Changes
On March 10, 2022 at 2:40:15 PM CST,
Yanique Campbell:
-
Changed value of field
sample_collection
to[{'instrumentTitle': 'Core Barrel', 'methodTitle': 'Ice core collection', 'standardized_instrument_name': 'KOVACS ice coring systems'}, {'instrumentTitle': 'Incubator', 'methodTitle': 'Incubations with radiolabelled carbon (14C)', 'standardized_instrument_name': 'INCUBATOR'}, {'instrumentTitle': 'Rosette Sampler ', 'methodTitle': 'Water collection', 'standardized_instrument_name': 'discrete water samplers'}, {'instrumentTitle': 'Pump/Non-Submersible ', 'methodTitle': 'Incubations with radiolabelled carbon (14C)', 'standardized_instrument_name': ''}, {'instrumentTitle': 'Niskin bottles', 'methodTitle': 'Water collection', 'standardized_instrument_name': 'WATER BOTTLES'}]
in Primary production in ice covered environments
| f | 1 | { | f | 1 | { |
| 2 | "Creator": "Creator", | 2 | "Creator": "Creator", | ||
| 3 | "Date": "2021-02-10", | 3 | "Date": "2021-02-10", | ||
| 4 | "IdentifierType": "DOI", | 4 | "IdentifierType": "DOI", | ||
| 5 | "PublicationYear": "2022", | 5 | "PublicationYear": "2022", | ||
| 6 | "Publisher": "CanWIN", | 6 | "Publisher": "CanWIN", | ||
| 7 | "RelatedIdentifierType": "URL", | 7 | "RelatedIdentifierType": "URL", | ||
| 8 | "RelationType": "IsSupplementTo", | 8 | "RelationType": "IsSupplementTo", | ||
| 9 | "ResourceType": "photosynthesis-irradiance data", | 9 | "ResourceType": "photosynthesis-irradiance data", | ||
| 10 | "Rights": "Creative Commons Attribution 4.0 International", | 10 | "Rights": "Creative Commons Attribution 4.0 International", | ||
| 11 | "Version": "1.0", | 11 | "Version": "1.0", | ||
| 12 | "accessTerms": "CanWIN datasets are licensed individually, however | 12 | "accessTerms": "CanWIN datasets are licensed individually, however | ||
| 13 | most are licensed under the Creative Commons Attribution 4.0 | 13 | most are licensed under the Creative Commons Attribution 4.0 | ||
| 14 | International (CC BY 4.0) Public License. Details for the licence | 14 | International (CC BY 4.0) Public License. Details for the licence | ||
| 15 | applied can be found using the Licence URL link provided with each | 15 | applied can be found using the Licence URL link provided with each | ||
| 16 | dataset. \r\nBy using data and information provided on this site you | 16 | dataset. \r\nBy using data and information provided on this site you | ||
| 17 | accept the terms and conditions of the License. Unless otherwise | 17 | accept the terms and conditions of the License. Unless otherwise | ||
| 18 | specified, the license grants the rights to the public to use and | 18 | specified, the license grants the rights to the public to use and | ||
| 19 | share the data and results derived therefrom as long as the proper | 19 | share the data and results derived therefrom as long as the proper | ||
| 20 | acknowledgment is given to the data licensor (citation), that any | 20 | acknowledgment is given to the data licensor (citation), that any | ||
| 21 | alteration to the data is clearly indicated, and that a link to the | 21 | alteration to the data is clearly indicated, and that a link to the | ||
| 22 | original data and the license is made available.", | 22 | original data and the license is made available.", | ||
| 23 | "activityCollectionType": "Field Measurement", | 23 | "activityCollectionType": "Field Measurement", | ||
| 24 | "analyticalInstrument": [ | 24 | "analyticalInstrument": [ | ||
| 25 | { | 25 | { | ||
| 26 | "Title": "", | 26 | "Title": "", | ||
| 27 | "analyticalInstrumentIdentifier": "", | 27 | "analyticalInstrumentIdentifier": "", | ||
| 28 | "identifierType": "", | 28 | "identifierType": "", | ||
| 29 | "name": "Beckman Coulter LS6500 scintillation counter", | 29 | "name": "Beckman Coulter LS6500 scintillation counter", | ||
| 30 | "titleType": "Alternative Title" | 30 | "titleType": "Alternative Title" | ||
| 31 | } | 31 | } | ||
| 32 | ], | 32 | ], | ||
| 33 | "analyticalMethodName": "Estimation of Photosynthesis-Irradiance | 33 | "analyticalMethodName": "Estimation of Photosynthesis-Irradiance | ||
| 34 | (PE) relationships", | 34 | (PE) relationships", | ||
| 35 | "author": null, | 35 | "author": null, | ||
| 36 | "author_email": null, | 36 | "author_email": null, | ||
| 37 | "award": [ | 37 | "award": [ | ||
| 38 | { | 38 | { | ||
| 39 | "awardTitle": "", | 39 | "awardTitle": "", | ||
| 40 | "awardURI": "" | 40 | "awardURI": "" | ||
| 41 | } | 41 | } | ||
| 42 | ], | 42 | ], | ||
| 43 | "campaignEndDate": "", | 43 | "campaignEndDate": "", | ||
| 44 | "campaignStartDate": "", | 44 | "campaignStartDate": "", | ||
