Changes
On November 30, 2024 at 10:39:13 AM UTC,
admin:
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Moved Seawater carbonate chemistry and biological processes during experiments with haploid and diploid life stages of Emiliania huxleyi, Calcidiscus leptoporus and Syracosphaera pulchra from organization PANGAEA (Biosphere) to organization PANGAEA (Ecology)
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Removed the following tags from Seawater carbonate chemistry and biological processes during experiments with haploid and diploid life stages of Emiliania huxleyi, Calcidiscus leptoporus and Syracosphaera pulchra
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Added the following tags to Seawater carbonate chemistry and biological processes during experiments with haploid and diploid life stages of Emiliania huxleyi, Calcidiscus leptoporus and Syracosphaera pulchra
| f | 1 | { | f | 1 | { |
| 2 | "author": "Fiorini, Sarah", | 2 | "author": "Fiorini, Sarah", | ||
| 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.733912", | 6 | "doi": "10.1594/PANGAEA.733912", | ||
| 7 | "doi_date_published": "2010", | 7 | "doi_date_published": "2010", | ||
| 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": "Middelburg, Jack J", | 12 | "extra_author": "Middelburg, Jack J", | ||
| 13 | "familyName": "Middelburg", | 13 | "familyName": "Middelburg", | ||
| 14 | "givenName": "Jack J", | 14 | "givenName": "Jack J", | ||
| 15 | "orcid": "0000-0003-3601-9072" | 15 | "orcid": "0000-0003-3601-9072" | ||
| 16 | }, | 16 | }, | ||
| 17 | { | 17 | { | ||
| 18 | "extra_author": "Gattuso, Jean-Pierre", | 18 | "extra_author": "Gattuso, Jean-Pierre", | ||
| 19 | "familyName": "Gattuso", | 19 | "familyName": "Gattuso", | ||
| 20 | "givenName": "Jean-Pierre", | 20 | "givenName": "Jean-Pierre", | ||
| 21 | "orcid": "0000-0002-4533-4114" | 21 | "orcid": "0000-0002-4533-4114" | ||
| 22 | } | 22 | } | ||
| 23 | ], | 23 | ], | ||
| 24 | "familyName": "Fiorini", | 24 | "familyName": "Fiorini", | ||
| 25 | "givenName": "Sarah", | 25 | "givenName": "Sarah", | ||
| 26 | "groups": [], | 26 | "groups": [], | ||
| 27 | "id": "f6d50550-b591-418a-a0e8-906d6721afe0", | 27 | "id": "f6d50550-b591-418a-a0e8-906d6721afe0", | ||
| 28 | "isopen": false, | 28 | "isopen": false, | ||
| 29 | "license_id": "CC-BY-3.0", | 29 | "license_id": "CC-BY-3.0", | ||
| 30 | "license_title": "CC-BY-3.0", | 30 | "license_title": "CC-BY-3.0", | ||
| 31 | "metadata_created": "2024-11-29T11:34:07.442772", | 31 | "metadata_created": "2024-11-29T11:34:07.442772", | ||
| n | 32 | "metadata_modified": "2024-11-29T11:34:07.442778", | n | 32 | "metadata_modified": "2024-11-30T10:39:12.914402", |
| 33 | "name": "png-doi-10-1594-pangaea-733912", | 33 | "name": "png-doi-10-1594-pangaea-733912", | ||
| 34 | "notes": "The response of Emiliania huxleyi (Lohmann), Calcidiscus | 34 | "notes": "The response of Emiliania huxleyi (Lohmann), Calcidiscus | ||
| 35 | leptoporus (Murray and Blackman), and Syracosphaera pulchra (Lohmann) | 35 | leptoporus (Murray and Blackman), and Syracosphaera pulchra (Lohmann) | ||
| 36 | to elevated partial pressure of carbon dioxide (pCO2) was investigated | 36 | to elevated partial pressure of carbon dioxide (pCO2) was investigated | ||
| 37 | in batch cultures. For the first time, we reported on the response of | 37 | in batch cultures. For the first time, we reported on the response of | ||
| 38 | the non-calcifying (haploid) life stage of these three species. Growth | 38 | the non-calcifying (haploid) life stage of these three species. Growth | ||
