Changes
On July 27, 2022 at 2:33:34 PM UTC, 851c91e4-6343-45af-967a-20a33797707e:
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Added resource R4.x262.000-0025-metadata.xml to Temporal effects of oiling and plant type on microbial biodiversity and predicted metabolic function in marine sediments: A mesocosm study in April/September 2016
| 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/N7805123" | 8 | "value": "doi:10.7266/N7805123" | ||
| 9 | }, | 9 | }, | ||
| 10 | { | 10 | { | ||
| 11 | "key": "ISO.principalInvestigator", | 11 | "key": "ISO.principalInvestigator", | ||
| 12 | "value": "Patricia Sobecky <psobecky@ua.edu>" | 12 | "value": "Patricia Sobecky <psobecky@ua.edu>" | ||
| 13 | }, | 13 | }, | ||
| 14 | { | 14 | { | ||
| 15 | "key": "Theme Keywords", | 15 | "key": "Theme Keywords", | ||
| 16 | "value": "nitrogen cycling, sulfur cycling, microbial diversity, | 16 | "value": "nitrogen cycling, sulfur cycling, microbial diversity, | ||
| 17 | oil contamination, biodiversity" | 17 | oil contamination, biodiversity" | ||
| 18 | } | 18 | } | ||
| 19 | ], | 19 | ], | ||
| 20 | "groups": [], | 20 | "groups": [], | ||
| 21 | "id": "d12b74af-4dbe-4fda-a5e8-61ba89063957", | 21 | "id": "d12b74af-4dbe-4fda-a5e8-61ba89063957", | ||
| 22 | "isopen": false, | 22 | "isopen": false, | ||
| 23 | "license_id": null, | 23 | "license_id": null, | ||
| 24 | "license_title": null, | 24 | "license_title": null, | ||
| 25 | "maintainer": "data@disl.org", | 25 | "maintainer": "data@disl.org", | ||
| 26 | "maintainer_email": "data@disl.org", | 26 | "maintainer_email": "data@disl.org", | ||
| 27 | "metadata_created": "2022-07-27T14:33:33.559820", | 27 | "metadata_created": "2022-07-27T14:33:33.559820", | ||
| n | 28 | "metadata_modified": "2022-07-27T14:33:33.559829", | n | 28 | "metadata_modified": "2022-07-27T14:33:34.204852", |
| 29 | "name": | 29 | "name": | ||
| 30 | lant-type-on-microbial-biodiversity-and-predicted-metabolic-n7805123", | 30 | lant-type-on-microbial-biodiversity-and-predicted-metabolic-n7805123", | ||
| 31 | "notes": "### Abstract\nSediments were collected for a mesocosm | 31 | "notes": "### Abstract\nSediments were collected for a mesocosm | ||
| 32 | project to examine the overall response of microbial diversity to oil | 32 | project to examine the overall response of microbial diversity to oil | ||
| 33 | exposure, plant type, and also to characterize bacterial communities | 33 | exposure, plant type, and also to characterize bacterial communities | ||
| 34 | associated nitrogen and sulfur cycling processes in marine sediments. | 34 | associated nitrogen and sulfur cycling processes in marine sediments. | ||
| 35 | Sediments samples were collected from control and amended mesocosms | 35 | Sediments samples were collected from control and amended mesocosms | ||
| 36 | set up at Dauphin Island Sea Lab that consisted of the black mangrove, | 36 | set up at Dauphin Island Sea Lab that consisted of the black mangrove, | ||
| 37 | Avicennia germinans, along with either a monoculture or polyculture of | 37 | Avicennia germinans, along with either a monoculture or polyculture of | ||
| 38 | the smooth cord grass, Spartina alterniflora. Data were collected in | 38 | the smooth cord grass, Spartina alterniflora. Data were collected in | ||
| 39 | triplicates from control and amended mesocosms at three time points, | 39 | triplicates from control and amended mesocosms at three time points, | ||
| 40 | before treatment in September 2015, 6 months after treatment in April | 40 | before treatment in September 2015, 6 months after treatment in April | ||
