_S4_NBSW-02; Spiekeroog_S4_NBSW-03; Spiekeroog, German Bight, North Sea; Station label; subterranean estuary; Temperature, water; Transect; UTM Easting, Universal Transverse Mercator; UTM Northing, Universal Transverse Mercator
    Type: Dataset
    Format: text/tab-separated-values, 44 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 7
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    (Table S5) Seasonal oxygen, nutrient, Mn, and Fe data for intertidal pore waters and adjacent seawater of Spiekeroog Island North Beach (Germany) (2019)
    PANGAEA
    Details
    Publication Date: 2023-01-30
    Keywords: ammonium; Ammonium; Calculated: NOx - NO2; Coastal section; CSEC; DATE/TIME; DGPS; estimated for North Beach Seawater; Event label; High Energy Beach; iron; LATITUDE; LONGITUDE; manganese; nitrate; Nitrate; Nitrate and Nitrite; nitrite; Nitrite; North Sea; Photometric; Silicon; Spiekeroog_S5-01; Spiekeroog_S5-02; Spiekeroog_S5-03; Spiekeroog_S5-04; Spiekeroog_S5-05; Spiekeroog_S5-06; Spiekeroog_S5-07; Spiekeroog_S5-08; Spiekeroog_S5-09; Spiekeroog_S5-10; Spiekeroog_S5-11; Spiekeroog_S5-12; Spiekeroog_S5-13; Spiekeroog_S5-14; Spiekeroog_S5-15; Spiekeroog_S5-16; Spiekeroog_S5-17; Spiekeroog_S5-18; Spiekeroog_S5-19; Spiekeroog_S5-20; Spiekeroog_S5-21; Spiekeroog_S5-22; Spiekeroog_S5-23; Spiekeroog_S5-24; Spiekeroog_S5-25; Spiekeroog_S5-26; Spiekeroog_S5-27; Spiekeroog_S5-28; Spiekeroog_S5-29; Spiekeroog_S5-30; Spiekeroog_S5-31; Spiekeroog_S5-32; Spiekeroog_S5-33; Spiekeroog_S5-34; Spiekeroog_S5-35; Spiekeroog_S5-36; Spiekeroog_S5-37; Spiekeroog_S5-38; Spiekeroog_S5-39; Spiekeroog_S5-40; Spiekeroog_S5-41; Spiekeroog_S5-42; Spiekeroog_S5-43; Spiekeroog, German Bight, North Sea; Station label; subterranean estuary; UTM Easting, Universal Transverse Mercator; UTM Northing, Universal Transverse Mercator
    Type: Dataset
    Format: text/tab-separated-values, 391 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 8
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    (Table S3) Seasonal oxygen, nutrient, Mn, and Fe data for intertidal pore waters and adjacent seawater of Spiekeroog Island North Beach (Germany) (2019)
    PANGAEA
    Details
    Publication Date: 2023-02-07
