Changes
On November 30, 2024 at 10:49:44 AM UTC,
admin:
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Moved Physiological response of E. huxleyi ecotype A, strain SO5.14 to changing carbonate chemistry under nutrient-replete conditions from organization PANGAEA (Biosphere) to organization PANGAEA (Ecology)
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Removed the following tags from Physiological response of E. huxleyi ecotype A, strain SO5.14 to changing carbonate chemistry under nutrient-replete conditions
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Added the following tags to Physiological response of E. huxleyi ecotype A, strain SO5.14 to changing carbonate chemistry under nutrient-replete conditions
| f | 1 | { | f | 1 | { |
| 2 | "author": "M\u00fcller, Marius N", | 2 | "author": "M\u00fcller, Marius N", | ||
| 3 | "author_email": "", | 3 | "author_email": "", | ||
| 4 | "citation": [], | 4 | "citation": [], | ||
| 5 | "creator_user_id": "17755db4-395a-4b3b-ac09-e8e3484ca700", | 5 | "creator_user_id": "17755db4-395a-4b3b-ac09-e8e3484ca700", | ||
| 6 | "doi": "10.1594/PANGAEA.958503", | 6 | "doi": "10.1594/PANGAEA.958503", | ||
| 7 | "doi_date_published": "2023", | 7 | "doi_date_published": "2023", | ||
| 8 | "doi_publisher": "", | 8 | "doi_publisher": "", | ||
| 9 | "doi_status": "True", | 9 | "doi_status": "True", | ||
| 10 | "extra_authors": [ | 10 | "extra_authors": [ | ||
| 11 | { | 11 | { | ||
| 12 | "extra_author": "Trull, Tom W", | 12 | "extra_author": "Trull, Tom W", | ||
| 13 | "familyName": "Trull", | 13 | "familyName": "Trull", | ||
| 14 | "givenName": "Tom W", | 14 | "givenName": "Tom W", | ||
| 15 | "orcid": "" | 15 | "orcid": "" | ||
| 16 | }, | 16 | }, | ||
| 17 | { | 17 | { | ||
| 18 | "extra_author": "Hallegraeff, Gustaaf M", | 18 | "extra_author": "Hallegraeff, Gustaaf M", | ||
| 19 | "familyName": "Hallegraeff", | 19 | "familyName": "Hallegraeff", | ||
| 20 | "givenName": "Gustaaf M", | 20 | "givenName": "Gustaaf M", | ||
| 21 | "orcid": "0000-0001-8464-7343" | 21 | "orcid": "0000-0001-8464-7343" | ||
| 22 | } | 22 | } | ||
| 23 | ], | 23 | ], | ||
| 24 | "familyName": "M\u00fcller", | 24 | "familyName": "M\u00fcller", | ||
| 25 | "givenName": "Marius N", | 25 | "givenName": "Marius N", | ||
| 26 | "groups": [], | 26 | "groups": [], | ||
| 27 | "id": "8cef9987-b9b8-483b-8069-48182f5f89ea", | 27 | "id": "8cef9987-b9b8-483b-8069-48182f5f89ea", | ||
| 28 | "isopen": false, | 28 | "isopen": false, | ||
| 29 | "license_id": "CC-BY-4.0", | 29 | "license_id": "CC-BY-4.0", | ||
| 30 | "license_title": "CC-BY-4.0", | 30 | "license_title": "CC-BY-4.0", | ||
| 31 | "metadata_created": "2024-11-29T12:09:14.674984", | 31 | "metadata_created": "2024-11-29T12:09:14.674984", | ||
| n | 32 | "metadata_modified": "2024-11-29T12:09:14.674990", | n | 32 | "metadata_modified": "2024-11-30T10:49:44.411442", |
| 33 | "name": "png-doi-10-1594-pangaea-958503", | 33 | "name": "png-doi-10-1594-pangaea-958503", | ||
| 34 | "notes": "Future oceanic conditions induced by anthropogenic | 34 | "notes": "Future oceanic conditions induced by anthropogenic | ||
| 35 | greenhouse gas emissions include warming, acidification and reduced | 35 | greenhouse gas emissions include warming, acidification and reduced | ||
| 36 | nutrient supply due to increased stratification. Some parts of the | 36 | nutrient supply due to increased stratification. Some parts of the | ||
