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| Format: | Dataset Open Access |
| Language: | en |
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2025
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| Online Access: | https://doi.org/10.1594/PANGAEA.975984 |
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| _version_ | 1867168233867444224 |
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| author | Drapeau, Hayley Tank, Suzanne E Cavaco, Maria Serbu, Jessica A St. Louis, V L Bhatia, Maya P |
| author_facet | Drapeau, Hayley Tank, Suzanne E Cavaco, Maria Serbu, Jessica A St. Louis, V L Bhatia, Maya P |
| collection | Datos científicos de ciencias marinas y ambientales |
| contents | Climate change is accelerating the warming of mountain glacial systems, leading to increased water fluxes and the enhanced export of glacially-derived sediment and organic matter (OM). Glacial OM represents an aged yet potentially bioavailable carbon pool that differs in composition from OM found in non-glacially sourced waters. Despite its significance, the composition of riverine OM from glacial headwaters to downstream reaches remains poorly understood in the Canadian Rockies. This dataset presents dissolved OM composition data derived from UV-vis spectroscopy including five calculated spectroscopic parameters (a254, S275_295, BIX, HIX, FI) and model outputs from parallel factor analysis of excitation-emission spectra (C1, C2, C3, C4). This data is supplemented with dissolved and particulate organic carbon concentrations and isotopic characteristics, and water isotope data. Data were collected over three summers (2019-2021) before, during, and after glacial ice melt along stream transects spanning 0-100 km downstream of glacial termini on the eastern slopes of the Canadian Rocky Mountains. Samples were obtained from the Bow River, North Saskatchewan River, and Sunwapta-Athabasca River. Paired microbial samples are archived at the NCBI database, under accession number PRJNA995204. |
| format | Dataset Open Access |
| id | pangaea_https___doi_org_10_1594_PANGAEA_975984 |
| institution | PANGAEA |
| language | en |
| publishDate | 2025 |
| publisher | PANGAEA |
| record_format | pangaea |
| spellingShingle | Organic carbon concentration, absorbance and fluorescent characteristics, and isotopic composition of river water sourced from four glacially-fed rivers in the Canadian Rocky Mountains (2019-2021) Drapeau, Hayley Tank, Suzanne E Cavaco, Maria Serbu, Jessica A St. Louis, V L Bhatia, Maya P Absorption coefficient, 254 nm; AR1_R19-25; AR1_R19-39; AR1_R19-53; AR1_R20-14; AR1_R20-27; AR1_R20-41; AR1_R20-5; AR1_R20-55; AR1_R20-69; AR1_R21-05; AR1_R21-18; AR1_R21-32; AR1_R21-45; AR1_R21-59; AR2_R19-16; AR2_R19-26; AR2_R19-40; AR2_R19-5; AR2_R19-54; AR2_R19-69; AR2_R20-15; AR2_R20-28; AR2_R20-42; AR2_R20-56; AR2_R20-6; AR2_R20-70; AR2_R21-06; AR2_R21-19; AR2_R21-3; AR2_R21-33; AR2_R21-46; AR2_R21-60; AR3_R19-17; AR3_R19-27; AR3_R19-41; AR3_R19-55; AR3_R19-6; AR3_R20-16; AR3_R20-29; AR3_R20-43; AR3_R20-57; AR3_R20-7; AR3_R20-71; AR3_R21-07; AR3_R21-20; AR3_R21-34; AR3_R21-47; AR3_R21-61; Biological