| 41 | 2016, and 11 months after treatment in September 2016. Additional data | 41 | 2016, and 11 months after treatment in September 2016. Additional data | ||
| 42 | from this mesocosm study can be found in GRIIDC datasets | 42 | from this mesocosm study can be found in GRIIDC datasets | ||
| 43 | R4.x262.000:0026 and R4.x262.000:0034.\n\n### Purpose\nThe data post | 43 | R4.x262.000:0026 and R4.x262.000:0034.\n\n### Purpose\nThe data post | ||
| 44 | analyses would offer a comprehensive view of the bacterial diversity | 44 | analyses would offer a comprehensive view of the bacterial diversity | ||
| 45 | with the mesocosm sediments and the ability to track any changes in | 45 | with the mesocosm sediments and the ability to track any changes in | ||
| 46 | bacterial community composition associated with treatment, time and | 46 | bacterial community composition associated with treatment, time and | ||
| 47 | plant type.\n\n**DOI: | 47 | plant type.\n\n**DOI: | ||
| 48 | [doi:10.7266/N7805123](https://www.doi.org/10.7266/N7805123)**\n\n### | 48 | [doi:10.7266/N7805123](https://www.doi.org/10.7266/N7805123)**\n\n### | ||
| 49 | Suggested Citation\nSuja Rajan, Patrice Crawford, Alice Kleinhuizen, | 49 | Suggested Citation\nSuja Rajan, Patrice Crawford, Alice Kleinhuizen, | ||
| 50 | Behzad Mortazavi and Patricia Sobecky. 2018. Temporal effects of | 50 | Behzad Mortazavi and Patricia Sobecky. 2018. Temporal effects of | ||
| 51 | oiling and plant type on microbial biodiversity and predicted | 51 | oiling and plant type on microbial biodiversity and predicted | ||
| 52 | metabolic function in marine sediments: A mesocosm study in | 52 | metabolic function in marine sediments: A mesocosm study in | ||
| 53 | April/September 2016. Distributed by: Gulf of Mexico Research | 53 | April/September 2016. Distributed by: Gulf of Mexico Research | ||
| 54 | Initiative Information and Data Cooperative (GRIIDC), Harte Research | 54 | Initiative Information and Data Cooperative (GRIIDC), Harte Research | ||
| 55 | Institute, Texas A&M University\u2013Corpus Christi. | 55 | Institute, Texas A&M University\u2013Corpus Christi. | ||
| 56 | doi:10.7266/N7805123\n\n**Funded by:** Gulf of Mexico Research | 56 | doi:10.7266/N7805123\n\n**Funded by:** Gulf of Mexico Research | ||
| 57 | Initiative (GoMRI)\n\n**Funding cycle:** RFP-IV\n\n**Research group:** | 57 | Initiative (GoMRI)\n\n**Funding cycle:** RFP-IV\n\n**Research group:** | ||
| 58 | Alabama Center for Ecological Resilience (ACER)\n\n", | 58 | Alabama Center for Ecological Resilience (ACER)\n\n", | ||
| n | 59 | "num_resources": 0, | n | 59 | "num_resources": 1, |
| 60 | "num_tags": 5, | 60 | "num_tags": 5, | ||
| 61 | "organization": { | 61 | "organization": { | ||
| 62 | "approval_status": "approved", | 62 | "approval_status": "approved", | ||
| 63 | "created": "2022-07-22T03:25:13.329710", | 63 | "created": "2022-07-22T03:25:13.329710", | ||
| 64 | "description": "The Dauphin Island Sea Lab organization.", | 64 | "description": "The Dauphin Island Sea Lab organization.", | ||
| 65 | "id": "cb136e67-d862-4b9e-af1c-e5c564cee512", | 65 | "id": "cb136e67-d862-4b9e-af1c-e5c564cee512", | ||
| 66 | "image_url": "", | 66 | "image_url": "", | ||
| 67 | "is_organization": true, | 67 | "is_organization": true, | ||
| 68 | "name": "dauphin-island-sea-lab", | 68 | "name": "dauphin-island-sea-lab", | ||
| 69 | "state": "active", | 69 | "state": "active", | ||
| 70 | "title": "Dauphin Island Sea Lab", | 70 | "title": "Dauphin Island Sea Lab", | ||
| 71 | "type": "organization" | 71 | "type": "organization" | ||
| 72 | }, | 72 | }, | ||
| 73 | "owner_org": "cb136e67-d862-4b9e-af1c-e5c564cee512", | 73 | "owner_org": "cb136e67-d862-4b9e-af1c-e5c564cee512", | ||