| 37 | Southern Ocean are expected to show rapid changes, especially for | 37 | Southern Ocean are expected to show rapid changes, especially for | ||
| 38 | carbonate mineral saturation. Here we compare the physiological | 38 | carbonate mineral saturation. Here we compare the physiological | ||
| 39 | response of the model coccolithophore Emiliania huxleyi (strain EHSO | 39 | response of the model coccolithophore Emiliania huxleyi (strain EHSO | ||
| 40 | 5.14, originating from 50S, 149E) with pH/CO2 gradients (mimicking | 40 | 5.14, originating from 50S, 149E) with pH/CO2 gradients (mimicking | ||
| 41 | ocean acidification ranging from 1 to 4 \u00d7 current pCO2 levels) | 41 | ocean acidification ranging from 1 to 4 \u00d7 current pCO2 levels) | ||
| 42 | under nutrient-limited (nitrogen and phosphorus) and -replete | 42 | under nutrient-limited (nitrogen and phosphorus) and -replete | ||
| 43 | conditions. Both nutrient limitations decreased per cell | 43 | conditions. Both nutrient limitations decreased per cell | ||
| 44 | photosynthesis (particulate organic carbon (POC) production) and | 44 | photosynthesis (particulate organic carbon (POC) production) and | ||
| 45 | calcification (particulate inorganic carbon (PIC) production) rates | 45 | calcification (particulate inorganic carbon (PIC) production) rates | ||
| 46 | for all pCO2 levels, with more than 50% reductions under nitrogen | 46 | for all pCO2 levels, with more than 50% reductions under nitrogen | ||
| 47 | limitation. These impacts, however, became indistinguishable from | 47 | limitation. These impacts, however, became indistinguishable from | ||
| 48 | nutrient-replete conditions when normalized to cell volume. | 48 | nutrient-replete conditions when normalized to cell volume. | ||
| 49 | Calcification decreased three-fold and linearly with increasing pCO2 | 49 | Calcification decreased three-fold and linearly with increasing pCO2 | ||
| 50 | under all nutrient conditions, and was accompanied by a smaller ~30% | 50 | under all nutrient conditions, and was accompanied by a smaller ~30% | ||
| 51 | nonlinear reduction in POC production, manifested mainly above 3 | 51 | nonlinear reduction in POC production, manifested mainly above 3 | ||
| 52 | \u00d7 current pCO2. Our results suggest that normalization to cell | 52 | \u00d7 current pCO2. Our results suggest that normalization to cell | ||
| 53 | volume allows the major impacts of nutrient limitation (changed cell | 53 | volume allows the major impacts of nutrient limitation (changed cell | ||
| 54 | sizes and reduced PIC and POC production rates) to be treated | 54 | sizes and reduced PIC and POC production rates) to be treated | ||
| 55 | independently of the major impacts of increasing pCO2 and, | 55 | independently of the major impacts of increasing pCO2 and, | ||
| 56 | additionally, stresses the importance of including cell volume | 56 | additionally, stresses the importance of including cell volume | ||
| 57 | measurements to the toolbox of standard physiological analysis of | 57 | measurements to the toolbox of standard physiological analysis of | ||
| 58 | coccolithophores in field and laboratory studies.", | 58 | coccolithophores in field and laboratory studies.", | ||
| 59 | "num_resources": 0, | 59 | "num_resources": 0, | ||
| n | 60 | "num_tags": 14, | n | 60 | "num_tags": 21, |
| 61 | "orcid": "", | 61 | "orcid": "", | ||
| 62 | "organization": { | 62 | "organization": { | ||