| 45 | "comments": "Citation: Platt T, Gallegos C, Harrison W. 1980. | 45 | "comments": "Citation: Platt T, Gallegos C, Harrison W. 1980. | ||
| 46 | Photoinhibition of photosynthesis in natural assemblages of marine | 46 | Photoinhibition of photosynthesis in natural assemblages of marine | ||
| 47 | phytoplankton. J Mar Res 38: 687\u2013701.", | 47 | phytoplankton. J Mar Res 38: 687\u2013701.", | ||
| 48 | "contributorName": "Matthes, Lisa. C", | 48 | "contributorName": "Matthes, Lisa. C", | ||
| 49 | "contributorType": "DataCurator", | 49 | "contributorType": "DataCurator", | ||
| 50 | "contributors": [ | 50 | "contributors": [ | ||
| 51 | { | 51 | { | ||
| 52 | "affiliation": "Centre for Earth Observation Science - | 52 | "affiliation": "Centre for Earth Observation Science - | ||
| 53 | University of Manitoba", | 53 | University of Manitoba", | ||
| 54 | "contributorName": "Mundy, CJ", | 54 | "contributorName": "Mundy, CJ", | ||
| 55 | "contributorType": "Supervisor", | 55 | "contributorType": "Supervisor", | ||
| 56 | "email": "cj.mundy@umanitoba.ca", | 56 | "email": "cj.mundy@umanitoba.ca", | ||
| 57 | "nameIdentifier": "" | 57 | "nameIdentifier": "" | ||
| 58 | }, | 58 | }, | ||
| 59 | { | 59 | { | ||
| 60 | "affiliation": "Centre for Earth Observation Science - | 60 | "affiliation": "Centre for Earth Observation Science - | ||
| 61 | University of Manitoba", | 61 | University of Manitoba", | ||
| 62 | "contributorName": "Ehns, Jens", | 62 | "contributorName": "Ehns, Jens", | ||
| 63 | "contributorType": "Supervisor", | 63 | "contributorType": "Supervisor", | ||
| 64 | "email": "jens.ehn@umanitoba.ca", | 64 | "email": "jens.ehn@umanitoba.ca", | ||
| 65 | "nameIdentifier": "" | 65 | "nameIdentifier": "" | ||
| 66 | }, | 66 | }, | ||
| 67 | { | 67 | { | ||
| 68 | "affiliation": "Universit\u00e9 du Qu\u00e9bec \u00e0 Rimouski", | 68 | "affiliation": "Universit\u00e9 du Qu\u00e9bec \u00e0 Rimouski", | ||
| 69 | "contributorName": "Belanger, Simon", | 69 | "contributorName": "Belanger, Simon", | ||
| 70 | "contributorType": "Supervisor", | 70 | "contributorType": "Supervisor", | ||
| 71 | "email": "", | 71 | "email": "", | ||
| 72 | "nameIdentifier": "" | 72 | "nameIdentifier": "" | ||
| 73 | } | 73 | } | ||
| 74 | ], | 74 | ], | ||
| 75 | "creatorName": [ | 75 | "creatorName": [ | ||
| 76 | { | 76 | { | ||
| 77 | "author": "Matthes, Lisa. C", | 77 | "author": "Matthes, Lisa. C", | ||
| 78 | "creatorAffiliation": "Centre for Earth Observation Science - | 78 | "creatorAffiliation": "Centre for Earth Observation Science - | ||
| 79 | University of Manitoba", | 79 | University of Manitoba", | ||
| 80 | "creatorEmail": "matthesl@myumanitoba.ca", | 80 | "creatorEmail": "matthesl@myumanitoba.ca", | ||
| 81 | "creatorNameIdentifier": "", | 81 | "creatorNameIdentifier": "", | ||
| 82 | "nameType": "Personal" | 82 | "nameType": "Personal" | ||
| 83 | }, | 83 | }, | ||
| 84 | { | 84 | { | ||
| 85 | "author": "Mundy, CJ", | 85 | "author": "Mundy, CJ", | ||
| 86 | "creatorAffiliation": "Centre for Earth Observation Science - | 86 | "creatorAffiliation": "Centre for Earth Observation Science - | ||
| 87 | University of Manitoba", | 87 | University of Manitoba", | ||
| 88 | "creatorEmail": "cj.mundy@umanitoba.ca", | 88 | "creatorEmail": "cj.mundy@umanitoba.ca", | ||
| 89 | "creatorNameIdentifier": "", | 89 | "creatorNameIdentifier": "", | ||
| 90 | "nameType": "Personal" | 90 | "nameType": "Personal" | ||
| 91 | }, | 91 | }, | ||
| 92 | { | 92 | { | ||
| 93 | "author": "Ehns, Jens", | 93 | "author": "Ehns, Jens", | ||
| 94 | "creatorAffiliation": "Centre for Earth Observation Science - | 94 | "creatorAffiliation": "Centre for Earth Observation Science - | ||
| 95 | University of Manitoba", | 95 | University of Manitoba", | ||
| 96 | "creatorEmail": "jens.ehn@umanitoba.ca", | 96 | "creatorEmail": "jens.ehn@umanitoba.ca", | ||
| 97 | "creatorNameIdentifier": "", | 97 | "creatorNameIdentifier": "", | ||
| 98 | "nameType": "Personal" | 98 | "nameType": "Personal" | ||
| 99 | }, | 99 | }, | ||
| 100 | { | 100 | { | ||
| 101 | "author": "Belanger, Simon", | 101 | "author": "Belanger, Simon", | ||
| 102 | "creatorAffiliation": "Universit\u00e9 du Qu\u00e9bec \u00e0 | 102 | "creatorAffiliation": "Universit\u00e9 du Qu\u00e9bec \u00e0 | ||
| 103 | Rimouski", | 103 | Rimouski", | ||
| 104 | "creatorEmail": "simon_belanger@uqar.ca", | 104 | "creatorEmail": "simon_belanger@uqar.ca", | ||
| 105 | "creatorNameIdentifier": "", | 105 | "creatorNameIdentifier": "", | ||
| 106 | "nameType": "Personal" | 106 | "nameType": "Personal" | ||