index; blank_R21-69; BR1_R19-21; BR1_R19-35; BR1_R19-49; BR1_R19-63; BR1_R20-11; BR1_R20-23; BR1_R20-37; BR1_R20-51; BR1_R20-65; BR1_R20-79; BR1_R21-28; BR1_R21-42; BR1_R21-55; BR1_R21-70; BR2_R19-22; BR2_R19-36; BR2_R19-50; BR2_R19-64; BR2_R20-12; BR2_R20-24; BR2_R20-38; BR2_R20-52; BR2_R20-66; BR2_R20-80; BR2_R21-15; BR2_R21-29; BR2_R21-43; BR2_R21-56; BR2_R21-71; BR3_R19-23; BR3_R19-37; BR3_R19-51; BR3_R19-65; BR3_R19-67; BR3_R19-7; BR3_R20-13; BR3_R20-25; BR3_R20-39; BR3_R20-53; BR3_R20-67; BR3_R20-81; BR3_R21-16; BR3_R21-30; BR3_R21-44; BR3_R21-57; BR3_R21-72; BR4_R19-24; BR4_R19-38; BR4_R19-52; BR4_R19-66; BR4_R19-8; BR4_R20-26; BR4_R20-40; BR4_R20-54; BR4_R20-68; BR4_R20-82; BR4_R21-17; BR4_R21-31; BR4_R21-58; Calculated according to Dansgaard (1964); Calculated according to Helms et al. (2008); Calculated according to Huguet et al. (2009); Calculated according to McKnight et al. (2001); Carbon, organic, dissolved; Carbon, organic, particulate; Date/Time of event; Deuterium excess; Distance; Distance description; Element analyser CNS, vario EL Cube; Event label; Fluorescence index; Fluorescence intensity, parallel factor analysis component 1; Fluorescence intensity, parallel factor analysis component 2; Fluorescence intensity, parallel factor analysis component 3; Fluorescence intensity, parallel factor analysis component 4; Humification index; Laboratory; Latitude of event; Longitude of event; NSR1_R19-18; NSR1_R19-32; NSR1_R19-46; NSR1_R19-60; NSR1_R19-68; NSR1_R19-9; NSR1_R20-20; NSR1_R20-34; NSR1_R20-48; NSR1_R20-62; NSR1_R20-76; NSR1_R20-8; NSR1_R21-12; NSR1_R21-25; NSR1_R21-39; NSR1_R21-4; NSR1_R21-52; NSR1_R21-66; NSR2_R19-10; NSR2_R19-19; NSR2_R19-33; NSR2_R19-47; NSR2_R19-61; NSR2_R20-21; NSR2_R20-35; NSR2_R20-49; NSR2_R20-63; NSR2_R20-77; NSR2_R20-9; NSR2_R21-13; NSR2_R21-26; NSR2_R21-40; NSR2_R21-53; NSR2_R21-67; NSR3_R19-11; NSR3_R19-20; NSR3_R19-34; NSR3_R19-48; NSR3_R19-62; NSR3_R20-10; NSR3_R20-22; NSR3_R20-36; NSR3_R20-50; NSR3_R20-64; NSR3_R20-78; NSR3_R21-14; NSR3_R21-27; NSR3_R21-41; NSR3_R21-54; NSR3_R21-68; Parallel factor fluorescence spectroscopy (PARAFAC) according to Murphy et al. (2013); R21_snow; River; RIVER; Rocky Mountains, Canada; Sample ID; Sampling river; Season; see comment; Shimadzu TOC-L; Shimadzu TOC-L Total Organic Carbon Analyser series; Site; SNOW; Snow/ice sample; Spectral slope of colored dissolved organic matter absorption, 275-295 nm; SR1_R19-1; SR1_R19-12; SR1_R19-28; SR1_R19-42; SR1_R19-56; SR1_R20-1; SR1_R20-17; SR1_R20-30; SR1_R20-44; SR1_R20-58; SR1_R20-72; SR1_R21-08; SR1_R21-21; SR1_R21-35; SR1_R21-48; SR1_R21-62; SR2_R19-13; SR2_R19-2; SR2_R19-29; SR2_R19-43; SR2_R19-57; SR2_R20-2; SR2_R20-31; SR2_R20-45; SR2_R20-59; SR2_R20-73; SR2_R21-09; SR2_R21-22; SR2_R21-36; SR2_R21-49; SR2_R21-63; SR3_R19-14; SR3_R19-3; SR3_R19-30; SR3_R19-44; SR3_R19-58; SR3_R20-18; SR3_R20-3; SR3_R20-32; SR3_R20-46; SR3_R20-60; SR3_R20-74; SR3_R21-10; SR3_R21-2; SR3_R21-23; SR3_R21-37; SR3_R21-50; SR3_R21-64; SR4_R19-15; SR4_R19-31; SR4_R19-4; SR4_R19-45; SR4_R19-59; SR4_R20-19; SR4_R20-33; SR4_R20-4; SR4_R20-47; SR4_R20-61; SR4_R20-75; SR4_R21-1; SR4_R21-11; SR4_R21-24; SR4_R21-38; SR4_R21-51; SR4_R21-65; Total