| 63 | "approval_status": "approved", | 63 | "approval_status": "approved", | ||
| n | 64 | "created": "2024-11-29T11:32:00.143130", | n | 64 | "created": "2024-11-30T10:25:26.439072", |
| 65 | "description": "PANGAEA (Data Publisher for Earth & Environmental | 65 | "description": "PANGAEA (Data Publisher for Earth & Environmental | ||
| 66 | Science): The information system PANGAEA is operated as an Open Access | 66 | Science): The information system PANGAEA is operated as an Open Access | ||
| 67 | library aimed at archiving, publishing and distributing georeferenced | 67 | library aimed at archiving, publishing and distributing georeferenced | ||
| 68 | data from earth system research. PANGAEA guarantees long-term | 68 | data from earth system research. PANGAEA guarantees long-term | ||
| 69 | availability (greater than 10 years) of its content. PANGAEA is open | 69 | availability (greater than 10 years) of its content. PANGAEA is open | ||
| 70 | to any project, institution, or individual scientist to use or to | 70 | to any project, institution, or individual scientist to use or to | ||
| 71 | archive and publish data. PANGAEA focuses on georeferenced | 71 | archive and publish data. PANGAEA focuses on georeferenced | ||
| 72 | observational data, experimental data, and models/simulations. | 72 | observational data, experimental data, and models/simulations. | ||
| 73 | Citability, comprehensive metadata descriptions, interoperability of | 73 | Citability, comprehensive metadata descriptions, interoperability of | ||
| 74 | data and metadata, a high degree of structural and semantic | 74 | data and metadata, a high degree of structural and semantic | ||
| 75 | harmonization of the data inventory as well as the commitment of the | 75 | harmonization of the data inventory as well as the commitment of the | ||
| 76 | hosting institutions ensures FAIRness of archived data.", | 76 | hosting institutions ensures FAIRness of archived data.", | ||
| n | 77 | "id": "3226ef9c-20d1-43fd-ba8f-fa35c8c9fb5d", | n | 77 | "id": "c2816fc6-b5ce-42c9-b5a4-11709b658b82", |
| 78 | "image_url": "pangaea_topicbiosphere.png", | 78 | "image_url": "pangaea_topicecology.png", | ||
| 79 | "is_organization": true, | 79 | "is_organization": true, | ||
| n | 80 | "name": "pangaea_biosphere", | n | 80 | "name": "pangaea_ecology", |
| 81 | "state": "active", | 81 | "state": "active", | ||
| n | 82 | "title": "PANGAEA (Biosphere)", | n | 82 | "title": "PANGAEA (Ecology)", |
| 83 | "type": "organization" | 83 | "type": "organization" | ||
| 84 | }, | 84 | }, | ||
| n | 85 | "owner_org": "3226ef9c-20d1-43fd-ba8f-fa35c8c9fb5d", | n | 85 | "owner_org": "c2816fc6-b5ce-42c9-b5a4-11709b658b82", |
| 86 | "private": false, | 86 | "private": false, | ||
| 87 | "publication_year": "2023", | 87 | "publication_year": "2023", | ||
| 88 | "related_identifiers": [ | 88 | "related_identifiers": [ | ||
| 89 | { | 89 | { | ||
| 90 | "authors": "M\u00fcller Marius N,Trull Tom W,Hallegraeff Gustaaf | 90 | "authors": "M\u00fcller Marius N,Trull Tom W,Hallegraeff Gustaaf | ||
| 91 | M,Gattuso Jean-Pierre,Epitalon Jean-Marie,Lavigne | 91 | M,Gattuso Jean-Pierre,Epitalon Jean-Marie,Lavigne | ||
| 92 | H\u00e9lo\u00efse,Orr James,Gentili Bernard,Hagens Mathilde,Hofmann | 92 | H\u00e9lo\u00efse,Orr James,Gentili Bernard,Hagens Mathilde,Hofmann | ||
| 93 | Andreas,Mueller Jens-Daniel,Proye Aur\u00e9lien,Rae James,Soetaert | 93 | Andreas,Mueller Jens-Daniel,Proye Aur\u00e9lien,Rae James,Soetaert | ||