| 107 | } | 107 | } | ||
| 108 | ], | 108 | ], | ||
| 109 | "creator_user_id": "59fdde0d-f226-4e5e-99ba-562b96c239a0", | 109 | "creator_user_id": "59fdde0d-f226-4e5e-99ba-562b96c239a0", | ||
| 110 | "dataCuratorAffiliation": "Centre for Earth Observation Science - | 110 | "dataCuratorAffiliation": "Centre for Earth Observation Science - | ||
| 111 | University of Manitoba", | 111 | University of Manitoba", | ||
| 112 | "dataCuratorEmail": "matthesl@myumanitoba.ca", | 112 | "dataCuratorEmail": "matthesl@myumanitoba.ca", | ||
| 113 | "datasetCitation": "", | 113 | "datasetCitation": "", | ||
| 114 | "datasetLevel": "1.1", | 114 | "datasetLevel": "1.1", | ||
| 115 | "datasetPublisher": "CanWIN", | 115 | "datasetPublisher": "CanWIN", | ||
| 116 | "dateType": "Updated", | 116 | "dateType": "Updated", | ||
| 117 | "descriptionType": "Abstract", | 117 | "descriptionType": "Abstract", | ||
| 118 | "embargoDate": "", | 118 | "embargoDate": "", | ||
| 119 | "endDate": "2018-07-01", | 119 | "endDate": "2018-07-01", | ||
| 120 | "endDateType": "Other", | 120 | "endDateType": "Other", | ||
| 121 | "frequency": "Not planned", | 121 | "frequency": "Not planned", | ||
| 122 | "funderIdentifierType": "", | 122 | "funderIdentifierType": "", | ||
| 123 | "funderName": "", | 123 | "funderName": "", | ||
| 124 | "funderSchemeURI": "", | 124 | "funderSchemeURI": "", | ||
| n | 125 | "groups": [], | n | 125 | "groups": [ |
| 126 | { | ||||
| 127 | "description": "Features and characteristics of salt water | ||||
| 128 | bodies.\r\n\r\nIn CEOS, related research themes include | ||||
| 129 | biogeochemistry, modelling, marine mammals, oil spill response, | ||||
| 130 | physical oceanography, remote sensing and technology and trace metals | ||||
| 131 | and contaminants", | ||||
| 132 | "display_name": "Marine", | ||||
| 133 | "id": "98238b1c-5be8-41ad-8c6e-74cdc4f5f369", | ||||
| 134 | "image_display_url": | ||||
| 135 | ata/uploads/group/2021-10-31-211516.365746ofinspireoceanographic.svg", | ||||
| 136 | "name": "marine", | ||||
| 137 | "title": "Marine" | ||||
| 138 | } | ||||
| 139 | ], | ||||
| 126 | "id": "d78c0638-9a83-4ea9-9fcb-329baa6fdca8", | 140 | "id": "d78c0638-9a83-4ea9-9fcb-329baa6fdca8", | ||
| 127 | "isopen": false, | 141 | "isopen": false, | ||
| 128 | "keywords": "Hudson Bay,Ice algae,Melosira arctica,Melt | 142 | "keywords": "Hudson Bay,Ice algae,Melosira arctica,Melt | ||
| 129 | ponds,Photoacclimation,Primary production,Sea ice melt,Spring bloom", | 143 | ponds,Photoacclimation,Primary production,Sea ice melt,Spring bloom", | ||
| 130 | "kvSchemeURI": | 144 | "kvSchemeURI": | ||
| 131 | "https://www.polardata.ca/pdcinput/public/keywordlibrary", | 145 | "https://www.polardata.ca/pdcinput/public/keywordlibrary", | ||
| 132 | "laboratory": "The Centre for Earth Observation Science, University | 146 | "laboratory": "The Centre for Earth Observation Science, University | ||
| 133 | of Manitoba", | 147 | of Manitoba", | ||
| 134 | "licenceShemeURI": "https://spdx.org/licenses", | 148 | "licenceShemeURI": "https://spdx.org/licenses", | ||
| 135 | "licenceType": "Open", | 149 | "licenceType": "Open", | ||
| 136 | "license_id": null, | 150 | "license_id": null, | ||
| 137 | "license_title": null, | 151 | "license_title": null, | ||
| 138 | "maintainer": null, | 152 | "maintainer": null, | ||
| 139 | "maintainer_email": null, | 153 | "maintainer_email": null, | ||
| 140 | "metadata_created": "2022-03-09T19:30:36.363079", | 154 | "metadata_created": "2022-03-09T19:30:36.363079", | ||
| n | 141 | "metadata_modified": "2022-03-10T20:26:31.253599", | n | 155 | "metadata_modified": "2022-03-10T20:40:14.787203", |
| 142 | "methodCitation": "Citation 1: Babin M, Morel A, Gagnon R. 1994. An | 156 | "methodCitation": "Citation 1: Babin M, Morel A, Gagnon R. 1994. An | ||
| 143 | incubator designed for extensive and sensitive measurements of | 157 | incubator designed for extensive and sensitive measurements of | ||
| 144 | phytoplankton photosynthetic parameters. Limnol Oceanogr 39(3): | 158 | phytoplankton photosynthetic parameters. Limnol Oceanogr 39(3): | ||
| 145 | 694\u2013702. doi: 10.4319/lo.1994.39.3.0694. || Citation 2: Ferland | 159 | 694\u2013702. doi: 10.4319/lo.1994.39.3.0694. || Citation 2: Ferland | ||
| 146 | J, Gosselin M, Starr M. 2011. Environmental control of summer primary | 160 | J, Gosselin M, Starr M. 2011. Environmental control of summer primary | ||
| 147 | production in the Hudson Bay system: The role of stratification. J Mar | 161 | production in the Hudson Bay system: The role of stratification. J Mar | ||
