GLORIA — GEOMAR Library Ocean Research Information Access

11

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n-alkane compound-specific carbon isotope ratios of sediment core MD-1 (2020)

Lattaud, Julie ; Bröder, Lisa ; Haghipour, Negar ; [et al.]

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Publication Date: 2024-02-15

Keywords: bulk radiocarbon; Carbon isotopes; DEPTH, sediment/rock; Mackenzie_Delta_MD-1; Mackenzie Delta lakes, Canada; MD-1; n-Alkane C21, δ13C; n-Alkane C22, δ13C; n-Alkane C23, δ13C; n-Alkane C25, δ13C; n-Alkane C27, δ13C; n-Alkane C29, δ13C; n-Alkane C31, δ13C; n-Alkane C33, δ13C; n-alkanes; Neodymium isotopes; PUC; Push corer

Type: Dataset

Format: text/tab-separated-values, 188 data points

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12

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n-alkane compound-specific carbon isotope ratios of sediment core MD-2 (2020)

Lattaud, Julie ; Bröder, Lisa ; Haghipour, Negar ; [et al.]

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Publication Date: 2024-02-15

Keywords: bulk radiocarbon; Carbon isotopes; DEPTH, sediment/rock; Mackenzie_Delta_MD-2; Mackenzie Delta lakes, Canada; MD-2; n-Alkane C21, δ13C; n-Alkane C23, δ13C; n-Alkane C25, δ13C; n-Alkane C27, δ13C; n-Alkane C29, δ13C; n-Alkane C31, δ13C; n-Alkane C33, δ13C; n-alkanes; Neodymium isotopes; PUC; Push corer

Type: Dataset

Format: text/tab-separated-values, 88 data points

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n-alkane compound-specific carbon isotope ratios of sediment core UD-4 (2020)

Lattaud, Julie ; Bröder, Lisa ; Haghipour, Negar ; [et al.]

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Publication Date: 2024-02-15

Keywords: bulk radiocarbon; Carbon isotopes; DEPTH, sediment/rock; Mackenzie_Delta_UD-4; Mackenzie Delta lakes, Canada; n-Alkane C21, δ13C; n-Alkane C22, δ13C; n-Alkane C23, δ13C; n-Alkane C25, δ13C; n-Alkane C27, δ13C; n-Alkane C29, δ13C; n-Alkane C31, δ13C; n-Alkane C33, δ13C; n-alkanes; Neodymium isotopes; PUC; Push corer; UD-4

Type: Dataset

Format: text/tab-separated-values, 111 data points

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Fatty acid compound-specific carbon isotope ratios of sediment core MD-2 (2020)

Lattaud, Julie ; Bröder, Lisa ; Haghipour, Negar ; [et al.]

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Publication Date: 2024-02-15

Keywords: bulk radiocarbon; Carbon isotopes; DEPTH, sediment/rock; Docosanoic acid, δ13C; Icosanoic acid, δ13C; Mackenzie_Delta_MD-2; Mackenzie Delta lakes, Canada; MD-2; n-alkanes; Neodymium isotopes; n-fatty acid C16:0, δ13C; n-fatty acid C18:0, δ13C; n-fatty acid C24:0, δ13C; n-fatty acid C26:0, δ13C; n-fatty acid C28:0, δ13C; PUC; Push corer

Type: Dataset

Format: text/tab-separated-values, 119 data points

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Bulk characteristics of sediment core MD-1 (2020)

Lattaud, Julie ; Bröder, Lisa ; Haghipour, Negar ; [et al.]

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Publication Date: 2024-03-01

Keywords: bulk radiocarbon; Carbon, organic, total; Carbon/Nitrogen ratio; Carbon isotopes; Daphnogene sp.; DEPTH, sediment/rock; Mackenzie_Delta_MD-1; Mackenzie Delta lakes, Canada; MD-1; Median, grain size; Minerals, surface area; n-alkanes; Neodymium isotopes; PUC; Push corer; Δ14C; δ13C; δ13C, standard deviation

Type: Dataset

Format: text/tab-separated-values, 51 data points

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16

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Bulk characteristics of sediment core UD-4 (2020)

Lattaud, Julie ; Bröder, Lisa ; Haghipour, Negar ; [et al.]