| 39 | rate, cell size, particulate inorganic (PIC) and particulate organic | 39 | rate, cell size, particulate inorganic (PIC) and particulate organic | ||
| 40 | carbon (POC) of both life stages were measured at two different pCO2 | 40 | carbon (POC) of both life stages were measured at two different pCO2 | ||
| 41 | (400 and 760 ppm) and their organic and inorganic carbon production | 41 | (400 and 760 ppm) and their organic and inorganic carbon production | ||
| 42 | calculated. The two life stages within the same species generally | 42 | calculated. The two life stages within the same species generally | ||
| 43 | exhibited a similar response to elevated pCO2, the response of the | 43 | exhibited a similar response to elevated pCO2, the response of the | ||
| 44 | haploid stage being often more pronounced than that of the diploid | 44 | haploid stage being often more pronounced than that of the diploid | ||
| 45 | stage. The growth rate was consistently higher at elevated pCO2 but | 45 | stage. The growth rate was consistently higher at elevated pCO2 but | ||
| 46 | the response of other processes varied among species. Calcification | 46 | the response of other processes varied among species. Calcification | ||
| 47 | rate of C. leptoporus and of S. pulchra did not change at elevated | 47 | rate of C. leptoporus and of S. pulchra did not change at elevated | ||
| 48 | pCO2 while it increased in E. huxleyi. Particulate organic carbon | 48 | pCO2 while it increased in E. huxleyi. Particulate organic carbon | ||
| 49 | production and cell size of both life stages of S. pulchra and of the | 49 | production and cell size of both life stages of S. pulchra and of the | ||
| 50 | haploid stage of E. huxleyi markedly decreased at elevated pCO2. It | 50 | haploid stage of E. huxleyi markedly decreased at elevated pCO2. It | ||
| 51 | remained unaltered in the diploid stage of E. huxleyi and C. | 51 | remained unaltered in the diploid stage of E. huxleyi and C. | ||
| 52 | leptoporus and increased in the haploid stage of the latter. The | 52 | leptoporus and increased in the haploid stage of the latter. The | ||
| 53 | PIC:POC ratio increased in E. huxleyi and was constant in C. | 53 | PIC:POC ratio increased in E. huxleyi and was constant in C. | ||
| 54 | leptoporus and S. pulchra. Elevated pCO2 has a significant effect on | 54 | leptoporus and S. pulchra. Elevated pCO2 has a significant effect on | ||
| 55 | these three coccolithophores species, the haploid stage being more | 55 | these three coccolithophores species, the haploid stage being more | ||
| 56 | sensitive. This must be taken into account when predicting the fate of | 56 | sensitive. This must be taken into account when predicting the fate of | ||
| 57 | coccolithophores in the future ocean.", | 57 | coccolithophores in the future ocean.", | ||
| 58 | "num_resources": 0, | 58 | "num_resources": 0, | ||
| n | 59 | "num_tags": 14, | n | 59 | "num_tags": 18, |
| 60 | "orcid": "", | 60 | "orcid": "", | ||
| 61 | "organization": { | 61 | "organization": { | ||
| 62 | "approval_status": "approved", | 62 | "approval_status": "approved", | ||
| n | 63 | "created": "2024-11-29T11:32:00.143130", | n | 63 | "created": "2024-11-30T10:25:26.439072", |
| 64 | "description": "PANGAEA (Data Publisher for Earth & Environmental | 64 | "description": "PANGAEA (Data Publisher for Earth & Environmental | ||
| 65 | Science): The information system PANGAEA is operated as an Open Access | 65 | Science): The information system PANGAEA is operated as an Open Access | ||