| 148 | Syst 88(3): 385\u2013400.", | 162 | Syst 88(3): 385\u2013400.", | ||
| 149 | "methodDescrioption": "**Ice core collection**\r\n\r\nThe 1-cm or | 163 | "methodDescrioption": "**Ice core collection**\r\n\r\nThe 1-cm or | ||
| 150 | 5-cm bottom section of several ice cores was collected, pooled | 164 | 5-cm bottom section of several ice cores was collected, pooled | ||
| 151 | immediately in a dark isothermal container and melted in 0.2-\uf06dm | 165 | immediately in a dark isothermal container and melted in 0.2-\uf06dm | ||
| 152 | filtered seawater (FSW) at a ratio of 3:1 (three parts FSW, one part | 166 | filtered seawater (FSW) at a ratio of 3:1 (three parts FSW, one part | ||
| 153 | ice core volume) in the dark over 24 h to reduce osmotic | 167 | ice core volume) in the dark over 24 h to reduce osmotic | ||
| 154 | stress.\r\n\r\n**Incubations with radiolabelled carbon | 168 | stress.\r\n\r\n**Incubations with radiolabelled carbon | ||
| 155 | (14C)**\r\n\r\nIce algal samples for the measurement of primary | 169 | (14C)**\r\n\r\nIce algal samples for the measurement of primary | ||
| 156 | production were collected from melted bottom-ice sections. Primary | 170 | production were collected from melted bottom-ice sections. Primary | ||
| 157 | production was determined using the 14C assimilation method and | 171 | production was determined using the 14C assimilation method and | ||
| 158 | applying photosynthesis-irradiance (PE) relationships. Water samples | 172 | applying photosynthesis-irradiance (PE) relationships. Water samples | ||
| 159 | in 1000-mL opaque Nalgene bottles were inoculated with volume of | 173 | in 1000-mL opaque Nalgene bottles were inoculated with volume of | ||
| 160 | NaH14CO3 between 100 and 480 \uf06dL depending on the strength of the | 174 | NaH14CO3 between 100 and 480 \uf06dL depending on the strength of the | ||
| 161 | Chl a fluorescence signal during the rosette cast and the length of | 175 | Chl a fluorescence signal during the rosette cast and the length of | ||
| 162 | the incubation. Out of each sampling bottle, sub-samples of 50 mL were | 176 | the incubation. Out of each sampling bottle, sub-samples of 50 mL were | ||
| 163 | transferred to 12 clear culture flasks and one opaque flask which were | 177 | transferred to 12 clear culture flasks and one opaque flask which were | ||
| 164 | placed in a custom-made incubation chamber adapted after Babin et al. | 178 | placed in a custom-made incubation chamber adapted after Babin et al. | ||
| 165 | (1994). In the incubator, bottles were arranged in a row with the | 179 | (1994). In the incubator, bottles were arranged in a row with the | ||
| 166 | first bottle closest to the light source and the dark bottle the | 180 | first bottle closest to the light source and the dark bottle the | ||
| 167 | furthest to provide a light gradient from 860 to 0 \uf06dmol photons | 181 | furthest to provide a light gradient from 860 to 0 \uf06dmol photons | ||
| 168 | m-2 s-1. They were incubated at -1.6\u2000C for 2 \u2013 4 h. Three | 182 | m-2 s-1. They were incubated at -1.6\u2000C for 2 \u2013 4 h. Three | ||
| 169 | vials were also filled with 20 \u03bcL of the sample, 50 \u03bcL of | 183 | vials were also filled with 20 \u03bcL of the sample, 50 \u03bcL of | ||
| 170 | ethanolamine and 500 \u03bcL of MilliQ water to measure the initial | 184 | ethanolamine and 500 \u03bcL of MilliQ water to measure the initial | ||
| 171 | activity and to determine the exact concentration of 14C in the | 185 | activity and to determine the exact concentration of 14C in the | ||
| 172 | samples. At the end of the incubation, samples were filtered onto | 186 | samples. At the end of the incubation, samples were filtered onto | ||
| 173 | 20-\uf06dm Millipore filters and filters were transferred into 20-mL | 187 | 20-\uf06dm Millipore filters and filters were transferred into 20-mL | ||
| 174 | scintillation vials to be spiked with 300 \uf06dL of hydrochloric | 188 | scintillation vials to be spiked with 300 \uf06dL of hydrochloric | ||
| 175 | acid. Vials were placed open on an orbital shaker for 2 h to evaporate | 189 | acid. Vials were placed open on an orbital shaker for 2 h to evaporate | ||
| 176 | the remaining inorganic 14C on the filter under a fume hood. | 190 | the remaining inorganic 14C on the filter under a fume hood. | ||
| 177 | Afterwards, vails were filled with 10 mL EcoLume Scintillation | 191 | Afterwards, vails were filled with 10 mL EcoLume Scintillation | ||
| 178 | Cocktail (MP Biomedicals) and the particulate radioactive carbon | 192 | Cocktail (MP Biomedicals) and the particulate radioactive carbon | ||