| 94 | Karline", | 94 | Karline", | ||
| 95 | "email_authors": | 95 | "email_authors": | ||
| 96 | lsce.ipsl.fr,bernard.gentili@orange.fr,,,,,,karline.soetaert@nioz.nl", | 96 | lsce.ipsl.fr,bernard.gentili@orange.fr,,,,,,karline.soetaert@nioz.nl", | ||
| 97 | "identifier": "https://doi.org/10.1038/ismej.2017.53", | 97 | "identifier": "https://doi.org/10.1038/ismej.2017.53", | ||
| 98 | "identifier_type": "DOI", | 98 | "identifier_type": "DOI", | ||
| 99 | "orcid_authors": | 99 | "orcid_authors": | ||
| 100 | 4,,,,,0000-0003-3980-1043,,,,0000-0003-3904-2526,0000-0003-4603-7100", | 100 | 4,,,,,0000-0003-3980-1043,,,,0000-0003-3904-2526,0000-0003-4603-7100", | ||
| 101 | "relation_type": "References", | 101 | "relation_type": "References", | ||
| 102 | "source": "The ISME Journal", | 102 | "source": "The ISME Journal", | ||
| 103 | "title": "Independence of nutrient limitation and carbon dioxide | 103 | "title": "Independence of nutrient limitation and carbon dioxide | ||
| 104 | impacts on the Southern Ocean coccolithophore Emiliania huxleyi", | 104 | impacts on the Southern Ocean coccolithophore Emiliania huxleyi", | ||
| 105 | "year": "2017" | 105 | "year": "2017" | ||
| 106 | }, | 106 | }, | ||
| 107 | { | 107 | { | ||
| 108 | "authors": "M\u00fcller Marius N,Trull Tom W,Hallegraeff Gustaaf | 108 | "authors": "M\u00fcller Marius N,Trull Tom W,Hallegraeff Gustaaf | ||
| 109 | M,Gattuso Jean-Pierre,Epitalon Jean-Marie,Lavigne | 109 | M,Gattuso Jean-Pierre,Epitalon Jean-Marie,Lavigne | ||
| 110 | H\u00e9lo\u00efse,Orr James,Gentili Bernard,Hagens Mathilde,Hofmann | 110 | H\u00e9lo\u00efse,Orr James,Gentili Bernard,Hagens Mathilde,Hofmann | ||
| 111 | Andreas,Mueller Jens-Daniel,Proye Aur\u00e9lien,Rae James,Soetaert | 111 | Andreas,Mueller Jens-Daniel,Proye Aur\u00e9lien,Rae James,Soetaert | ||
| 112 | Karline", | 112 | Karline", | ||
| 113 | "email_authors": | 113 | "email_authors": | ||
| 114 | lsce.ipsl.fr,bernard.gentili@orange.fr,,,,,,karline.soetaert@nioz.nl", | 114 | lsce.ipsl.fr,bernard.gentili@orange.fr,,,,,,karline.soetaert@nioz.nl", | ||
| 115 | "identifier": | 115 | "identifier": | ||
| 116 | "https://cran.r-project.org/web/packages/seacarb/index.html", | 116 | "https://cran.r-project.org/web/packages/seacarb/index.html", | ||
| 117 | "identifier_type": "DOI", | 117 | "identifier_type": "DOI", | ||
| 118 | "orcid_authors": | 118 | "orcid_authors": | ||
| 119 | 4,,,,,0000-0003-3980-1043,,,,0000-0003-3904-2526,0000-0003-4603-7100", | 119 | 4,,,,,0000-0003-3980-1043,,,,0000-0003-3904-2526,0000-0003-4603-7100", | ||
| 120 | "relation_type": "References", | 120 | "relation_type": "References", | ||
| 121 | "source": "", | 121 | "source": "", | ||
| 122 | "title": "seacarb: seawater carbonate chemistry with R. R | 122 | "title": "seacarb: seawater carbonate chemistry with R. R | ||
| 123 | package version 3.3.1", | 123 | package version 3.3.1", | ||
| 124 | "year": "2022" | 124 | "year": "2022" | ||
| 125 | } | 125 | } | ||
| 126 | ], | 126 | ], | ||
| 127 | "relationships_as_object": [], | 127 | "relationships_as_object": [], | ||
| 128 | "relationships_as_subject": [], | 128 | "relationships_as_subject": [], | ||
| 129 | "repository_name": "PANGAEA (Data Publisher for Earth & | 129 | "repository_name": "PANGAEA (Data Publisher for Earth & | ||
| 130 | Environmental Science)", | 130 | Environmental Science)", | ||