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Publication Date: 2024-03-01

Keywords: bulk radiocarbon; Carbon, organic, total; Carbon/Nitrogen ratio; Carbon isotopes; Daphnogene sp.; DEPTH, sediment/rock; Mackenzie_Delta_UD-4; Mackenzie Delta lakes, Canada; Median, grain size; Minerals, surface area; n-alkanes; Neodymium isotopes; PUC; Push corer; UD-4; Δ14C; δ13C; δ13C, standard deviation

Type: Dataset

Format: text/tab-separated-values, 70 data points

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17

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Bulk characteristics of sediment core MD-2 (2020)

Lattaud, Julie ; Bröder, Lisa ; Haghipour, Negar ; [et al.]

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Publication Date: 2024-03-01

Keywords: bulk radiocarbon; Carbon, organic, total; Carbon/Nitrogen ratio; Carbon isotopes; Daphnogene sp.; DEPTH, sediment/rock; Mackenzie_Delta_MD-2; Mackenzie Delta lakes, Canada; MD-2; Median, grain size; Minerals, surface area; n-alkanes; Neodymium isotopes; PUC; Push corer; Δ14C; δ13C; δ13C, standard deviation

Type: Dataset

Format: text/tab-separated-values, 67 data points

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Analysis of the high density coarse fraction (HDC) from the nearshore zone of Herschel Island (Yukon, Canada) (2024)

Jong, Dirk ; Bröder, Lisa ; Tesi, Tommaso ; [et al.]

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Publication Date: 2024-03-01

Keywords: Age, 14C AMS; Age, dated; Arctic; Biomarkers; Calculated; Carbon, organic, total; Carbon/Nitrogen ratio; Comment; Elemental analyzer (EA), Thermo Scientific, FlashEA 1112; Fraction modern carbon; Fraction modern carbon, error, relative; HER; Herschel_Island; Isotope ratio mass spectrometry-elemental analyzer (IRMS-EA), Thermo Finnigan, Delta XP; Elemental analyzer (EA), Thermo Scientific, FlashEA 1112; Laboratory code/label; MICADAS accelerator mass spectrometer (AMS), Ionplus; according to McIntyre et al. (2017) and Haghipour et al. (2018); Minerals, surface area; MULT; Multiple investigations; Nitrogen, total; organic carbon; Organic carbon, loading; Permafrost; Sample ID; sediment; Surface area analyzer, Quantachrome, Nova 4200e; 6-point Brunauer–Emmett–Teller (BET) method according to Brunauer et al. (1938); Δ14C; δ13C

Type: Dataset

Format: text/tab-separated-values, 161 data points

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19

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Analysis of the high density fine fraction (HDF) from the nearshore zone of Herschel Island (Yukon, Canada) (2024)

Jong, Dirk ; Bröder, Lisa ; Tesi, Tommaso ; [et al.]

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Publication Date: 2024-03-01

Keywords: 3,5-dihydroxybenzoic acid/vanillyl phenols ratio; Acids, loading; Acids/alkanes ratio; Age, 14C AMS; Age, dated; Alkanes, loading; Arctic; Biomarkers; Calculated; Carbon, organic, total; Carbon/Nitrogen ratio; Carbon Preference Index, fatty acids; Carbon Preference Index, n-Alkanes; Cinnamyl phenols/vanillyl phenols ratio; Comment; Cutin, loading; Cutin, per unit mass organic carbon; Cutin/Lignin ratio; Elemental analyzer (EA), Thermo Scientific, FlashEA 1112; Fraction modern carbon; Fraction modern carbon, error, relative; Gas chromatograph (GC), Agilent, GC 7820; coupled with Quadrupole mass selective detector (MSD), Agilent, EI 5977B; HER; Herschel_Island; Isotope ratio mass spectrometry-elemental analyzer (IRMS-EA), Thermo Finnigan, Delta XP; Elemental analyzer (EA), Thermo Scientific, FlashEA 1112; Laboratory code/label; Lignin, loading; Lignin, per unit mass organic carbon; MICADAS accelerator mass spectrometer (AMS), Ionplus; according to McIntyre et al. (2017) and Haghipour et al. (2018); Minerals, surface area; MULT; Multiple investigations; n-Alkane C23-33, high molecular weight, per unit mass organic carbon; n-Alkanoic acids C24-32, high molecular weight, per unit mass organic carbon; Nitrogen, total; organic carbon; Organic carbon, loading; p-coumaric acid/ferulic acid ratio; Permafrost; Sample ID; sediment; Surface area analyzer, Quantachrome, Nova 4200e; 6-point Brunauer–Emmett–Teller (BET) method according to Brunauer et al. (1938); Syringic acid/syringaldehyde ratio; Syringyl phenols/vanillyl phenols ratio; Vanillic acid/vanillin ratio; Δ14C; δ13C