| 179 | uptake was counted onboard using a Beckman Coulter LS6500 | 193 | uptake was counted onboard using a Beckman Coulter LS6500 | ||
| 180 | scintillation counter. The carbon uptake values in the opaque flask | 194 | scintillation counter. The carbon uptake values in the opaque flask | ||
| 181 | were subtracted from the corresponding clear flask carbon uptake | 195 | were subtracted from the corresponding clear flask carbon uptake | ||
| 182 | values.\r\n\r\n**Water collection**\r\n\r\nWater samples for the | 196 | values.\r\n\r\n**Water collection**\r\n\r\nWater samples for the | ||
| 183 | analysis of taxonomic composition were collected from the surface, | 197 | analysis of taxonomic composition were collected from the surface, | ||
| 184 | ice-water interface and subsurface chlorophyll maximum with 12-L | 198 | ice-water interface and subsurface chlorophyll maximum with 12-L | ||
| 185 | Niskin bottles.\r\n\r\n**Incubations with radiolabelled carbon | 199 | Niskin bottles.\r\n\r\n**Incubations with radiolabelled carbon | ||
| 186 | (14C)**\r\n\r\nWater samples for the measurement of primary production | 200 | (14C)**\r\n\r\nWater samples for the measurement of primary production | ||
| 187 | were collected from the optical depths at 100 (i.e. sea surface), 30, | 201 | were collected from the optical depths at 100 (i.e. sea surface), 30, | ||
| 188 | 15, 5, 1, and 0.2% of surface irradiance with 12-L Niskin bottles | 202 | 15, 5, 1, and 0.2% of surface irradiance with 12-L Niskin bottles | ||
| 189 | (Rosette), and from the ice-water interface and melt ponds with a | 203 | (Rosette), and from the ice-water interface and melt ponds with a | ||
| 190 | pump. Primary production of melt pond and phytoplankton communities | 204 | pump. Primary production of melt pond and phytoplankton communities | ||
| 191 | was determined using the 14C assimilation method and applying | 205 | was determined using the 14C assimilation method and applying | ||
| 192 | photosynthesis-irradiance (PE) relationships. Water samples in 1000-mL | 206 | photosynthesis-irradiance (PE) relationships. Water samples in 1000-mL | ||
| 193 | opaque Nalgene bottles were inoculated with volume of NaH14CO3 between | 207 | opaque Nalgene bottles were inoculated with volume of NaH14CO3 between | ||
| 194 | 100 and 480 \uf06dL depending on the strength of the Chl a | 208 | 100 and 480 \uf06dL depending on the strength of the Chl a | ||
| 195 | fluorescence signal during the rosette cast and the length of the | 209 | fluorescence signal during the rosette cast and the length of the | ||
| 196 | incubation. Out of each sampling bottle, sub-samples of 50 mL were | 210 | incubation. Out of each sampling bottle, sub-samples of 50 mL were | ||
| 197 | transferred to 12 clear culture flasks and one opaque flask which were | 211 | transferred to 12 clear culture flasks and one opaque flask which were | ||
| 198 | placed in a custom-made incubation chamber adapted after Babin et al. | 212 | placed in a custom-made incubation chamber adapted after Babin et al. | ||
| 199 | (1994). In the incubator, bottles were arranged in a row with the | 213 | (1994). In the incubator, bottles were arranged in a row with the | ||
| 200 | first bottle closest to the light source and the dark bottle the | 214 | first bottle closest to the light source and the dark bottle the | ||
| 201 | furthest to provide a light gradient from 860 to 0 \uf06dmol photons | 215 | furthest to provide a light gradient from 860 to 0 \uf06dmol photons | ||
| 202 | m-2 s-1. They were incubated at -1.6\u2000C for 2 \u2013 4 h. Three | 216 | m-2 s-1. They were incubated at -1.6\u2000C for 2 \u2013 4 h. Three | ||
| 203 | vials were also filled with 20 \u03bcL of the sample, 50 \u03bcL of | 217 | vials were also filled with 20 \u03bcL of the sample, 50 \u03bcL of | ||
| 204 | ethanolamine and 500 \u03bcL of MilliQ water to measure the initial | 218 | ethanolamine and 500 \u03bcL of MilliQ water to measure the initial | ||
| 205 | activity and to determine the exact concentration of 14C in the | 219 | activity and to determine the exact concentration of 14C in the | ||
| 206 | samples. At the end of the incubation, samples were filtered onto | 220 | samples. At the end of the incubation, samples were filtered onto | ||
| 207 | 20-\uf06dm Millipore filters and filters were transferred into 20-mL | 221 | 20-\uf06dm Millipore filters and filters were transferred into 20-mL | ||
| 208 | scintillation vials to be spiked with 300 \uf06dL of hydrochloric | 222 | scintillation vials to be spiked with 300 \uf06dL of hydrochloric | ||