    Keywords: ammonium; Ammonium; Calculated; Calculated: DGPS surface elevation - depth below sediment surface; Calculated: NOx - NO2; Calulated: NOx + NH4; Coastal section; Conductivity probe; Conductivity probe with integrated temperature sensor; CSEC; DATE/TIME; DEPTH, sediment/rock; DGPS; estimated for North Beach Seawater; ELEVATION; Event label; Flow through cell; optical measurement (PyroScience); High Energy Beach; iron; Iron; LATITUDE; LONGITUDE; manganese; Manganese; Mass spectrometry; nitrate; Nitrate; Nitrate and Nitrite; nitrite; Nitrite; Nitrogen, inorganic, dissolved; North Sea; Oxygen; Photometric; POINT DISTANCE from start; Salinity; Spiekeroog_S3_Grid100-401; Spiekeroog_S3_Grid100-403; Spiekeroog_S3_Grid100-405; Spiekeroog_S3_Grid100-407; Spiekeroog_S3_Grid100-409; Spiekeroog_S3_Grid100-411; Spiekeroog_S3_Grid100-413; Spiekeroog_S3_Grid100-415; Spiekeroog_S3_Grid100-417; Spiekeroog_S3_Grid100-419; Spiekeroog_S3_Grid100-421; Spiekeroog_S3_Grid100-427; Spiekeroog_S3_Grid100-428; Spiekeroog_S3_Grid100-443; Spiekeroog_S3_Grid100-445; Spiekeroog_S3_Grid100-447; Spiekeroog_S3_Grid100-449; Spiekeroog_S3_Grid100-451; Spiekeroog_S3_Grid100-453; Spiekeroog_S3_Grid100-455; Spiekeroog_S3_Grid100-457; Spiekeroog_S3_Grid100-459; Spiekeroog_S3_Grid100-461; Spiekeroog_S3_Grid100-463; Spiekeroog_S3_Grid100-485; Spiekeroog_S3_Grid100-487; Spiekeroog_S3_Grid100-489; Spiekeroog_S3_Grid100-491; Spiekeroog_S3_Grid100-493; Spiekeroog_S3_Grid100-495; Spiekeroog_S3_Grid100-504; Spiekeroog_S3_Grid100-506; Spiekeroog_S3_Grid100-508; Spiekeroog_S3_Grid100-509; Spiekeroog_S3_Grid100-510; Spiekeroog_S3_Grid100-511; Spiekeroog_S3_Grid100-512; Spiekeroog_S3_Grid100-514; Spiekeroog_S3_Grid100-516; Spiekeroog_S3_Grid100-517; Spiekeroog_S3_Grid100-518; Spiekeroog_S3_Grid100-519; Spiekeroog_S3_Grid100-520; Spiekeroog_S3_Grid100-521; Spiekeroog_S3_Grid100-522; Spiekeroog_S3_Grid100-523; Spiekeroog_S3_Grid100-524; Spiekeroog_S3_Grid100-525; Spiekeroog_S3_Grid100-526; Spiekeroog_S3_Grid100-527; Spiekeroog_S3_Grid100-528; Spiekeroog_S3_Grid100-529; Spiekeroog_S3_Grid100-530; Spiekeroog_S3_Grid100-531; Spiekeroog_S3_Grid100-532; Spiekeroog_S3_Grid100-533; Spiekeroog_S3_Grid100-534; Spiekeroog_S3_Grid100-535; Spiekeroog_S3_Grid100-536; Spiekeroog_S3_Grid100-537; Spiekeroog_S3_Grid100-538; Spiekeroog_S3_Grid100-539; Spiekeroog_S3_Grid100-540; Spiekeroog_S3_Grid100-541; Spiekeroog_S3_Grid100-542; Spiekeroog_S3_Grid100-543; Spiekeroog_S3_Grid100-544; Spiekeroog_S3_Grid100-545; Spiekeroog_S3_Grid100-546; Spiekeroog_S3_Grid100-547; Spiekeroog_S3_Grid100-548; Spiekeroog_S3_Grid100-552; Spiekeroog_S3_Grid100-553; Spiekeroog_S3_Grid100-554; Spiekeroog_S3_Grid100-555; Spiekeroog_S3_Grid100-556; Spiekeroog_S3_Grid100-557; Spiekeroog_S3_Grid100-558; Spiekeroog_S3_Grid100-559; Spiekeroog_S3_Grid100-560; Spiekeroog_S3_Grid100-561; Spiekeroog_S3_Grid100-562; Spiekeroog_S3_Grid100-563; Spiekeroog_S3_Grid100-564; Spiekeroog_S3_Grid100-565; Spiekeroog_S3_Grid100-567; Spiekeroog_S3_Grid100-568; Spiekeroog_S3_Grid100-569; Spiekeroog_S3_Grid100-570; Spiekeroog_S3_Grid100-571; Spiekeroog_S3_Grid100-572; Spiekeroog_S3_Grid100-573-1; Spiekeroog_S3_Grid100-573-2; Spiekeroog_S3_Grid100-574; Spiekeroog_S3_Grid100-575; Spiekeroog_S3_Grid100-576; Spiekeroog_S3_Grid100-577; Spiekeroog_S3_Grid100-578; Spiekeroog_S3_Grid100-579; Spiekeroog_S3_Grid100-580; Spiekeroog_S3_Grid100-581; Spiekeroog_S3_Grid100-582; Spiekeroog_S3_Grid100-583; Spiekeroog_S3_Grid100-584; Spiekeroog_S3_Grid100-585; Spiekeroog_S3_Grid100-586; Spiekeroog_S3_Grid100-587; Spiekeroog_S3_Grid100-588; Spiekeroog_S3_Grid100-589; Spiekeroog_S3_Grid100-590; Spiekeroog_S3_Grid100-599; Spiekeroog_S3_Grid50-401; Spiekeroog_S3_Grid50-403; Spiekeroog_S3_Grid50-405; Spiekeroog_S3_Grid50-407; Spiekeroog_S3_Grid50-409; Spiekeroog_S3_Grid50-411; Spiekeroog_S3_Grid50-413; Spiekeroog_S3_Grid50-415; Spiekeroog_S3_Grid50-417; Spiekeroog_S3_Grid50-419; Spiekeroog_S3_Grid50-421; Spiekeroog_S3_Grid50-427; Spiekeroog_S3_Grid50-428; Spiekeroog_S3_Grid50-443; Spiekeroog_S3_Grid50-445; Spiekeroog_S3_Grid50-447; Spiekeroog_S3_Grid50-449; Spiekeroog_S3_Grid50-451; Spiekeroog_S3_Grid50-453; Spiekeroog_S3_Grid50-455; Spiekeroog_S3_Grid50-457; Spiekeroog_S3_Grid50-459; Spiekeroog_S3_Grid50-461; Spiekeroog_S3_Grid50-463; Spiekeroog_S3_Grid50-485; Spiekeroog_S3_Grid50-487; Spiekeroog_S3_Grid50-489; Spiekeroog_S3_Grid50-491; Spiekeroog_S3_Grid50-493; Spiekeroog_S3_Grid50-495; Spiekeroog_S3_Grid50-504; Spiekeroog_S3_Grid50-506; Spiekeroog_S3_Grid50-508; Spiekeroog_S3_Grid50-509; Spiekeroog_S3_Grid50-510; Spiekeroog_S3_Grid50-511; Spiekeroog_S3_Grid50-512; Spiekeroog_S3_Grid50-514; Spiekeroog_S3_Grid50-516; Spiekeroog_S3_Grid50-517; Spiekeroog_S3_Grid50-518; Spiekeroog_S3_Grid50-519; Spiekeroog_S3_Grid50-520; Spiekeroog_S3_Grid50-521; Spiekeroog_S3_Grid50-522; Spiekeroog_S3_Grid50-523; Spiekeroog_S3_Grid50-524; Spiekeroog_S3_Grid50-525; Spiekeroog_S3_Grid50-526; Spiekeroog_S3_Grid50-527; Spiekeroog_S3_Grid50-528; Spiekeroog_S3_Grid50-529; Spiekeroog_S3_Grid50-530; Spiekeroog_S3_Grid50-531; Spiekeroog_S3_Grid50-532; Spiekeroog_S3_Grid50-533; Spiekeroog_S3_Grid50-534; Spiekeroog_S3_Grid50-535; Spiekeroog_S3_Grid50-536; Spiekeroog_S3_Grid50-537; Spiekeroog_S3_Grid50-538