Type: Dataset

Format: text/tab-separated-values, 403 data points

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Particulate organic carbon (POC) and particulate organic nitrogen (PON) concentrations in the surface water of the Mackenzie Delta Region during 4 expeditions from spring to fall in 2019 (2021)

Lizotte, Martine ; Juhls, Bennet ; Bécu, Guislain ; [et al.]

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Publication Date: 2024-04-27

Description: Particulate organic carbon (POC) and particulate organic nitrogen (PON) concentrations were obtained from water samples filtered on precombusted (450°C for 〉5 hours) 47mm Whatmann GF/F (0.7 µm) filters. The filters were dried overnight at 60°C and vacuum-sealed for storage in aluminum foil kept at -20°C until analysis. To determine POC and PON concentrations, the filters were acidified with 200-350 µl HCl 2N to remove carbonates, dried at 60°C overnight and then burned on a pre-calibrated CHN analyzer (Perkin Elmer, combustion at 925°C) for determination of the CO2 produced (Doxaran et al. 2012; doi:10.5194/bg-9-3213-2012).

Keywords: 1_STN01; 1_STN020; 1_STN040; 1_STN0a; 1_STN0b; 1_STN140alt; 1_STN150alt; 1_STN340alt; 1_STN350; 1_STN360; 1_STN370alt; 1_STN380alt; 1_STN540alt; 1_STN550; 1_STN740; 1_STN810; 1_STN830; 1_STN840; 1_STN850; 1_STN860; 1_STN870; 2_STN030; 2_STN040; 2_STN1030; 2_STN1040; 2_STN1050; 2_STN1060; 2_STN110; 2_STN120; 2_STN140alt; 2_STN150alt; 2_STN310; 2_STN320; 2_STN330; 2_STN340alt; 2_STN350; 2_STN360; 2_STN370; 2_STN380alt_2; 2_STN420; 2_STN430; 2_STN450; 2_STN530; 2_STN540alt; 2_STN550; 2_STN565; 2_STN620; 2_STN630; 2_STN740; 2_STN800; 2_STN810; 2_STN820; 2_STN830; 2_STN840; 2_STN850; 2_STN860; 2_STN870; 2_STN999; 2_STNxxx; 2_XX2; 2_XX3; 3_STN010; 3_STN020; 3_STN030; 3_STN040; 3_STN1030; 3_STN1040; 3_STN1050; 3_STN1060; 3_STN125; 3_STN130; 3_STN130_5m; 3_STN135; 3_STN140alt; 3_STN150alt; 3_STN330; 3_STN340alt; 3_STN350; 3_STN360; 3_STN370alt; 3_STN380; 3_STN740; 3_STN800; 3_STN810; 3_STN820; 3_STN830; 3_STN840; 3_STN850; 3_STN860; 3_STN870; 3_STNR01; 3_STNR02; 3_STNR02_5m; 3_STNR03; 3_STNR04; 3_STNR05; 3_STNR06; 3_STNR07; 3_STNR08; 3_STNR09; 3_STNR09_20m; 3_STNR10; 3_STNR11; 3_STNR12; 3_STNR13; 3_STNxxx; 4_STN010; 4_STN020; 4_STN030; 4_STN040; 4_STN1030; 4_STN1040; 4_STN1050; 4_STN120; 4_STN125; 4_STN130; 4_STN135; 4_STN140alt; 4_STN140alt_2; 4_STN150alt; 4_STN330; 4_STN340alt; 4_STN350; 4_STN360; 4_STN370; 4_STN380alt; 4_STN740; 4_STN800; 4_STN810; 4_STN820; 4_STN830; 