| 66 | library aimed at archiving, publishing and distributing georeferenced | 66 | library aimed at archiving, publishing and distributing georeferenced | ||
| 67 | data from earth system research. PANGAEA guarantees long-term | 67 | data from earth system research. PANGAEA guarantees long-term | ||
| 68 | availability (greater than 10 years) of its content. PANGAEA is open | 68 | availability (greater than 10 years) of its content. PANGAEA is open | ||
| 69 | to any project, institution, or individual scientist to use or to | 69 | to any project, institution, or individual scientist to use or to | ||
| 70 | archive and publish data. PANGAEA focuses on georeferenced | 70 | archive and publish data. PANGAEA focuses on georeferenced | ||
| 71 | observational data, experimental data, and models/simulations. | 71 | observational data, experimental data, and models/simulations. | ||
| 72 | Citability, comprehensive metadata descriptions, interoperability of | 72 | Citability, comprehensive metadata descriptions, interoperability of | ||
| 73 | data and metadata, a high degree of structural and semantic | 73 | data and metadata, a high degree of structural and semantic | ||
| 74 | harmonization of the data inventory as well as the commitment of the | 74 | harmonization of the data inventory as well as the commitment of the | ||
| 75 | hosting institutions ensures FAIRness of archived data.", | 75 | hosting institutions ensures FAIRness of archived data.", | ||
| n | 76 | "id": "3226ef9c-20d1-43fd-ba8f-fa35c8c9fb5d", | n | 76 | "id": "c2816fc6-b5ce-42c9-b5a4-11709b658b82", |
| 77 | "image_url": "pangaea_topicbiosphere.png", | 77 | "image_url": "pangaea_topicecology.png", | ||
| 78 | "is_organization": true, | 78 | "is_organization": true, | ||
| n | 79 | "name": "pangaea_biosphere", | n | 79 | "name": "pangaea_ecology", |
| 80 | "state": "active", | 80 | "state": "active", | ||
| n | 81 | "title": "PANGAEA (Biosphere)", | n | 81 | "title": "PANGAEA (Ecology)", |
| 82 | "type": "organization" | 82 | "type": "organization" | ||
| 83 | }, | 83 | }, | ||
| n | 84 | "owner_org": "3226ef9c-20d1-43fd-ba8f-fa35c8c9fb5d", | n | 84 | "owner_org": "c2816fc6-b5ce-42c9-b5a4-11709b658b82", |
| 85 | "private": false, | 85 | "private": false, | ||
| 86 | "publication_year": "2010", | 86 | "publication_year": "2010", | ||
| 87 | "related_identifiers": [ | 87 | "related_identifiers": [ | ||
| 88 | { | 88 | { | ||
| 89 | "authors": "Fiorini Sarah,Gattuso Jean-Pierre,van Rijiswijk | 89 | "authors": "Fiorini Sarah,Gattuso Jean-Pierre,van Rijiswijk | ||
| 90 | Pieter,Middelburg Jack J", | 90 | Pieter,Middelburg Jack J", | ||
| 91 | "email_authors": | 91 | "email_authors": | ||
| 92 | @gmail.com,jean-pierre.gattuso@imev-mer.fr,,jmiddelburg@nioo.knaw.nl", | 92 | @gmail.com,jean-pierre.gattuso@imev-mer.fr,,jmiddelburg@nioo.knaw.nl", | ||
| 93 | "identifier": "https://doi.org/10.1016/j.jembe.2010.07.020", | 93 | "identifier": "https://doi.org/10.1016/j.jembe.2010.07.020", | ||
| 94 | "identifier_type": "DOI", | 94 | "identifier_type": "DOI", | ||
| 95 | "orcid_authors": ",0000-0002-4533-4114,,0000-0003-3601-9072", | 95 | "orcid_authors": ",0000-0002-4533-4114,,0000-0003-3601-9072", | ||
| 96 | "relation_type": "IsSupplementTo", | 96 | "relation_type": "IsSupplementTo", | ||
| 97 | "source": "Journal of Experimental Marine Biology and Ecology", | 97 | "source": "Journal of Experimental Marine Biology and Ecology", | ||
