Changes
On July 27, 2022 at 2:33:38 PM UTC, 851c91e4-6343-45af-967a-20a33797707e:
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Added resource R4.x262.000-0027-metadata.xml to Metagenomic insights on Microbial Community Composition within Chandeleur Island Louisiana Salt Marsh Ecosystems, July – September, 2015
| f | 1 | { | f | 1 | { |
| 2 | "author": "Patricia Sobecky", | 2 | "author": "Patricia Sobecky", | ||
| 3 | "author_email": "psobecky@ua.edu", | 3 | "author_email": "psobecky@ua.edu", | ||
| 4 | "creator_user_id": "851c91e4-6343-45af-967a-20a33797707e", | 4 | "creator_user_id": "851c91e4-6343-45af-967a-20a33797707e", | ||
| 5 | "extras": [ | 5 | "extras": [ | ||
| 6 | { | 6 | { | ||
| 7 | "key": "DOI", | 7 | "key": "DOI", | ||
| 8 | "value": "doi:10.7266/N7BP017Z" | 8 | "value": "doi:10.7266/N7BP017Z" | ||
| 9 | }, | 9 | }, | ||
| 10 | { | 10 | { | ||
| 11 | "key": "ISO.pointOfContact", | 11 | "key": "ISO.pointOfContact", | ||
| 12 | "value": "Patricia Sobecky <psobecky@ua.edu>" | 12 | "value": "Patricia Sobecky <psobecky@ua.edu>" | ||
| 13 | }, | 13 | }, | ||
| 14 | { | 14 | { | ||
| 15 | "key": "Place Keywords", | 15 | "key": "Place Keywords", | ||
| 16 | "value": "Chandeleur Islands, Red Fish Point, Gulf of Mexico, | 16 | "value": "Chandeleur Islands, Red Fish Point, Gulf of Mexico, | ||
| 17 | Louisiana" | 17 | Louisiana" | ||
| 18 | }, | 18 | }, | ||
| 19 | { | 19 | { | ||
| 20 | "key": "Temporal Begin", | 20 | "key": "Temporal Begin", | ||
| 21 | "value": "2015-07-09" | 21 | "value": "2015-07-09" | ||
| 22 | }, | 22 | }, | ||
| 23 | { | 23 | { | ||
| 24 | "key": "Temporal End", | 24 | "key": "Temporal End", | ||
| 25 | "value": "2015-09-09" | 25 | "value": "2015-09-09" | ||
| 26 | }, | 26 | }, | ||
| 27 | { | 27 | { | ||
| 28 | "key": "Theme Keywords", | 28 | "key": "Theme Keywords", | ||
| 29 | "value": "nitrogen cycling, biodiversity, microbial ecology, | 29 | "value": "nitrogen cycling, biodiversity, microbial ecology, | ||
| 30 | Deepwater Horizon, metagenomics" | 30 | Deepwater Horizon, metagenomics" | ||
| 31 | }, | 31 | }, | ||
| 32 | { | 32 | { | ||
| 33 | "key": "spatial", | 33 | "key": "spatial", | ||
| 34 | "value": "{ \"type\": \"Polygon\", \"coordinates\": [ [ [ | 34 | "value": "{ \"type\": \"Polygon\", \"coordinates\": [ [ [ | ||
| 35 | -88.8412, 29.8628 ], [ -88.8412, 29.8628 ], [ -88.8412, 29.8628 ], [ | 35 | -88.8412, 29.8628 ], [ -88.8412, 29.8628 ], [ -88.8412, 29.8628 ], [ | ||
| 36 | -88.8412, 29.8628 ], [ -88.8412, 29.8628 ] ] ] }" | 36 | -88.8412, 29.8628 ], [ -88.8412, 29.8628 ] ] ] }" | ||
| 37 | } | 37 | } | ||
| 38 | ], | 38 | ], | ||
| 39 | "groups": [], | 39 | "groups": [], | ||
| 40 | "id": "e4bc2acf-fdb4-455c-b9ea-772b9203d490", | 40 | "id": "e4bc2acf-fdb4-455c-b9ea-772b9203d490", | ||
| 41 | "isopen": false, | 41 | "isopen": false, | ||
| 42 | "license_id": null, | 42 | "license_id": null, | ||
| 43 | "license_title": null, | 43 | "license_title": null, | ||
| 44 | "maintainer": "data@disl.org", | 44 | "maintainer": "data@disl.org", | ||
| 45 | "maintainer_email": "data@disl.org", | 45 | "maintainer_email": "data@disl.org", | ||
| 46 | "metadata_created": "2022-07-27T14:33:38.239409", | 46 | "metadata_created": "2022-07-27T14:33:38.239409", | ||
| n | 47 | "metadata_modified": "2022-07-27T14:33:38.239416", | n | 47 | "metadata_modified": "2022-07-27T14:33:38.756428", |
| 48 | "name": | 48 | "name": | ||
| 49 | l-community-composition-within-chandeleur-island-louisiana-sn7bp017z", | 49 | l-community-composition-within-chandeleur-island-louisiana-sn7bp017z", | ||
| 50 | "notes": "### Abstract\nOil spills such as the Deepwater Horizon | 50 | "notes": "### Abstract\nOil spills such as the Deepwater Horizon | ||
| 51 | (DWH) disaster can significantly impact biochemical and biological | 51 | (DWH) disaster can significantly impact biochemical and biological | ||