; Spiekeroog_S3_Grid50-539; Spiekeroog_S3_Grid50-540; Spiekeroog_S3_Grid50-541; Spiekeroog_S3_Grid50-542; Spiekeroog_S3_Grid50-543; Spiekeroog_S3_Grid50-544; Spiekeroog_S3_Grid50-545; Spiekeroog_S3_Grid50-546; Spiekeroog_S3_Grid50-547; Spiekeroog_S3_Grid50-548; Spiekeroog_S3_Grid50-552; Spiekeroog_S3_Grid50-553; Spiekeroog_S3_Grid50-554; Spiekeroog_S3_Grid50-555; Spiekeroog_S3_Grid50-556; Spiekeroog_S3_Grid50-557; Spiekeroog_S3_Grid50-558; Spiekeroog_S3_Grid50-559; Spiekeroog_S3_Grid50-560; Spiekeroog_S3_Grid50-561; Spiekeroog_S3_Grid50-562; Spiekeroog_S3_Grid50-563; Spiekeroog_S3_Grid50-564; Spiekeroog_S3_Grid50-565; Spiekeroog_S3_Grid50-567; Spiekeroog_S3_Grid50-568; Spiekeroog_S3_Grid50-569; Spiekeroog_S3_Grid50-570; Spiekeroog_S3_Grid50-571; Spiekeroog_S3_Grid50-572; Spiekeroog_S3_Grid50-573-1; Spiekeroog_S3_Grid50-573-2; Spiekeroog_S3_Grid50-574; Spiekeroog_S3_Grid50-575; Spiekeroog_S3_Grid50-576; Spiekeroog_S3_Grid50-577; Spiekeroog_S3_Grid50-578; Spiekeroog_S3_Grid50-579; Spiekeroog_S3_Grid50-580; Spiekeroog_S3_Grid50-581; Spiekeroog_S3_Grid50-582; Spiekeroog_S3_Grid50-583; Spiekeroog_S3_Grid50-584; Spiekeroog_S3_Grid50-585; Spiekeroog_S3_Grid50-586; Spiekeroog_S3_Grid50-587; Spiekeroog_S3_Grid50-588; Spiekeroog_S3_Grid50-589; Spiekeroog_S3_Grid50-590; Spiekeroog_S3_Grid50-599; Spiekeroog_S3_T1-186; Spiekeroog_S3_T1-188; Spiekeroog_S3_T1-191; Spiekeroog_S3_T1-573; Spiekeroog_S3_T1-7; Spiekeroog_S3_T1-78; Spiekeroog_S3_T2-13; Spiekeroog_S3_T2-143; Spiekeroog_S3_T2-164; Spiekeroog_S3_T2-169; Spiekeroog_S3_T2-599; Spiekeroog_S3_T2-72; Spiekeroog_S3_THR-S1; Spiekeroog_S3_THR-S10; Spiekeroog_S3_THR-S11; Spiekeroog_S3_THR-S12; Spiekeroog_S3_THR-S13; Spiekeroog_S3_THR-S14; Spiekeroog_S3_THR-S15; Spiekeroog_S3_THR-S16; Spiekeroog_S3_THR-S17; Spiekeroog_S3_THR-S18; Spiekeroog_S3_THR-S19; Spiekeroog_S3_THR-S2; Spiekeroog_S3_THR-S20; Spiekeroog_S3_THR-S21; Spiekeroog_S3_THR-S22; Spiekeroog_S3_THR-S23; Spiekeroog_S3_THR-S24; Spiekeroog_S3_THR-S25; Spiekeroog_S3_THR-S26; Spiekeroog_S3_THR-S3; Spiekeroog_S3_THR-S4; Spiekeroog_S3_THR-S5; Spiekeroog_S3_THR-S6; Spiekeroog_S3_THR-S7; Spiekeroog_S3_THR-S8; Spiekeroog_S3_THR-S9; Spiekeroog, German Bight, North Sea; Station label; subterranean estuary; Temperature, water; Transect; UTM Easting, Universal Transverse Mercator; UTM Northing, Universal Transverse Mercator
    Type: Dataset
    Format: text/tab-separated-values, 4538 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 9
    facet.materialart.