| 209 | acid. Vials were placed open on an orbital shaker for 2 h to evaporate | 223 | acid. Vials were placed open on an orbital shaker for 2 h to evaporate | ||
| 210 | the remaining inorganic 14C on the filter under a fume hood. | 224 | the remaining inorganic 14C on the filter under a fume hood. | ||
| 211 | Afterwards, vails were filled with 10 mL EcoLume Scintillation | 225 | Afterwards, vails were filled with 10 mL EcoLume Scintillation | ||
| 212 | Cocktail (MP Biomedicals) and the particulate radioactive carbon | 226 | Cocktail (MP Biomedicals) and the particulate radioactive carbon | ||
| 213 | uptake was counted onboard using a Beckman Coulter LS6500 | 227 | uptake was counted onboard using a Beckman Coulter LS6500 | ||
| 214 | scintillation counter. The carbon uptake values in the opaque flask | 228 | scintillation counter. The carbon uptake values in the opaque flask | ||
| 215 | were subtracted from the corresponding clear flask carbon uptake | 229 | were subtracted from the corresponding clear flask carbon uptake | ||
| 216 | values.", | 230 | values.", | ||
| 217 | "methodDescriptionType": "Methods", | 231 | "methodDescriptionType": "Methods", | ||
| 218 | "methodLink": "", | 232 | "methodLink": "", | ||
| 219 | "methodSummary": "Calculated carbon fixation rates were normalized | 233 | "methodSummary": "Calculated carbon fixation rates were normalized | ||
| 220 | to measured Chl a, corrected for dissolved inorganic carbon in the | 234 | to measured Chl a, corrected for dissolved inorganic carbon in the | ||
| 221 | sample, and photosynthesis-irradiance relationships (PE curves) were | 235 | sample, and photosynthesis-irradiance relationships (PE curves) were | ||
| 222 | fitted by minimizing the sum of differences between the measured | 236 | fitted by minimizing the sum of differences between the measured | ||
| 223 | carbon uptake and the model proposed by Platt et al. (1980). ", | 237 | carbon uptake and the model proposed by Platt et al. (1980). ", | ||
| 224 | "methodUrl": "", | 238 | "methodUrl": "", | ||
| 225 | "name": "primary-production-in-ice", | 239 | "name": "primary-production-in-ice", | ||
| 226 | "notes": "These datasets describe photosynthesis-irradiance | 240 | "notes": "These datasets describe photosynthesis-irradiance | ||
| 227 | relationships that were used for:\r\n\r\n1. Primary production of | 241 | relationships that were used for:\r\n\r\n1. Primary production of | ||
| 228 | bottom-ice communities and Melosira arctica \r\n2. Estimation of | 242 | bottom-ice communities and Melosira arctica \r\n2. Estimation of | ||
| 229 | primary production of phytoplankton and melt pond communities | 243 | primary production of phytoplankton and melt pond communities | ||
| 230 | \r\n\r\nData was collected during the BaySys cruise in Hudson Bay in | 244 | \r\n\r\nData was collected during the BaySys cruise in Hudson Bay in | ||
| 231 | June/ July 2018.", | 245 | June/ July 2018.", | ||
| 232 | "num_resources": 3, | 246 | "num_resources": 3, | ||
| 233 | "num_tags": 8, | 247 | "num_tags": 8, | ||
| 234 | "organization": { | 248 | "organization": { | ||
| 235 | "approval_status": "approved", | 249 | "approval_status": "approved", | ||
| 236 | "created": "2017-07-21T13:15:49.935872", | 250 | "created": "2017-07-21T13:15:49.935872", | ||
| 237 | "description": "The Centre for Earth Observation Science (CEOS) | 251 | "description": "The Centre for Earth Observation Science (CEOS) | ||
| 238 | was established in 1994 with a mandate to research, preserve and | 252 | was established in 1994 with a mandate to research, preserve and | ||
| 239 | communicate knowledge of Earth system processes using the technologies | 253 | communicate knowledge of Earth system processes using the technologies | ||
| 240 | of Earth Observation Science. Research is multidisciplinary and | 254 | of Earth Observation Science. Research is multidisciplinary and | ||
| 241 | collaborative seeking to understand the complex interrelationships | 255 | collaborative seeking to understand the complex interrelationships | ||
| 242 | between elements of Earth systems, and how these systems will likely | 256 | between elements of Earth systems, and how these systems will likely | ||
| 243 | respond to climate change. Although researchers have worked in many | 257 | respond to climate change. Although researchers have worked in many | ||
| 244 | regions, the Arctic marine system has always been a unifying focus of | 258 | regions, the Arctic marine system has always been a unifying focus of | ||