| 52 | processes in coastal salt marsh sediments imparting short-term and | 52 | processes in coastal salt marsh sediments imparting short-term and | ||
| 53 | long-term effects on ecosystem functions. We sought to identify | 53 | long-term effects on ecosystem functions. We sought to identify | ||
| 54 | functional and biogeochemical factors important for driving | 54 | functional and biogeochemical factors important for driving | ||
| 55 | denitrification in Chandeleur saltmarsh habitats. Denitrification, a | 55 | denitrification in Chandeleur saltmarsh habitats. Denitrification, a | ||
| 56 | biogeochemical process, is a vital ecosystem service providing | 56 | biogeochemical process, is a vital ecosystem service providing | ||
| 57 | considerable ecological and economic value in coastal habitats, | 57 | considerable ecological and economic value in coastal habitats, | ||
| 58 | particularly in salt marsh ecosystems. Studies focused on the | 58 | particularly in salt marsh ecosystems. Studies focused on the | ||
| 59 | long-term impact of heavy oiling on microbial populations carrying out | 59 | long-term impact of heavy oiling on microbial populations carrying out | ||
| 60 | denitrification in northern Gulf of Mexico (nGoM) marsh ecosystems are | 60 | denitrification in northern Gulf of Mexico (nGoM) marsh ecosystems are | ||
| 61 | surprisingly limited. Using sediment samples from Red Fish Point | 61 | surprisingly limited. Using sediment samples from Red Fish Point | ||
| 62 | measured for N cycle flux during Year 1 studies, we embarked on a deep | 62 | measured for N cycle flux during Year 1 studies, we embarked on a deep | ||
| 63 | metagenomic survey (microbial structure and function) of Chandeleur | 63 | metagenomic survey (microbial structure and function) of Chandeleur | ||
| 64 | Islands (Louisiana) habitats for the purpose of characterizing extant | 64 | Islands (Louisiana) habitats for the purpose of characterizing extant | ||
| 65 | microbial community composition. The specific objectives of this study | 65 | microbial community composition. The specific objectives of this study | ||
| 66 | were to: i) determine if temporal (July-September 2015) changes occur | 66 | were to: i) determine if temporal (July-September 2015) changes occur | ||
| 67 | for known denitrifying taxonomic groups, ii) determine the | 67 | for known denitrifying taxonomic groups, ii) determine the | ||
| 68 | contributions of N cycle flux measurements relative to microbial | 68 | contributions of N cycle flux measurements relative to microbial | ||
| 69 | community composition, and iii) characterize putative functional | 69 | community composition, and iii) characterize putative functional | ||
| 70 | potential for nitrogen cycling and sulfur oxidation pathways. Analysis | 70 | potential for nitrogen cycling and sulfur oxidation pathways. Analysis | ||
| 71 | of ~1.3 Terabytes of sequences derived from 30 different vegetated and | 71 | of ~1.3 Terabytes of sequences derived from 30 different vegetated and | ||
| 72 | subtidal marsh sediment samples are discussed. Data highlight salt | 72 | subtidal marsh sediment samples are discussed. Data highlight salt | ||
| 73 | marsh functional and taxonomic biodiversity within a previously oiled | 73 | marsh functional and taxonomic biodiversity within a previously oiled | ||
| 74 | marsh ecosystem. The combination of molecular ecology methods to | 74 | marsh ecosystem. The combination of molecular ecology methods to | ||
| 75 | assess microbial biodiversity coupled with biogeochemical measurements | 75 | assess microbial biodiversity coupled with biogeochemical measurements | ||
| 76 | provides greater insights into marsh microbial interactions and N | 76 | provides greater insights into marsh microbial interactions and N | ||
| 77 | cycling five years after the 2010 DWH spill.\n\n### Purpose\nThe | 77 | cycling five years after the 2010 DWH spill.\n\n### Purpose\nThe | ||