4_STN840; 4_STN840_2; 4_STN850; 4_STN860; 4_STN870; 4_STNR01; 4_STNR03; 4_STNR04; 4_STNR05; 4_STNR08; 4_STNR09; 4_STNR12; 4_STNXX4; 4_STNXX4_2; biogeochemistry; Biooptics; Carbon, organic, particulate; Carbon Hydrogen Nitrogen (CHN) analyzer (Perkin Elmer); Coastal waters; Cruise/expedition; DATE/TIME; DEPTH, water; Event label; hydrographic data; LATITUDE; LONGITUDE; Mackenzie; Mackenzie Delta, Canada; MULT; Multiple investigations; Nitrogen, organic, particulate; NUNATARYUK; NUNATARYUK, Permafrost thaw and the changing Arctic coast, science for socioeconomic adaptation; NunaWP4Mackenzie19_1_STN01; NunaWP4Mackenzie19_1_STN020; NunaWP4Mackenzie19_1_STN040; NunaWP4Mackenzie19_1_STN0a; NunaWP4Mackenzie19_1_STN0b; NunaWP4Mackenzie19_1_STN140alt; NunaWP4Mackenzie19_1_STN150alt; NunaWP4Mackenzie19_1_STN340alt; NunaWP4Mackenzie19_1_STN350; NunaWP4Mackenzie19_1_STN360; NunaWP4Mackenzie19_1_STN370alt; NunaWP4Mackenzie19_1_STN380alt; NunaWP4Mackenzie19_1_STN540alt; NunaWP4Mackenzie19_1_STN550; NunaWP4Mackenzie19_1_STN740; NunaWP4Mackenzie19_1_STN810; NunaWP4Mackenzie19_1_STN830; NunaWP4Mackenzie19_1_STN840; NunaWP4Mackenzie19_1_STN850; NunaWP4Mackenzie19_1_STN860; NunaWP4Mackenzie19_1_STN870; NunaWP4Mackenzie19_2_STN030; NunaWP4Mackenzie19_2_STN040; NunaWP4Mackenzie19_2_STN1030; NunaWP4Mackenzie19_2_STN1040; NunaWP4Mackenzie19_2_STN1050; NunaWP4Mackenzie19_2_STN1060; NunaWP4Mackenzie19_2_STN110; NunaWP4Mackenzie19_2_STN120; NunaWP4Mackenzie19_2_STN140alt; NunaWP4Mackenzie19_2_STN150alt; NunaWP4Mackenzie19_2_STN310; NunaWP4Mackenzie19_2_STN320; NunaWP4Mackenzie19_2_STN330; NunaWP4Mackenzie19_2_STN340alt; NunaWP4Mackenzie19_2_STN350; NunaWP4Mackenzie19_2_STN360; NunaWP4Mackenzie19_2_STN370; NunaWP4Mackenzie19_2_STN380alt_2; NunaWP4Mackenzie19_2_STN420; NunaWP4Mackenzie19_2_STN430; NunaWP4Mackenzie19_2_STN450; NunaWP4Mackenzie19_2_STN530; NunaWP4Mackenzie19_2_STN540alt; NunaWP4Mackenzie19_2_STN550; NunaWP4Mackenzie19_2_STN565; NunaWP4Mackenzie19_2_STN620; NunaWP4Mackenzie19_2_STN630; NunaWP4Mackenzie19_2_STN740; NunaWP4Mackenzie19_2_STN800; NunaWP4Mackenzie19_2_STN810; NunaWP4Mackenzie19_2_STN820; NunaWP4Mackenzie19_2_STN830; NunaWP4Mackenzie19_2_STN840; NunaWP4Mackenzie19_2_STN850; NunaWP4Mackenzie19_2_STN860; NunaWP4Mackenzie19_2_STN870; NunaWP4Mackenzie19_2_STN999; NunaWP4Mackenzie19_2_STNxxx; NunaWP4Mackenzie19_2_XX2; NunaWP4Mackenzie19_2_XX3; NunaWP4Mackenzie19_3_STN010; NunaWP4Mackenzie19_3_STN020; NunaWP4Mackenzie19_3_STN030; NunaWP4Mackenzie19_3_STN040; NunaWP4Mackenzie19_3_STN1030; NunaWP4Mackenzie19_3_STN1040; NunaWP4Mackenzie19_3_STN1050; NunaWP4Mackenzie19_3_STN1060; NunaWP4Mackenzie19_3_STN125; NunaWP4Mackenzie19_3_STN130; NunaWP4Mackenzie19_3_STN130_5m; NunaWP4Mackenzie19_3_STN135; NunaWP4Mackenzie19_3_STN140alt; NunaWP4Mackenzie19_3_STN150alt; NunaWP4Mackenzie19_3_STN330; NunaWP4Mackenzie19_3_STN340alt; NunaWP4Mackenzie19_3_STN350; NunaWP4Mackenzie19_3_STN360; NunaWP4Mackenzie19_3_STN370alt; NunaWP4Mackenzie19_3_STN380; NunaWP4Mackenzie19_3_STN740; NunaWP4Mackenzie19_3_STN800; NunaWP4Mackenzie19_3_STN810; NunaWP4Mackenzie19_3_STN820; NunaWP4Mackenzie19_3_STN830; NunaWP4Mackenzie19_3_STN840; NunaWP4Mackenzie19_3_STN850; NunaWP4Mackenzie19_3_STN860; NunaWP4Mackenzie19_3_STN870; NunaWP4Mackenzie19_3_STNR01; NunaWP4Mackenzie19_3_STNR02; NunaWP4Mackenzie19_3_STNR02_5m; NunaWP4Mackenzie19_3_STNR03; NunaWP4Mackenzie19_3_STNR04; NunaWP4Mackenzie19_3_STNR05; NunaWP4Mackenzie19_3_STNR06; NunaWP4Mackenzie19_3_STNR07; NunaWP4Mackenzie19_3_STNR08; NunaWP4Mackenzie19_3_STNR09; NunaWP4Mackenzie19_3_STNR09_20m; NunaWP4Mackenzie19_3_STNR10; NunaWP4Mackenzie19_3_STNR11; NunaWP4Mackenzie19_3_STNR12; NunaWP4Mackenzie19_3_STNR13; NunaWP4Mackenzie19_3_STNxxx; NunaWP4Mackenzie19_4_STN010; NunaWP4Mackenzie19_4_STN020; NunaWP4Mackenzie19_4_STN030; NunaWP4Mackenzie19_4_STN040; NunaWP4Mackenzie19_4_STN1030; NunaWP4Mackenzie19_4_STN1040; NunaWP4Mackenzie19_4_STN1050; NunaWP4Mackenzie19_4_STN120; NunaWP4Mackenzie19_4_STN125; NunaWP4Mackenzie19_4_STN130; NunaWP4Mackenzie19_4_STN135; NunaWP4Mackenzie19_4_STN140alt; NunaWP4Mackenzie19_4_STN140alt_2; NunaWP4Mackenzie19_4_STN150alt; NunaWP4Mackenzie19_4_STN330; NunaWP4Mackenzie19_4_STN340alt; NunaWP4Mackenzie19_4_STN350; NunaWP4Mackenzie19_4_STN360; NunaWP4Mackenzie19_4_STN370; NunaWP4Mackenzie19_4_STN380alt; NunaWP4Mackenzie19_4_STN740; NunaWP4Mackenzie19_4_STN800; NunaWP4Mackenzie19_4_STN810; NunaWP4Mackenzie19_4_STN820; NunaWP4Mackenzie19_4_STN830; NunaWP4Mackenzie19_4_STN840; NunaWP4Mackenzie19_4_STN840_2; NunaWP4Mackenzie19_4_STN850; NunaWP4Mackenzie19_4_STN860; NunaWP4Mackenzie19_4_STN870; NunaWP4Mackenzie19_4_STNR01; NunaWP4Mackenzie19_4_STNR03; NunaWP4Mackenzie19_4_STNR04; NunaWP4Mackenzie19_4_STNR05; NunaWP4Mackenzie19_4_STNR08; NunaWP4Mackenzie19_4_STNR09; NunaWP4Mackenzie19_4_STNR12; NunaWP4Mackenzie19_4_STNXX4; NunaWP4Mackenzie19_4_STNXX4_2; Station label

Type: Dataset

Format: text/tab-separated-values, 552 data points

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