| 98 | "title": "Coccolithophores lipid and carbon isotope composition | 98 | "title": "Coccolithophores lipid and carbon isotope composition | ||
| 99 | and their variability related to changes in seawater carbonate | 99 | and their variability related to changes in seawater carbonate | ||
| 100 | chemistry", | 100 | chemistry", | ||
| 101 | "year": "2010" | 101 | "year": "2010" | ||
| 102 | } | 102 | } | ||
| 103 | ], | 103 | ], | ||
| 104 | "relationships_as_object": [], | 104 | "relationships_as_object": [], | ||
| 105 | "relationships_as_subject": [], | 105 | "relationships_as_subject": [], | ||
| 106 | "repository_name": "PANGAEA (Data Publisher for Earth & | 106 | "repository_name": "PANGAEA (Data Publisher for Earth & | ||
| 107 | Environmental Science)", | 107 | Environmental Science)", | ||
| 108 | "resource_type": "text/tab-separated-values - filename: | 108 | "resource_type": "text/tab-separated-values - filename: | ||
| 109 | C_chem_Fiorini_2010_sbm", | 109 | C_chem_Fiorini_2010_sbm", | ||
| 110 | "resources": [], | 110 | "resources": [], | ||
| 111 | "source_metadata_created": "2010", | 111 | "source_metadata_created": "2010", | ||
| 112 | "source_metadata_modified": "", | 112 | "source_metadata_modified": "", | ||
| 113 | "state": "active", | 113 | "state": "active", | ||
| 114 | "subject_areas": [ | 114 | "subject_areas": [ | ||
| 115 | { | 115 | { | ||
| 116 | "subject_area_additional": "", | 116 | "subject_area_additional": "", | ||
| 117 | "subject_area_name": "BiologicalClassification" | 117 | "subject_area_name": "BiologicalClassification" | ||
| 118 | }, | 118 | }, | ||
| 119 | { | 119 | { | ||
| 120 | "subject_area_additional": "", | 120 | "subject_area_additional": "", | ||
| 121 | "subject_area_name": "Biosphere" | 121 | "subject_area_name": "Biosphere" | ||
| 122 | }, | 122 | }, | ||
| 123 | { | 123 | { | ||
| 124 | "subject_area_additional": "", | 124 | "subject_area_additional": "", | ||
| 125 | "subject_area_name": "Chemistry" | 125 | "subject_area_name": "Chemistry" | ||
| 126 | }, | 126 | }, | ||
| 127 | { | 127 | { | ||
| 128 | "subject_area_additional": "", | 128 | "subject_area_additional": "", | ||
| 129 | "subject_area_name": "Ecology" | 129 | "subject_area_name": "Ecology" | ||
| 130 | }, | 130 | }, | ||
| 131 | { | 131 | { | ||
| 132 | "subject_area_additional": "", | 132 | "subject_area_additional": "", | ||
| 133 | "subject_area_name": "Oceans" | 133 | "subject_area_name": "Oceans" | ||
| 134 | } | 134 | } | ||
| 135 | ], | 135 | ], | ||
| 136 | "tags": [ | 136 | "tags": [ | ||
| 137 | { | 137 | { | ||
| n | 138 | "display_name": "Biomass-Abundance-Elemental composition", | n | 138 | "display_name": "Abundance", |
| 139 | "id": "5a237d59-e5be-4850-af81-78df25db3959", | 139 | "id": "b6432d44-0a46-478c-8d9a-e9f79213a6a2", | ||
| 140 | "name": "Biomass-Abundance-Elemental composition", | 140 | "name": "Abundance", | ||
| 141 | "state": "active", | 141 | "state": "active", | ||
| 142 | "vocabulary_id": null | 142 | "vocabulary_id": null | ||
| 143 | }, | 143 | }, | ||
| 144 | { | 144 | { | ||
| n | n | 145 | "display_name": "Aquaria 20 L", | ||
| 146 | "id": "62c412c1-2294-406a-ad79-183330400def", | ||||
| 147 | "name": "Aquaria 20 L", | ||||
| 148 | "state": "active", | ||||
| 149 | "vocabulary_id": null | ||||
| 150 | }, | ||||
| 151 | { | ||||
| 152 | "display_name": "Biomass", | ||||
| 153 | "id": "1d36ab17-1789-476f-b35f-447f5acdc2ac", | ||||
| 154 | "name": "Biomass", | ||||
| 155 | "state": "active", | ||||
| 156 | "vocabulary_id": null | ||||
| 157 | }, | ||||
| 158 | { | ||||