| 78 | purpose of this study was to i) incorporate a deep metagenomic | 78 | purpose of this study was to i) incorporate a deep metagenomic | ||
| 79 | approach to temporally profile microbial community composition and | 79 | approach to temporally profile microbial community composition and | ||
| 80 | functional potential ii) characterize putative salt marsh ecosystem | 80 | functional potential ii) characterize putative salt marsh ecosystem | ||
| 81 | function (i.e. denitrification, nitrogen fixation, sulfur oxidation) | 81 | function (i.e. denitrification, nitrogen fixation, sulfur oxidation) | ||
| 82 | between habitat types (i.e. marsh, subtidal) five years following the | 82 | between habitat types (i.e. marsh, subtidal) five years following the | ||
| 83 | DWH oil spill and iii) characterize correlations between | 83 | DWH oil spill and iii) characterize correlations between | ||
| 84 | biogeochemical measurements and metagenomic taxonomic | 84 | biogeochemical measurements and metagenomic taxonomic | ||
| 85 | profiles.\n\n**DOI: | 85 | profiles.\n\n**DOI: | ||
| 86 | [doi:10.7266/N7BP017Z](https://www.doi.org/10.7266/N7BP017Z)**\n\n### | 86 | [doi:10.7266/N7BP017Z](https://www.doi.org/10.7266/N7BP017Z)**\n\n### | ||
| 87 | Suggested Citation\nNikaela Y. Flournoy. 2018. Metagenomic insights on | 87 | Suggested Citation\nNikaela Y. Flournoy. 2018. Metagenomic insights on | ||
| 88 | Microbial Community Composition within Chandeleur Island Louisiana | 88 | Microbial Community Composition within Chandeleur Island Louisiana | ||
| 89 | Salt Marsh Ecosystems, July \u2013 September, 2015. Distributed by: | 89 | Salt Marsh Ecosystems, July \u2013 September, 2015. Distributed by: | ||
| 90 | Gulf of Mexico Research Initiative Information and Data Cooperative | 90 | Gulf of Mexico Research Initiative Information and Data Cooperative | ||
| 91 | (GRIIDC), Harte Research Institute, Texas A&M University\u2013Corpus | 91 | (GRIIDC), Harte Research Institute, Texas A&M University\u2013Corpus | ||
| 92 | Christi. doi:10.7266/N7BP017Z\n\n**Funded by:** Gulf of Mexico | 92 | Christi. doi:10.7266/N7BP017Z\n\n**Funded by:** Gulf of Mexico | ||
| 93 | Research Initiative (GoMRI)\n\n**Funding cycle:** RFP-IV\n\n**Research | 93 | Research Initiative (GoMRI)\n\n**Funding cycle:** RFP-IV\n\n**Research | ||
| 94 | group:** Alabama Center for Ecological Resilience (ACER)\n\n", | 94 | group:** Alabama Center for Ecological Resilience (ACER)\n\n", | ||
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| 96 | "num_tags": 9, | 96 | "num_tags": 9, | ||
| 97 | "organization": { | 97 | "organization": { | ||
| 98 | "approval_status": "approved", | 98 | "approval_status": "approved", | ||
| 99 | "created": "2022-07-22T03:25:13.329710", | 99 | "created": "2022-07-22T03:25:13.329710", | ||
| 100 | "description": "The Dauphin Island Sea Lab organization.", | 100 | "description": "The Dauphin Island Sea Lab organization.", | ||
| 101 | "id": "cb136e67-d862-4b9e-af1c-e5c564cee512", | 101 | "id": "cb136e67-d862-4b9e-af1c-e5c564cee512", | ||
| 102 | "image_url": "", | 102 | "image_url": "", | ||
| 103 | "is_organization": true, | 103 | "is_organization": true, | ||
| 104 | "name": "dauphin-island-sea-lab", | 104 | "name": "dauphin-island-sea-lab", | ||
| 105 | "state": "active", | 105 | "state": "active", | ||
| 106 | "title": "Dauphin Island Sea Lab", | 106 | "title": "Dauphin Island Sea Lab", | ||
| 107 | "type": "organization" | 107 | "type": "organization" | ||
| 108 | }, | 108 | }, | ||
| 109 | "owner_org": "cb136e67-d862-4b9e-af1c-e5c564cee512", | 109 | "owner_org": "cb136e67-d862-4b9e-af1c-e5c564cee512", | ||
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| 114 | "state": "active", | 139 | "state": "active", | ||
| 115 | "tags": [ | 140 | "tags": [ | ||
| 116 | { | 141 | { | ||
| 117 | "display_name": "Chandeleur Islands", | 142 | "display_name": "Chandeleur Islands", | ||
