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Methane concentrations and methane oxidation rates from Oct 2010 - March 2012 in the Elbe Estuary, from Hamburg to Cuxhaven, Germany (2014)

Bussmann, Ingeborg ; Osudar, Roman ; Matousu, Anna

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In: Alfred Wegener Institute - Biological Institute Helgoland

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Publication Date: 2023-02-12

Keywords: 3H-CH4 incubation; DATE/TIME; Depth, bathymetric; DEPTH, water; EC-619; EC-629; EC-639; EC-659; EC-679; EC-699; EC-719; EC-724; Elbe Estuary; Event label; Latitude of event; Longitude of event; Methane; Methane oxidation rate; Methane oxidation rate, standard deviation; Monitoring station; MONS; Salinity; Suspended particulate matter; Temperature, water; Turnover time

Type: Dataset

Format: text/tab-separated-values, 644 data points

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Methane concentrations and methane oxidation rates from June 2012 - June 2013 in the Elbe Estuary, from Hamburg to Cuxhaven, Germany (2015)

Matousu, Anna ; Osudar, Roman ; Simek, Karel ; [et al.]

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In: Supplement to: Matousu, Anna; Osudar, Roman; Simek, Karel; Bussmann, Ingeborg (2016): Methane distribution and methane oxidation in the water column of the Elbe estuary, Germany. Aquatic Sciences, 1-16, https://doi.org/10.1007/s00027-016-0509-9

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Publication Date: 2024-02-16

Description: Rivers represent a transition zone between terrestric and aquatic environments, and between methane rich and methane poor environments. The Elbe River is one of the important rivers draining into the North Sea and with the Elbe potentially high amounts of methane could be imported into the water column of the North Sea. Twelve cruises from October 2010 until June 2013 were conducted from Hamburg towards the Elbe mouth at Cuxhaven. The dynamic of methane concentration in the water column and its consumption via methane oxidation was measured. In addition, physico-chemical parameters were used to estimate their influence on the methanotrophic activity. We observed high methane concentrations at the stations in the area of Hamburg harbor ("inner estuary") and about 10 times lower concentrations in the outer estuary (median of 416 versus 40 nmol/L). The methane oxidation (MOX) rate mirrowed the methane distribution with high values in the inner estuary and low values in the outer estuary (median of 161 versus 10 nmol/L/d respectively) Methane concentrations were significantly influenced by the river hydrology (falling water level) and the trophic state of the water (biological oxygen demand). In contrast to other studies no clear relation to the amount of suspendended particulate matter (SPM) was found. Methane oxidation rates were significantly influenced by methane concentration and to a weaker extent by temperature. Methane oxidation accounted for 41 ± 12% of the total loss of methane in summer/fall, but only for 5 ± 3% of the total loss in winter/spring. We applied a modified box model taking into account the residence times of a water parcel depending on discharge and tidal impact. We observed almost stable methane concentrations in the outer estuary, despite a strong loss of methane through diffusion and oxidation. Thus we postulate that in the outer Elbe estuary a strong additional input of methane is required, which could be provided by the extensive salt marshes near the river mouth.

Type: Dataset

Format: text/tab-separated-values, 475 data points

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Carbon compounds, methane concentration and nutritional composition of water samples along the Elbe to the North Sea (German Bight) during the MOSES projects' Sternfahrt 9 in 2022 (2024)

Bussmann, Ingeborg ; Flöser, Götz ; Raupers, Björn

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Publication Date: 2024-06-25

Description: The "Sternfahrt 9" cruise was conducted from the 30th of May to the 2nd of June 2022, covering a late spring situation in the German Bight. The three participating vessels (Littorina, Uthörn and Ludwig Prandtl) covered a wide range from 7.6°E to 8.9°E and from 53.5°N to 54.8°N, following similar tracks and sampling stations like those of the "Sternfahrt 5" in September 2020. Objective of this cruise was to get new insights on the chemical transformation of Chlorophyll-a and dissolved organic matter from the Elbe, Tide-Elbe and North Sea. Therefore, each ship was continuously measuring different hydrographic parameters and greenhouse gases along their tracks (not included in the present dataset, please see article(s) 'related to'). Additionally, each day eight stations were run by the crews along their respective track (for a more detailed description see 'file description'). Thus, delivering discrete water samples for later analyses of DIC, TA, DOC, methane, nutrients and explosive metals. Due to partly bad weather not always all stations could be realized. While the vessel Littorina covered the south eastern part of the German Bight, the Ludwig Prandtl went further North until the small island Amrum. The Uthörn instead sampled on one side in the north of Heligoland and on the other side in the south and south-west towards Cuxhaven (see map in 'additional metadata'). For more detailed information about the MOSEShx campaign and the cruise Sternfahrt 9, see article cited in references.