| 145 | "display_name": "Bottles or small containers-Aquaria 20 L", | 159 | "display_name": "Bottles or small containers", | ||
| 146 | "id": "be154617-73a3-4ed4-b54f-69e22323c12a", | 160 | "id": "ba227243-af91-4efc-8086-790112e90e09", | ||
| 147 | "name": "Bottles or small containers-Aquaria 20 L", | 161 | "name": "Bottles or small containers", | ||
| 148 | "state": "active", | 162 | "state": "active", | ||
| 149 | "vocabulary_id": null | 163 | "vocabulary_id": null | ||
| 150 | }, | 164 | }, | ||
| 151 | { | 165 | { | ||
| 152 | "display_name": "Calcidiscus leptoporus", | 166 | "display_name": "Calcidiscus leptoporus", | ||
| 153 | "id": "048fdb20-4793-4436-84cc-4f1dade6b6e8", | 167 | "id": "048fdb20-4793-4436-84cc-4f1dade6b6e8", | ||
| 154 | "name": "Calcidiscus leptoporus", | 168 | "name": "Calcidiscus leptoporus", | ||
| 155 | "state": "active", | 169 | "state": "active", | ||
| 156 | "vocabulary_id": null | 170 | "vocabulary_id": null | ||
| 157 | }, | 171 | }, | ||
| 158 | { | 172 | { | ||
| 159 | "display_name": "Chromista", | 173 | "display_name": "Chromista", | ||
| 160 | "id": "36ecf721-e11a-4662-8783-da539c625d5c", | 174 | "id": "36ecf721-e11a-4662-8783-da539c625d5c", | ||
| 161 | "name": "Chromista", | 175 | "name": "Chromista", | ||
| 162 | "state": "active", | 176 | "state": "active", | ||
| 163 | "vocabulary_id": null | 177 | "vocabulary_id": null | ||
| 164 | }, | 178 | }, | ||
| 165 | { | 179 | { | ||
| n | n | 180 | "display_name": "Elemental composition", | ||
| 181 | "id": "7e17866a-7d27-4b2b-92f9-8c3ab3557a5c", | ||||
| 182 | "name": "Elemental composition", | ||||
| 183 | "state": "active", | ||||
| 184 | "vocabulary_id": null | ||||
| 185 | }, | ||||
| 186 | { | ||||
| 166 | "display_name": "Emiliania huxleyi", | 187 | "display_name": "Emiliania huxleyi", | ||
| 167 | "id": "4d880b33-55cb-4a0f-a1c1-796a5de0a031", | 188 | "id": "4d880b33-55cb-4a0f-a1c1-796a5de0a031", | ||
| 168 | "name": "Emiliania huxleyi", | 189 | "name": "Emiliania huxleyi", | ||
| 169 | "state": "active", | 190 | "state": "active", | ||
| 170 | "vocabulary_id": null | 191 | "vocabulary_id": null | ||
| 171 | }, | 192 | }, | ||
| 172 | { | 193 | { | ||
| n | 173 | "display_name": "Growth-Morphology", | n | 194 | "display_name": "Growth", |
| 174 | "id": "b00c4eac-980d-42b2-bae9-0aa1b212cf54", | 195 | "id": "898cbb0c-ff61-4ca3-9e35-0ef6fbb8eb98", | ||
| 175 | "name": "Growth-Morphology", | 196 | "name": "Growth", | ||
| 176 | "state": "active", | 197 | "state": "active", | ||
| 177 | "vocabulary_id": null | 198 | "vocabulary_id": null | ||
| 178 | }, | 199 | }, | ||
| 179 | { | 200 | { | ||
| 180 | "display_name": "Haptophyta", | 201 | "display_name": "Haptophyta", | ||
| 181 | "id": "8bf1fc3b-146a-4852-9542-74adf5d86d57", | 202 | "id": "8bf1fc3b-146a-4852-9542-74adf5d86d57", | ||
| 182 | "name": "Haptophyta", | 203 | "name": "Haptophyta", | ||
| 183 | "state": "active", | 204 | "state": "active", | ||
| 184 | "vocabulary_id": null | 205 | "vocabulary_id": null | ||
| 185 | }, | 206 | }, | ||
| 186 | { | 207 | { | ||
| 187 | "display_name": "Laboratory experiment", | 208 | "display_name": "Laboratory experiment", | ||
| 188 | "id": "c6c00754-c769-4932-a517-bff2c9512884", | 209 | "id": "c6c00754-c769-4932-a517-bff2c9512884", | ||
| 189 | "name": "Laboratory experiment", | 210 | "name": "Laboratory experiment", | ||
| 190 | "state": "active", | 211 | "state": "active", | ||
| 191 | "vocabulary_id": null | 212 | "vocabulary_id": null | ||
| 192 | }, | 213 | }, | ||
| 193 | { | 214 | { | ||
| 194 | "display_name": "Laboratory strains", | 215 | "display_name": "Laboratory strains", | ||