| 118 | "id": "1187d400-d9de-4166-aca2-2e591ecf8c65", | 143 | "id": "1187d400-d9de-4166-aca2-2e591ecf8c65", | ||
| 119 | "name": "Chandeleur Islands", | 144 | "name": "Chandeleur Islands", | ||
| 120 | "state": "active", | 145 | "state": "active", | ||
| 121 | "vocabulary_id": null | 146 | "vocabulary_id": null | ||
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| 123 | { | 148 | { | ||
| 124 | "display_name": "Deepwater Horizon", | 149 | "display_name": "Deepwater Horizon", | ||
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| 128 | "vocabulary_id": null | 153 | "vocabulary_id": null | ||
| 129 | }, | 154 | }, | ||
| 130 | { | 155 | { | ||
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| 133 | "name": "Gulf of Mexico", | 158 | "name": "Gulf of Mexico", | ||
| 134 | "state": "active", | 159 | "state": "active", | ||
| 135 | "vocabulary_id": null | 160 | "vocabulary_id": null | ||
| 136 | }, | 161 | }, | ||
| 137 | { | 162 | { | ||
| 138 | "display_name": "Louisiana", | 163 | "display_name": "Louisiana", | ||
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| 140 | "name": "Louisiana", | 165 | "name": "Louisiana", | ||
| 141 | "state": "active", | 166 | "state": "active", | ||
| 142 | "vocabulary_id": null | 167 | "vocabulary_id": null | ||
| 143 | }, | 168 | }, | ||
| 144 | { | 169 | { | ||
| 145 | "display_name": "Red Fish Point", | 170 | "display_name": "Red Fish Point", | ||
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| 147 | "name": "Red Fish Point", | 172 | "name": "Red Fish Point", | ||
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| 149 | "vocabulary_id": null | 174 | "vocabulary_id": null | ||
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| 151 | { | 176 | { | ||
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| 154 | "name": "biodiversity", | 179 | "name": "biodiversity", | ||
| 155 | "state": "active", | 180 | "state": "active", | ||
| 156 | "vocabulary_id": null | 181 | "vocabulary_id": null | ||
| 157 | }, | 182 | }, | ||
| 158 | { | 183 | { | ||
| 159 | "display_name": "metagenomics", | 184 | "display_name": "metagenomics", | ||
| 160 | "id": "0084e987-f692-493e-8b7c-d145f821b369", | 185 | "id": "0084e987-f692-493e-8b7c-d145f821b369", | ||
| 161 | "name": "metagenomics", | 186 | "name": "metagenomics", | ||
| 162 | "state": "active", | 187 | "state": "active", | ||
| 163 | "vocabulary_id": null | 188 | "vocabulary_id": null | ||
| 164 | }, | 189 | }, | ||
| 165 | { | 190 | { | ||
| 166 | "display_name": "microbial ecology", | 191 | "display_name": "microbial ecology", | ||
| 167 | "id": "de5416a9-ab11-4a06-b707-f18878264fa0", | 192 | "id": "de5416a9-ab11-4a06-b707-f18878264fa0", | ||
| 168 | "name": "microbial ecology", | 193 | "name": "microbial ecology", | ||
| 169 | "state": "active", | 194 | "state": "active", | ||
| 170 | "vocabulary_id": null | 195 | "vocabulary_id": null | ||
| 171 | }, | 196 | }, | ||
| 172 | { | 197 | { | ||
| 173 | "display_name": "nitrogen cycling", | 198 | "display_name": "nitrogen cycling", | ||
| 174 | "id": "5dc58ca1-af9f-42fd-974a-8ab2649fe487", | 199 | "id": "5dc58ca1-af9f-42fd-974a-8ab2649fe487", | ||
| 175 | "name": "nitrogen cycling", | 200 | "name": "nitrogen cycling", | ||
| 176 | "state": "active", | 201 | "state": "active", | ||
| 177 | "vocabulary_id": null | 202 | "vocabulary_id": null | ||
| 178 | } | 203 | } | ||
| 179 | ], | 204 | ], | ||
| 180 | "title": "Metagenomic insights on Microbial Community Composition | 205 | "title": "Metagenomic insights on Microbial Community Composition | ||
| 181 | within Chandeleur Island Louisiana Salt Marsh Ecosystems, July \u2013 | 206 | within Chandeleur Island Louisiana Salt Marsh Ecosystems, July \u2013 | ||
| 182 | September, 2015", | 207 | September, 2015", | ||
| 183 | "type": "dataset", | 208 | "type": "dataset", | ||
| 184 | "url": null, | 209 | "url": null, | ||
| 185 | "version": null | 210 | "version": null | ||
| 186 | } | 211 | } |