| 131 | "resource_type": "text/tab-separated-values - filename: | 131 | "resource_type": "text/tab-separated-values - filename: | ||
| 132 | Muller-etal_2017_ISME", | 132 | Muller-etal_2017_ISME", | ||
| 133 | "resources": [], | 133 | "resources": [], | ||
| 134 | "source_metadata_created": "2023", | 134 | "source_metadata_created": "2023", | ||
| 135 | "source_metadata_modified": "", | 135 | "source_metadata_modified": "", | ||
| 136 | "state": "active", | 136 | "state": "active", | ||
| 137 | "subject_areas": [ | 137 | "subject_areas": [ | ||
| 138 | { | 138 | { | ||
| 139 | "subject_area_additional": "", | 139 | "subject_area_additional": "", | ||
| 140 | "subject_area_name": "BiologicalClassification" | 140 | "subject_area_name": "BiologicalClassification" | ||
| 141 | }, | 141 | }, | ||
| 142 | { | 142 | { | ||
| 143 | "subject_area_additional": "", | 143 | "subject_area_additional": "", | ||
| 144 | "subject_area_name": "Biosphere" | 144 | "subject_area_name": "Biosphere" | ||
| 145 | }, | 145 | }, | ||
| 146 | { | 146 | { | ||
| 147 | "subject_area_additional": "", | 147 | "subject_area_additional": "", | ||
| 148 | "subject_area_name": "Chemistry" | 148 | "subject_area_name": "Chemistry" | ||
| 149 | }, | 149 | }, | ||
| 150 | { | 150 | { | ||
| 151 | "subject_area_additional": "", | 151 | "subject_area_additional": "", | ||
| 152 | "subject_area_name": "Ecology" | 152 | "subject_area_name": "Ecology" | ||
| 153 | } | 153 | } | ||
| 154 | ], | 154 | ], | ||
| 155 | "tags": [ | 155 | "tags": [ | ||
| 156 | { | 156 | { | ||
| n | 157 | "display_name": "Biomass-Abundance-Elemental composition", | n | 157 | "display_name": "Abundance", |
| 158 | "id": "5a237d59-e5be-4850-af81-78df25db3959", | 158 | "id": "b6432d44-0a46-478c-8d9a-e9f79213a6a2", | ||
| 159 | "name": "Biomass-Abundance-Elemental composition", | 159 | "name": "Abundance", | ||
| 160 | "state": "active", | 160 | "state": "active", | ||
| 161 | "vocabulary_id": null | 161 | "vocabulary_id": null | ||
| 162 | }, | 162 | }, | ||
| 163 | { | 163 | { | ||
| n | n | 164 | "display_name": "Aquaria 20 L", | ||
| 165 | "id": "62c412c1-2294-406a-ad79-183330400def", | ||||
| 166 | "name": "Aquaria 20 L", | ||||
| 167 | "state": "active", | ||||
| 168 | "vocabulary_id": null | ||||
| 169 | }, | ||||
| 170 | { | ||||
| 171 | "display_name": "Biomass", | ||||
| 172 | "id": "1d36ab17-1789-476f-b35f-447f5acdc2ac", | ||||
| 173 | "name": "Biomass", | ||||
| 174 | "state": "active", | ||||
| 175 | "vocabulary_id": null | ||||
| 176 | }, | ||||
| 177 | { | ||||
| 164 | "display_name": "Bottles or small containers-Aquaria 20 L", | 178 | "display_name": "Bottles or small containers", | ||
| 165 | "id": "be154617-73a3-4ed4-b54f-69e22323c12a", | 179 | "id": "ba227243-af91-4efc-8086-790112e90e09", | ||
| 166 | "name": "Bottles or small containers-Aquaria 20 L", | 180 | "name": "Bottles or small containers", | ||
| 167 | "state": "active", | 181 | "state": "active", | ||
| 168 | "vocabulary_id": null | 182 | "vocabulary_id": null | ||
| 169 | }, | 183 | }, | ||
| 170 | { | 184 | { | ||
| n | 171 | "display_name": "Calcification-Dissolution", | n | 185 | "display_name": "Calcification", |
| 172 | "id": "90f00008-2fad-42d6-b697-f331b63dca60", | 186 | "id": "7e8ea514-3848-498c-b07f-22d71e1b83e3", | ||
| 173 | "name": "Calcification-Dissolution", | 187 | "name": "Calcification", | ||
| 174 | "state": "active", | 188 | "state": "active", | ||
| 175 | "vocabulary_id": null | 189 | "vocabulary_id": null | ||