| 245 | activity.\r\n\r\nIn 2012, CEOS, along with the Greenland Climate | 259 | activity.\r\n\r\nIn 2012, CEOS, along with the Greenland Climate | ||
| 246 | Research Centre (GCRC, Nuuk, Greenland) and the Arctic Research Centre | 260 | Research Centre (GCRC, Nuuk, Greenland) and the Arctic Research Centre | ||
| 247 | (ARC, Aarhus, Denmark) established the Arctic Science Partnership, | 261 | (ARC, Aarhus, Denmark) established the Arctic Science Partnership, | ||
| 248 | thereby integrating academic and research initiatives.\r\n\r\nAreas of | 262 | thereby integrating academic and research initiatives.\r\n\r\nAreas of | ||
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| 250 | Anthropology/Paleoclimatology: LiDAR scanning and digital site | 264 | Anthropology/Paleoclimatology: LiDAR scanning and digital site | ||
| 251 | preservation, archaeo-geophysics, permafrost degredation, lithic | 265 | preservation, archaeo-geophysics, permafrost degredation, lithic | ||
| 252 | morphometrics, zooarchaeology, proxy studies, paleodistribution of sea | 266 | morphometrics, zooarchaeology, proxy studies, paleodistribution of sea | ||
| 253 | ice, landscape learning, Paleo-Eskimo culture, Thule Inuit culture, | 267 | ice, landscape learning, Paleo-Eskimo culture, Thule Inuit culture, | ||
| 254 | ethnographic analogy, traditional knowledge, climate change and | 268 | ethnographic analogy, traditional knowledge, climate change and | ||
| 255 | northern heritage resource management.\r\n\r\nAtmospheric | 269 | northern heritage resource management.\r\n\r\nAtmospheric | ||
| 256 | Studies/Meteorology: Boundary layer, precipitation, clouds, storms and | 270 | Studies/Meteorology: Boundary layer, precipitation, clouds, storms and | ||
| 257 | extreme weather, circulation, eddy correlations, polar vortex, | 271 | extreme weather, circulation, eddy correlations, polar vortex, | ||
| 258 | climate, teleconnections, geophysical fluid dynamics, flux and energy | 272 | climate, teleconnections, geophysical fluid dynamics, flux and energy | ||
| 259 | budgets, ocean-sea ice-atmosphere interface, radiative transfer, ice | 273 | budgets, ocean-sea ice-atmosphere interface, radiative transfer, ice | ||
| 260 | albedo feedback, cloud radiative forcing, pCO2. | 274 | albedo feedback, cloud radiative forcing, pCO2. | ||
| 261 | \r\n\r\nBiogeochemistry: Organic carbon, greenhouse gases, bubbles, | 275 | \r\n\r\nBiogeochemistry: Organic carbon, greenhouse gases, bubbles, | ||
| 262 | Ikaite, carbonate chemistry, CO2 fluxes, mercury and other trace | 276 | Ikaite, carbonate chemistry, CO2 fluxes, mercury and other trace | ||
| 263 | metals, minerals, hydrocarbons, brine processes, otolith | 277 | metals, minerals, hydrocarbons, brine processes, otolith | ||
| 264 | microchemistry, sediments, biomarkers. \r\n\r\nContaminants: Mercury, | 278 | microchemistry, sediments, biomarkers. \r\n\r\nContaminants: Mercury, | ||
| 265 | trace metals, PAHs, source, transport, transformation, pathways, | 279 | trace metals, PAHs, source, transport, transformation, pathways, | ||
| 266 | bioaccumulations, marine ecosystems, marine chemistry. \r\nEarth | 280 | bioaccumulations, marine ecosystems, marine chemistry. \r\nEarth | ||
| 267 | Observation Science: Active and passive microwave, LiDAR, EM | 281 | Observation Science: Active and passive microwave, LiDAR, EM | ||
| 268 | induction, spatial-temporal analysis, forward and inverse scattering | 282 | induction, spatial-temporal analysis, forward and inverse scattering | ||
| 269 | models, complex permittivity, ocean colour, ocean surface roughness, | 283 | models, complex permittivity, ocean colour, ocean surface roughness, | ||
| 270 | NIR, TIR, satellite telemetry, GPS. Ice-Associated Biology: | 284 | NIR, TIR, satellite telemetry, GPS. Ice-Associated Biology: | ||
| 271 | Biophysical processes, primary production; ice algae, ice | 285 | Biophysical processes, primary production; ice algae, ice | ||
| 272 | microbiology, bio-optics, under-ice phytoplankton. \r\n\r\nInland | 286 | microbiology, bio-optics, under-ice phytoplankton. \r\n\r\nInland | ||
| 273 | Lakes and Waters: Hydrologic connectivity, watershed systems, sediment | 287 | Lakes and Waters: Hydrologic connectivity, watershed systems, sediment | ||
| 274 | transport, nutrient transport, contaminants, landscape processes, | 288 | transport, nutrient transport, contaminants, landscape processes, | ||
| 275 | remote sensing, freshwater-marine coupling. Marine Mammals: Seals, | 289 | remote sensing, freshwater-marine coupling. Marine Mammals: Seals, | ||