Keywords: 2022_MOSES_Elbe-NorthSea; 2022_MOSES_Elbe-NorthSea_KON1; 2022_MOSES_Elbe-NorthSea_L1; 2022_MOSES_Elbe-NorthSea_UT1; Alfred-Wegener-Institute; Alkalinity, total; Ammonium; Carbon, organic, dissolved; Carbon, organic, particulate; Carbon cycle; Chlorophyll a; chlorophyll-a; DATE/TIME; DEPTH, water; DOC; Elbe; Event label; Geomar; German Bight; Helgoland; Hereon; KON_stern_9_P-1; KON_stern_9_P-10; KON_stern_9_P-11; KON_stern_9_P-12; KON_stern_9_P-13; KON_stern_9_P-14; KON_stern_9_P-15; KON_stern_9_P-16; KON_stern_9_P-17; KON_stern_9_P-18; KON_stern_9_P-19; KON_stern_9_P-2; KON_stern_9_P-20; KON_stern_9_P-21; KON_stern_9_P-22; KON_stern_9_P-23; KON_stern_9_P-24; KON_stern_9_P-25; KON_stern_9_P-26; KON_stern_9_P-27; KON_stern_9_P-3; KON_stern_9_P-4; KON_stern_9_P-5; KON_stern_9_P-6; KON_stern_9_P-7; KON_stern_9_P-8; KON_stern_9_P-9; L-01; L-02; L-03; L-04; L-05; L-06; L-07; L-08; L-09; L-10; L-11; L-12; L-13; L-14; L-15; L-16; L-17; L-18; L-19; L-20; L-21; L-22; L22_stern_9_L-01; L22_stern_9_L-02; L22_stern_9_L-03; L22_stern_9_L-04; L22_stern_9_L-05; L22_stern_9_L-06; L22_stern_9_L-07; L22_stern_9_L-08; L22_stern_9_L-09; L22_stern_9_L-10; L22_stern_9_L-11; L22_stern_9_L-12; L22_stern_9_L-13; L22_stern_9_L-14; L22_stern_9_L-15; L22_stern_9_L-16; L22_stern_9_L-17; L22_stern_9_L-18; L22_stern_9_L-19; L22_stern_9_L-20; L22_stern_9_L-21; L22_stern_9_L-22; L22_stern_9_L-23; L22_stern_9_L-24; L-23; L-24; LATITUDE; Littorina; LONGITUDE; Ludwig Prandtl; Methane; Modular Observation Solutions for Earth Systems; MOSES; Name; Nitrate; Nitrite; Nitrogen, organic, total; Nitrogen, total dissolved; Nitrogen oxide; North Sea; nutrients; P-1; P-10; P-11; P-12; P-13; P-14; P-15; P-16; P-17; P-18; P-19; P-2; P-20; P-21; P-22; P-23; P-24; P-25; P-26; P-27; P-3; P-4; P-5; P-6; P-7; P-8; P-9; Phosphate; POC; Principal investigator; Silicate; Station label; TA alkalinity; Tide Elbe; U1; U10; U11; U12; U13; U14; U15; U16; U17; U18; U19; U2; U20; U21; U22; U23; U24; U25; U26; U27; U28; U29; U3; U4; U5; U6; U7; U8; U9; UT2022_stern_9_U-1; UT2022_stern_9_U-10; UT2022_stern_9_U-11; UT2022_stern_9_U-12; UT2022_stern_9_U-13; UT2022_stern_9_U-14; UT2022_stern_9_U-15; UT2022_stern_9_U-16; UT2022_stern_9_U-17; UT2022_stern_9_U-18; UT2022_stern_9_U-19; UT2022_stern_9_U-2; UT2022_stern_9_U-20; UT2022_stern_9_U-21; UT2022_stern_9_U-22; UT2022_stern_9_U-23; UT2022_stern_9_U-24; UT2022_stern_9_U-25; UT2022_stern_9_U-26; UT2022_stern_9_U-27; UT2022_stern_9_U-28; UT2022_stern_9_U-29; UT2022_stern_9_U-3; UT2022_stern_9_U-4; UT2022_stern_9_U-5; UT2022_stern_9_U-6; UT2022_stern_9_U-7; UT2022_stern_9_U-8; UT2022_stern_9_U-9; Uthörn; Water sample; Water samples; WS

Type: Dataset

Format: text/tab-separated-values, 1127 data points

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