| 176 | }, | 190 | }, | ||
| 177 | { | 191 | { | ||
| 178 | "display_name": "Chromista", | 192 | "display_name": "Chromista", | ||
| 179 | "id": "36ecf721-e11a-4662-8783-da539c625d5c", | 193 | "id": "36ecf721-e11a-4662-8783-da539c625d5c", | ||
| 180 | "name": "Chromista", | 194 | "name": "Chromista", | ||
| 181 | "state": "active", | 195 | "state": "active", | ||
| 182 | "vocabulary_id": null | 196 | "vocabulary_id": null | ||
| 183 | }, | 197 | }, | ||
| 184 | { | 198 | { | ||
| n | n | 199 | "display_name": "Dissolution", | ||
| 200 | "id": "ccf682ce-0609-42e9-87cd-0873f6fce3f5", | ||||
| 201 | "name": "Dissolution", | ||||
| 202 | "state": "active", | ||||
| 203 | "vocabulary_id": null | ||||
| 204 | }, | ||||
| 205 | { | ||||
| 206 | "display_name": "Elemental composition", | ||||
| 207 | "id": "7e17866a-7d27-4b2b-92f9-8c3ab3557a5c", | ||||
| 208 | "name": "Elemental composition", | ||||
| 209 | "state": "active", | ||||
| 210 | "vocabulary_id": null | ||||
| 211 | }, | ||||
| 212 | { | ||||
| 185 | "display_name": "Emiliania huxleyi", | 213 | "display_name": "Emiliania huxleyi", | ||
| 186 | "id": "4d880b33-55cb-4a0f-a1c1-796a5de0a031", | 214 | "id": "4d880b33-55cb-4a0f-a1c1-796a5de0a031", | ||
| 187 | "name": "Emiliania huxleyi", | 215 | "name": "Emiliania huxleyi", | ||
| 188 | "state": "active", | 216 | "state": "active", | ||
| 189 | "vocabulary_id": null | 217 | "vocabulary_id": null | ||
| 190 | }, | 218 | }, | ||
| 191 | { | 219 | { | ||
| n | 192 | "display_name": "Growth-Morphology", | n | 220 | "display_name": "Growth", |
| 193 | "id": "b00c4eac-980d-42b2-bae9-0aa1b212cf54", | 221 | "id": "898cbb0c-ff61-4ca3-9e35-0ef6fbb8eb98", | ||
| 194 | "name": "Growth-Morphology", | 222 | "name": "Growth", | ||
| 195 | "state": "active", | 223 | "state": "active", | ||
| 196 | "vocabulary_id": null | 224 | "vocabulary_id": null | ||
| 197 | }, | 225 | }, | ||
| 198 | { | 226 | { | ||
| 199 | "display_name": "Haptophyta", | 227 | "display_name": "Haptophyta", | ||
| 200 | "id": "8bf1fc3b-146a-4852-9542-74adf5d86d57", | 228 | "id": "8bf1fc3b-146a-4852-9542-74adf5d86d57", | ||
| 201 | "name": "Haptophyta", | 229 | "name": "Haptophyta", | ||
| 202 | "state": "active", | 230 | "state": "active", | ||
| 203 | "vocabulary_id": null | 231 | "vocabulary_id": null | ||
| 204 | }, | 232 | }, | ||
| 205 | { | 233 | { | ||
| 206 | "display_name": "Laboratory experiment", | 234 | "display_name": "Laboratory experiment", | ||
| 207 | "id": "c6c00754-c769-4932-a517-bff2c9512884", | 235 | "id": "c6c00754-c769-4932-a517-bff2c9512884", | ||
| 208 | "name": "Laboratory experiment", | 236 | "name": "Laboratory experiment", | ||
| 209 | "state": "active", | 237 | "state": "active", | ||
| 210 | "vocabulary_id": null | 238 | "vocabulary_id": null | ||
| 211 | }, | 239 | }, | ||
| 212 | { | 240 | { | ||
| 213 | "display_name": "Laboratory strains", | 241 | "display_name": "Laboratory strains", | ||
| 214 | "id": "60ce9207-f124-49be-bcc3-809237101388", | 242 | "id": "60ce9207-f124-49be-bcc3-809237101388", | ||
| 215 | "name": "Laboratory strains", | 243 | "name": "Laboratory strains", | ||
| 216 | "state": "active", | 244 | "state": "active", | ||
| 217 | "vocabulary_id": null | 245 | "vocabulary_id": null | ||
| 218 | }, | 246 | }, | ||
| 219 | { | 247 | { | ||
| n | 220 | "display_name": "Macro-nutrients", | n | 248 | "display_name": "Macro", |