| 276 | whales, habitat, conservation, satellite telemetry, distribution, | 290 | whales, habitat, conservation, satellite telemetry, distribution, | ||
| 277 | population studies, prey behaviour, bioacoustics.\r\n\r\nModelling: | 291 | population studies, prey behaviour, bioacoustics.\r\n\r\nModelling: | ||
| 278 | Simulation of sea ice and oceanic regional processes, Nucleus for | 292 | Simulation of sea ice and oceanic regional processes, Nucleus for | ||
| 279 | European Modelling of the Ocean (NEMO), ice-ocean modelling and | 293 | European Modelling of the Ocean (NEMO), ice-ocean modelling and | ||
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| 281 | and ocean variables based on CMIP5 scenarios and MIROC5 forcing, | 295 | and ocean variables based on CMIP5 scenarios and MIROC5 forcing, | ||
| 282 | validation.\r\n\r\nOceanography: Circulation, temperature, in-flow and | 296 | validation.\r\n\r\nOceanography: Circulation, temperature, in-flow and | ||
| 283 | out-flow shelves, water dynamics, microturbulence, Beaufort Gyre, eddy | 297 | out-flow shelves, water dynamics, microturbulence, Beaufort Gyre, eddy | ||
| 284 | correlations.\r\n\r\nSea Ice Geophysics:Thermodynamic and dynamic | 298 | correlations.\r\n\r\nSea Ice Geophysics:Thermodynamic and dynamic | ||
| 285 | processes, extreme ice features and hazards, snow, ridges, | 299 | processes, extreme ice features and hazards, snow, ridges, | ||
| 286 | polynyas.\r\n\r\nTraditional and Local Knowledge: Indigenous cultures, | 300 | polynyas.\r\n\r\nTraditional and Local Knowledge: Indigenous cultures, | ||
| 287 | Inuit, Inuvialuit, oral history, toponomy, mobility and settlement, | 301 | Inuit, Inuvialuit, oral history, toponomy, mobility and settlement, | ||
| 288 | hunting, food security, sea ice use, community-based research, | 302 | hunting, food security, sea ice use, community-based research, | ||
| 289 | community-based monitoring, two ways of knowing.", | 303 | community-based monitoring, two ways of knowing.", | ||
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| 471 | { | 500 | { | ||
| 472 | "display_name": "Primary production", | 501 | "display_name": "Primary production", | ||
| 473 | "id": "568c406b-0974-4083-a7e8-794d5a73fade", | 502 | "id": "568c406b-0974-4083-a7e8-794d5a73fade", | ||
| 474 | "name": "Primary production", | 503 | "name": "Primary production", | ||
| 475 | "state": "active", | 504 | "state": "active", | ||
| 476 | "vocabulary_id": null | 505 | "vocabulary_id": null | ||
| 477 | }, | 506 | }, | ||
| 478 | { | 507 | { | ||
| 479 | "display_name": "Sea ice melt", | 508 | "display_name": "Sea ice melt", | ||
| 480 | "id": "b6bd462a-302a-47d2-98c6-ad0abbd70488", | 509 | "id": "b6bd462a-302a-47d2-98c6-ad0abbd70488", | ||
| 481 | "name": "Sea ice melt", | 510 | "name": "Sea ice melt", | ||
| 482 | "state": "active", | 511 | "state": "active", | ||
| 483 | "vocabulary_id": null | 512 | "vocabulary_id": null | ||
| 484 | }, | 513 | }, | ||
| 485 | { | 514 | { | ||
| 486 | "display_name": "Spring bloom", | 515 | "display_name": "Spring bloom", | ||
| 487 | "id": "f1d9a903-164f-4f84-b12c-efcea91a5434", | 516 | "id": "f1d9a903-164f-4f84-b12c-efcea91a5434", | ||
| 488 | "name": "Spring bloom", | 517 | "name": "Spring bloom", | ||
| 489 | "state": "active", | 518 | "state": "active", | ||
| 490 | "vocabulary_id": null | 519 | "vocabulary_id": null | ||
| 491 | } | 520 | } | ||
| 492 | ], | 521 | ], | ||
| 493 | "theme": [ | 522 | "theme": [ | ||
| 494 | "98238b1c-5be8-41ad-8c6e-74cdc4f5f369" | 523 | "98238b1c-5be8-41ad-8c6e-74cdc4f5f369" | ||
| 495 | ], | 524 | ], | ||
| 496 | "title": "Primary production in ice covered environments", | 525 | "title": "Primary production in ice covered environments", | ||
| 497 | "titleType": "Alternative Title", | 526 | "titleType": "Alternative Title", | ||
| 498 | "type": "dataset", | 527 | "type": "dataset", | ||
| 499 | "url": null, | 528 | "url": null, | ||
| 500 | "useTerms": "By accessing this data you agree to [CanWIN's Terms of | 529 | "useTerms": "By accessing this data you agree to [CanWIN's Terms of | ||
| 501 | anwin-data-statement/resource/5b942a87-ef4e-466e-8319-f588844e89c0).", | 530 | anwin-data-statement/resource/5b942a87-ef4e-466e-8319-f588844e89c0).", | ||
| 502 | "variablesMeasured": "Melted bottom core sections for primary | 531 | "variablesMeasured": "Melted bottom core sections for primary | ||
| 503 | production measurements, Particulate radioactive carbon uptake,", | 532 | production measurements, Particulate radioactive carbon uptake,", | ||
| 504 | "version": null | 533 | "version": null | ||
| 505 | } | 534 | } |