Organic Carbon Analyzers, Xylem, OI Analytical Aurora 1030W TOC Analyzer [SKU: 322110] coupled to a DELTA V Plus Advantage isotope ratio mass spectrometer; Water Treatment Plant Analyzer, HORIBA Scientific, Aqualog; Year of sampling; Δ14C, dissolved organic carbon; Δ14C, particulate organic carbon; Δδ Deuterium; δ13C, dissolved organic carbon; δ13C, particulate organic carbon; δ18O, water Climate change is accelerating the warming of mountain glacial systems, leading to increased water fluxes and the enhanced export of glacially-derived sediment and organic matter (OM). Glacial OM represents an aged yet potentially bioavailable carbon pool that differs in composition from OM found in non-glacially sourced waters. Despite its significance, the composition of riverine OM from glacial headwaters to downstream reaches remains poorly understood in the Canadian Rockies. This dataset presents dissolved OM composition data derived from UV-vis spectroscopy including five calculated spectroscopic parameters (a254, S275_295, BIX, HIX, FI) and model outputs from parallel factor analysis of excitation-emission spectra (C1, C2, C3, C4). This data is supplemented with dissolved and particulate organic carbon concentrations and isotopic characteristics, and water isotope data. Data were collected over three summers (2019-2021) before, during, and after glacial ice melt along stream transects spanning 0-100 km downstream of glacial termini on the eastern slopes of the Canadian Rocky Mountains. Samples were obtained from the Bow River, North Saskatchewan River, and Sunwapta-Athabasca River. Paired microbial samples are archived at the NCBI database, under accession number PRJNA995204. |
| title | Organic carbon concentration, absorbance and fluorescent characteristics, and isotopic composition of river water sourced from four glacially-fed rivers in the Canadian Rocky Mountains (2019-2021) |
| topic | Absorption coefficient, 254 nm; AR1_R19-25; AR1_R19-39; AR1_R19-53; AR1_R20-14; AR1_R20-27; AR1_R20-41; AR1_R20-5; AR1_R20-55; AR1_R20-69; AR1_R21-05; AR1_R21-18; AR1_R21-32; AR1_R21-45; AR1_R21-59; AR2_R19-16; AR2_R19-26; AR2_R19-40; AR2_R19-5; AR2_R19-54; AR2_R19-69; AR2_R20-15; AR2_R20-28; AR2_R20-42; AR2_R20-56; AR2_R20-6; AR2_R20-70; AR2_R21-06; AR2_R21-19; AR2_R21-3; AR2_R21-33; AR2_R21-46; AR2_R21-60; AR3_R19-17; AR3_R19-27; AR3_R19-41; AR3_R19-55; AR3_R19-6; AR3_R20-16; AR3_R20-29; AR3_R20-43; AR3_R20-57; AR3_R20-7; AR3_R20-71; AR3_R21-07; AR3_R21-20; AR3_R21-34; AR3_R21-47; AR3_R21-61; Biological index; blank_R21-69; BR1_R19-21; BR1_R19-35; BR1_R19-49; BR1_R19-63; BR1_R20-11; BR1_R20-23; BR1_R20-37; BR1_R20-51; BR1_R20-65; BR1_R20-79; BR1_R21-28; BR1_R21-42; BR1_R21-55; BR1_R21-70; BR2_R19-22; BR2_R19-36; BR2_R19-50; BR2_R19-64; BR2_R20-12; BR2_R20-24; BR2_R20-38; BR2_R20-52; BR2_R20-66; BR2_R20-80; BR2_R21-15; BR2_R21-29; BR2_R21-43; BR2_R21-56; BR2_R21-71; BR3_R19-23; BR3_R19-37; BR3_R19-51; BR3_R19-65; BR3_R19-67; BR3_R19-7; BR3_R20-13; BR3_R20-25; BR3_R20-39; BR3_R20-53; BR3_R20-67; BR3_R20-81; BR3_R21-16; BR3_R21-30; BR3_R21-44; BR3_R21-57; BR3_R21-72; BR4_R19-24; BR4_R19-38; BR4_R19-52; BR4_R19-66; BR4_R19-8; BR4_R20-26; BR4_R20-40; BR4_R20-54; BR4_R20-68; BR4_R20-82; BR4_R21-17; BR4_R21-31; BR4_R21-58; Calculated