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    (Table S2) Seasonal oxygen, nutrient, Mn, and Fe data for intertidal pore waters and adjacent seawater of Spiekeroog Island North Beach (Germany) (2019)
    PANGAEA
    Details
    Publication Date: 2023-02-08
    Keywords: ammonium; Ammonium; Calculated; Calculated: DGPS surface elevation - depth below sediment surface; Calculated: NOx - NO2; Calulated: NOx + NH4; Coastal section; Conductivity probe; Conductivity probe with integrated temperature sensor; CSEC; DATE/TIME; DEPTH, sediment/rock; DGPS; estimated for North Beach Seawater; ELEVATION; Event label; Flow through cell; optical measurement (PyroScience); High Energy Beach; iron; Iron; LATITUDE; LONGITUDE; manganese; Manganese; Mass spectrometry; nitrate; Nitrate; Nitrate and Nitrite; nitrite; Nitrite; Nitrogen, inorganic, dissolved; North Sea; Oxygen; Photometric; POINT DISTANCE from start; Salinity; Spiekeroog_S2_T1-174B; Spiekeroog_S2_T1-188; Spiekeroog_S2_T1-191; Spiekeroog_S2_T1-7; Spiekeroog_S2_T1-78; Spiekeroog_S2_T2-13; Spiekeroog_S2_T2-143; Spiekeroog_S2_T2-164; Spiekeroog_S2_T2-169; Spiekeroog_S2_T2-72; Spiekeroog_S2_T3-210; Spiekeroog_S2_T3-229; Spiekeroog_S2_T3-230; Spiekeroog_S2_T3-249-230; Spiekeroog_S2_T3-249-231; Spiekeroog_S2_T3-249-232; Spiekeroog_S2_T3-249-233; Spiekeroog_S2_T3-270; Spiekeroog_S2_T3-291; Spiekeroog_S2_THR-12; Spiekeroog_S2_THR-15; Spiekeroog_S2_THR-18; Spiekeroog_S2_THR-21; Spiekeroog_S2_THR-24; Spiekeroog_S2_THR-27; Spiekeroog_S2_THR-3; Spiekeroog_S2_THR-30; Spiekeroog_S2_THR-33; Spiekeroog_S2_THR-36; Spiekeroog_S2_THR-39; Spiekeroog_S2_THR-42; Spiekeroog_S2_THR-45; Spiekeroog_S2_THR-48; Spiekeroog_S2_THR-51; Spiekeroog_S2_THR-57; Spiekeroog_S2_THR-6; Spiekeroog_S2_THR-9; Spiekeroog, German Bight, North Sea; Station label; subterranean estuary; Temperature, water; Transect; UTM Easting, Universal Transverse Mercator; UTM Northing, Universal Transverse Mercator
    Type: Dataset
    Format: text/tab-separated-values, 1771 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 10
    facet.materialart.
    Unknown
    (Table S1) Seasonal oxygen, nutrient, Mn, and Fe data for intertidal pore waters and adjacent seawater of Spiekeroog Island North Beach (Germany) (2019)
    PANGAEA
    Details
    Publication Date: 2023-02-08
    Keywords: ammonium; Ammonium; Calculated; Calculated: DGPS surface elevation - depth below sediment surface; Calculated: NOx - NO2; Calulated: NOx + NH4; Coastal section; Conductivity probe; Conductivity probe with integrated temperature sensor; CSEC; DATE/TIME; DEPTH, sediment/rock; DGPS; estimated for North Beach Seawater; ELEVATION; Event label; Flow through cell; optical measurement (PyroScience); High Energy Beach; iron; Iron; LATITUDE; LONGITUDE; manganese; Manganese; Mass spectrometry; nitrate; Nitrate; Nitrate and Nitrite; nitrite; Nitrite; Nitrogen, inorganic, dissolved; North Sea; Oxygen; Photometric; POINT DISTANCE from start; Salinity; Spiekeroog_S1_T1-178; Spiekeroog_S1_T1-186; Spiekeroog_S1_T1-188; Spiekeroog_S1_T1-191; Spiekeroog_S1_T1-7; Spiekeroog_S1_T1-78; Spiekeroog_S1_T1E-186; Spiekeroog_S1_T1E-188; Spiekeroog_S1_T1E-191; Spiekeroog_S1_T1E-7; Spiekeroog_S1_T1E-78; Spiekeroog_S1_T1W-186; Spiekeroog_S1_T1W-188; Spiekeroog_S1_T1W-191; Spiekeroog_S1_T1W-7; Spiekeroog_S1_T1W-78; Spiekeroog_S1_T2-13; Spiekeroog_S1_T2-143; Spiekeroog_S1_T2-162; Spiekeroog_S1_T2-164; Spiekeroog_S1_T2-169; Spiekeroog_S1_T2-72; Spiekeroog, German Bight, North Sea; Station label; subterranean estuary; Temperature, water; Transect; UTM Easting, Universal Transverse Mercator; UTM Northing, Universal Transverse Mercator
    Type: Dataset
    Format: text/tab-separated-values, 1115 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
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