| 221 | "id": "62bf32d2-9725-4025-83ba-08b15073f526", | 249 | "id": "ddac8082-58bc-47f8-abec-ab7841083807", | ||
| 222 | "name": "Macro-nutrients", | 250 | "name": "Macro", | ||
| 251 | "state": "active", | ||||
| 252 | "vocabulary_id": null | ||||
| 253 | }, | ||||
| 254 | { | ||||
| 255 | "display_name": "Morphology", | ||||
| 256 | "id": "2345107d-a1a2-43c1-8b38-d670ea499006", | ||||
| 257 | "name": "Morphology", | ||||
| 223 | "state": "active", | 258 | "state": "active", | ||
| 224 | "vocabulary_id": null | 259 | "vocabulary_id": null | ||
| 225 | }, | 260 | }, | ||
| 226 | { | 261 | { | ||
| 227 | "display_name": "Not applicable", | 262 | "display_name": "Not applicable", | ||
| 228 | "id": "ff7fc64a-fa65-45cc-8191-258baccab3c7", | 263 | "id": "ff7fc64a-fa65-45cc-8191-258baccab3c7", | ||
| 229 | "name": "Not applicable", | 264 | "name": "Not applicable", | ||
| 230 | "state": "active", | 265 | "state": "active", | ||
| 231 | "vocabulary_id": null | 266 | "vocabulary_id": null | ||
| 232 | }, | 267 | }, | ||
| 233 | { | 268 | { | ||
| n | n | 269 | "display_name": "Photosynthesis", | ||
| 270 | "id": "ab256517-eb7b-4eed-ad52-64a0ee98fe87", | ||||
| 271 | "name": "Photosynthesis", | ||||
| 272 | "state": "active", | ||||
| 273 | "vocabulary_id": null | ||||
| 274 | }, | ||||
| 275 | { | ||||
| 234 | "display_name": "Phytoplankton", | 276 | "display_name": "Phytoplankton", | ||
| 235 | "id": "9c357867-c046-43fa-ad3e-39f612d5622b", | 277 | "id": "9c357867-c046-43fa-ad3e-39f612d5622b", | ||
| 236 | "name": "Phytoplankton", | 278 | "name": "Phytoplankton", | ||
| 237 | "state": "active", | 279 | "state": "active", | ||
| 238 | "vocabulary_id": null | 280 | "vocabulary_id": null | ||
| 239 | }, | 281 | }, | ||
| 240 | { | 282 | { | ||
| n | 241 | "display_name": "Primary production-Photosynthesis", | n | 283 | "display_name": "Primary production", |
| 242 | "id": "446160f8-ac15-4da8-a39f-79b6c421e396", | 284 | "id": "aca6914d-a728-406d-a5b9-dd9593c21e4e", | ||
| 243 | "name": "Primary production-Photosynthesis", | 285 | "name": "Primary production", | ||
| 244 | "state": "active", | 286 | "state": "active", | ||
| 245 | "vocabulary_id": null | 287 | "vocabulary_id": null | ||
| 246 | }, | 288 | }, | ||
| 247 | { | 289 | { | ||
| 248 | "display_name": "Single species", | 290 | "display_name": "Single species", | ||
| 249 | "id": "88de69be-3bdd-4cf8-b6a1-386d72c5888d", | 291 | "id": "88de69be-3bdd-4cf8-b6a1-386d72c5888d", | ||
| 250 | "name": "Single species", | 292 | "name": "Single species", | ||
| t | t | 293 | "state": "active", | ||
| 294 | "vocabulary_id": null | ||||
| 295 | }, | ||||
| 296 | { | ||||
| 297 | "display_name": "nutrients", | ||||
| 298 | "id": "46776643-4fc4-4ec7-b6bb-623620baae77", | ||||
| 299 | "name": "nutrients", | ||||
| 251 | "state": "active", | 300 | "state": "active", | ||
| 252 | "vocabulary_id": null | 301 | "vocabulary_id": null | ||
| 253 | } | 302 | } | ||
| 254 | ], | 303 | ], | ||
| 255 | "title": "Physiological response of E. huxleyi ecotype A, strain | 304 | "title": "Physiological response of E. huxleyi ecotype A, strain | ||
| 256 | SO5.14 to changing carbonate chemistry under nutrient-replete | 305 | SO5.14 to changing carbonate chemistry under nutrient-replete | ||
| 257 | conditions", | 306 | conditions", | ||
| 258 | "type": "vdataset", | 307 | "type": "vdataset", | ||
| 259 | "url": "https://doi.org/10.1594/PANGAEA.958503" | 308 | "url": "https://doi.org/10.1594/PANGAEA.958503" | ||
| 260 | } | 309 | } |