according to Dansgaard (1964); Calculated according to Helms et al. (2008); Calculated according to Huguet et al. (2009); Calculated according to McKnight et al. (2001); Carbon, organic, dissolved; Carbon, organic, particulate; Date/Time of event; Deuterium excess; Distance; Distance description; Element analyser CNS, vario EL Cube; Event label; Fluorescence index; Fluorescence intensity, parallel factor analysis component 1; Fluorescence intensity, parallel factor analysis component 2; Fluorescence intensity, parallel factor analysis component 3; Fluorescence intensity, parallel factor analysis component 4; Humification index; Laboratory; Latitude of event; Longitude of event; NSR1_R19-18; NSR1_R19-32; NSR1_R19-46; NSR1_R19-60; NSR1_R19-68; NSR1_R19-9; NSR1_R20-20; NSR1_R20-34; NSR1_R20-48; NSR1_R20-62; NSR1_R20-76; NSR1_R20-8; NSR1_R21-12; NSR1_R21-25; NSR1_R21-39; NSR1_R21-4; NSR1_R21-52; NSR1_R21-66; NSR2_R19-10; NSR2_R19-19; NSR2_R19-33; NSR2_R19-47; NSR2_R19-61; NSR2_R20-21; NSR2_R20-35; NSR2_R20-49; NSR2_R20-63; NSR2_R20-77; NSR2_R20-9; NSR2_R21-13; NSR2_R21-26; NSR2_R21-40; NSR2_R21-53; NSR2_R21-67; NSR3_R19-11; NSR3_R19-20; NSR3_R19-34; NSR3_R19-48; NSR3_R19-62; NSR3_R20-10; NSR3_R20-22; NSR3_R20-36; NSR3_R20-50; NSR3_R20-64; NSR3_R20-78; NSR3_R21-14; NSR3_R21-27; NSR3_R21-41; NSR3_R21-54; NSR3_R21-68; Parallel factor fluorescence spectroscopy (PARAFAC) according to Murphy et al. (2013); R21_snow; River; RIVER; Rocky Mountains, Canada; Sample ID; Sampling river; Season; see comment; Shimadzu TOC-L; Shimadzu TOC-L Total Organic Carbon Analyser series; Site; SNOW; Snow/ice sample; Spectral slope of colored dissolved organic matter absorption, 275-295 nm; SR1_R19-1; SR1_R19-12; SR1_R19-28; SR1_R19-42; SR1_R19-56; SR1_R20-1; SR1_R20-17; SR1_R20-30; SR1_R20-44; SR1_R20-58; SR1_R20-72; SR1_R21-08; SR1_R21-21; SR1_R21-35; SR1_R21-48; SR1_R21-62; SR2_R19-13; SR2_R19-2; SR2_R19-29; SR2_R19-43; SR2_R19-57; SR2_R20-2; SR2_R20-31; SR2_R20-45; SR2_R20-59; SR2_R20-73; SR2_R21-09; SR2_R21-22; SR2_R21-36; SR2_R21-49; SR2_R21-63; SR3_R19-14; SR3_R19-3; SR3_R19-30; SR3_R19-44; SR3_R19-58; SR3_R20-18; SR3_R20-3; SR3_R20-32; SR3_R20-46; SR3_R20-60; SR3_R20-74; SR3_R21-10; SR3_R21-2; SR3_R21-23; SR3_R21-37; SR3_R21-50; SR3_R21-64; SR4_R19-15; SR4_R19-31; SR4_R19-4; SR4_R19-45; SR4_R19-59; SR4_R20-19; SR4_R20-33; SR4_R20-4; SR4_R20-47; SR4_R20-61; SR4_R20-75; SR4_R21-1; SR4_R21-11; SR4_R21-24; SR4_R21-38; SR4_R21-51; SR4_R21-65; Total Organic Carbon Analyzers, Xylem, OI Analytical Aurora 1030W TOC Analyzer [SKU: 322110] coupled to a DELTA V Plus Advantage isotope ratio mass spectrometer; Water Treatment Plant Analyzer, HORIBA Scientific, Aqualog; Year of sampling; Δ14C, dissolved organic carbon; Δ14C, particulate organic carbon; Δδ Deuterium; δ13C, dissolved organic carbon; δ13C, particulate organic carbon; δ18O, water |
| url | https://doi.org/10.1594/PANGAEA.975984 |