| 195 | "id": "60ce9207-f124-49be-bcc3-809237101388", | 216 | "id": "60ce9207-f124-49be-bcc3-809237101388", | ||
| 196 | "name": "Laboratory strains", | 217 | "name": "Laboratory strains", | ||
| t | t | 218 | "state": "active", | ||
| 219 | "vocabulary_id": null | ||||
| 220 | }, | ||||
| 221 | { | ||||
| 222 | "display_name": "Morphology", | ||||
| 223 | "id": "2345107d-a1a2-43c1-8b38-d670ea499006", | ||||
| 224 | "name": "Morphology", | ||||
| 197 | "state": "active", | 225 | "state": "active", | ||
| 198 | "vocabulary_id": null | 226 | "vocabulary_id": null | ||
| 199 | }, | 227 | }, | ||
| 200 | { | 228 | { | ||
| 201 | "display_name": "Not applicable", | 229 | "display_name": "Not applicable", | ||
| 202 | "id": "ff7fc64a-fa65-45cc-8191-258baccab3c7", | 230 | "id": "ff7fc64a-fa65-45cc-8191-258baccab3c7", | ||
| 203 | "name": "Not applicable", | 231 | "name": "Not applicable", | ||
| 204 | "state": "active", | 232 | "state": "active", | ||
| 205 | "vocabulary_id": null | 233 | "vocabulary_id": null | ||
| 206 | }, | 234 | }, | ||
| 207 | { | 235 | { | ||
| 208 | "display_name": "Pelagos", | 236 | "display_name": "Pelagos", | ||
| 209 | "id": "012f5b69-4e75-4f54-8ac4-8bf192cafaa2", | 237 | "id": "012f5b69-4e75-4f54-8ac4-8bf192cafaa2", | ||
| 210 | "name": "Pelagos", | 238 | "name": "Pelagos", | ||
| 211 | "state": "active", | 239 | "state": "active", | ||
| 212 | "vocabulary_id": null | 240 | "vocabulary_id": null | ||
| 213 | }, | 241 | }, | ||
| 214 | { | 242 | { | ||
| 215 | "display_name": "Phytoplankton", | 243 | "display_name": "Phytoplankton", | ||
| 216 | "id": "9c357867-c046-43fa-ad3e-39f612d5622b", | 244 | "id": "9c357867-c046-43fa-ad3e-39f612d5622b", | ||
| 217 | "name": "Phytoplankton", | 245 | "name": "Phytoplankton", | ||
| 218 | "state": "active", | 246 | "state": "active", | ||
| 219 | "vocabulary_id": null | 247 | "vocabulary_id": null | ||
| 220 | }, | 248 | }, | ||
| 221 | { | 249 | { | ||
| 222 | "display_name": "Single species", | 250 | "display_name": "Single species", | ||
| 223 | "id": "88de69be-3bdd-4cf8-b6a1-386d72c5888d", | 251 | "id": "88de69be-3bdd-4cf8-b6a1-386d72c5888d", | ||
| 224 | "name": "Single species", | 252 | "name": "Single species", | ||
| 225 | "state": "active", | 253 | "state": "active", | ||
| 226 | "vocabulary_id": null | 254 | "vocabulary_id": null | ||
| 227 | }, | 255 | }, | ||
| 228 | { | 256 | { | ||
| 229 | "display_name": "Syracosphaera pulchra", | 257 | "display_name": "Syracosphaera pulchra", | ||
| 230 | "id": "185a4882-cebb-44c7-9e81-3714dd04a667", | 258 | "id": "185a4882-cebb-44c7-9e81-3714dd04a667", | ||
| 231 | "name": "Syracosphaera pulchra", | 259 | "name": "Syracosphaera pulchra", | ||
| 232 | "state": "active", | 260 | "state": "active", | ||
| 233 | "vocabulary_id": null | 261 | "vocabulary_id": null | ||
| 234 | } | 262 | } | ||
| 235 | ], | 263 | ], | ||
| 236 | "title": "Seawater carbonate chemistry and biological processes | 264 | "title": "Seawater carbonate chemistry and biological processes | ||
| 237 | during experiments with haploid and diploid life stages of Emiliania | 265 | during experiments with haploid and diploid life stages of Emiliania | ||
| 238 | huxleyi, Calcidiscus leptoporus and Syracosphaera pulchra", | 266 | huxleyi, Calcidiscus leptoporus and Syracosphaera pulchra", | ||
| 239 | "type": "vdataset", | 267 | "type": "vdataset", | ||
| 240 | "url": "https://doi.org/10.1594/PANGAEA.733912" | 268 | "url": "https://doi.org/10.1594/PANGAEA.733912" | ||
| 241 | } | 269 | } |