| 74 | "private": false, | 74 | "private": false, | ||
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| 79 | "cache_last_updated": null, | ||||
| 80 | "cache_url": null, | ||||
| 81 | "created": "2022-07-27T14:33:34.239650", | ||||
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| 85 | "format": "XML", | ||||
| 86 | "hash": "", | ||||
| 87 | "id": "ff63ac81-b59d-4058-82ed-59e2ae9f7e0f", | ||||
| 88 | "last_modified": "2022-07-27T14:33:34.193499", | ||||
| 89 | "metadata_modified": "2022-07-27T14:33:34.211191", | ||||
| 90 | "mimetype": "application/xml", | ||||
| 91 | "mimetype_inner": null, | ||||
| 92 | "name": "R4.x262.000-0025-metadata.xml", | ||||
| 93 | "package_id": "d12b74af-4dbe-4fda-a5e8-61ba89063957", | ||||
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| 99 | 1-b59d-4058-82ed-59e2ae9f7e0f/download/r4.x262.000-0025-metadata.xml", | ||||
| 100 | "url_type": "upload" | ||||
| 101 | } | ||||
| 102 | ], | ||||
| 78 | "state": "active", | 103 | "state": "active", | ||
| 79 | "tags": [ | 104 | "tags": [ | ||
| 80 | { | 105 | { | ||
| 81 | "display_name": "biodiversity", | 106 | "display_name": "biodiversity", | ||
| 82 | "id": "16737851-e341-4f85-a496-dd82131afef6", | 107 | "id": "16737851-e341-4f85-a496-dd82131afef6", | ||
| 83 | "name": "biodiversity", | 108 | "name": "biodiversity", | ||
| 84 | "state": "active", | 109 | "state": "active", | ||
| 85 | "vocabulary_id": null | 110 | "vocabulary_id": null | ||
| 86 | }, | 111 | }, | ||
| 87 | { | 112 | { | ||
| 88 | "display_name": "microbial diversity", | 113 | "display_name": "microbial diversity", | ||
| 89 | "id": "7bd6b977-facd-46c7-8489-5306f2cc0201", | 114 | "id": "7bd6b977-facd-46c7-8489-5306f2cc0201", | ||
| 90 | "name": "microbial diversity", | 115 | "name": "microbial diversity", | ||
| 91 | "state": "active", | 116 | "state": "active", | ||
| 92 | "vocabulary_id": null | 117 | "vocabulary_id": null | ||
| 93 | }, | 118 | }, | ||
| 94 | { | 119 | { | ||
| 95 | "display_name": "nitrogen cycling", | 120 | "display_name": "nitrogen cycling", | ||
| 96 | "id": "5dc58ca1-af9f-42fd-974a-8ab2649fe487", | 121 | "id": "5dc58ca1-af9f-42fd-974a-8ab2649fe487", | ||
| 97 | "name": "nitrogen cycling", | 122 | "name": "nitrogen cycling", | ||
| 98 | "state": "active", | 123 | "state": "active", | ||
| 99 | "vocabulary_id": null | 124 | "vocabulary_id": null | ||
| 100 | }, | 125 | }, | ||
| 101 | { | 126 | { | ||
| 102 | "display_name": "oil contamination", | 127 | "display_name": "oil contamination", | ||
| 103 | "id": "c35d732a-94ad-4faa-9b67-4756918be772", | 128 | "id": "c35d732a-94ad-4faa-9b67-4756918be772", | ||
| 104 | "name": "oil contamination", | 129 | "name": "oil contamination", | ||
| 105 | "state": "active", | 130 | "state": "active", | ||
| 106 | "vocabulary_id": null | 131 | "vocabulary_id": null | ||
| 107 | }, | 132 | }, | ||
| 108 | { | 133 | { | ||
| 109 | "display_name": "sulfur cycling", | 134 | "display_name": "sulfur cycling", | ||
| 110 | "id": "4630ee57-ce5d-4cf2-a371-563194d5c624", | 135 | "id": "4630ee57-ce5d-4cf2-a371-563194d5c624", | ||
| 111 | "name": "sulfur cycling", | 136 | "name": "sulfur cycling", | ||
| 112 | "state": "active", | 137 | "state": "active", | ||
| 113 | "vocabulary_id": null | 138 | "vocabulary_id": null | ||
| 114 | } | 139 | } | ||
| 115 | ], | 140 | ], | ||
| 116 | "title": "Temporal effects of oiling and plant type on microbial | 141 | "title": "Temporal effects of oiling and plant type on microbial | ||
| 117 | biodiversity and predicted metabolic function in marine sediments: A | 142 | biodiversity and predicted metabolic function in marine sediments: A | ||
| 118 | mesocosm study in April/September 2016", | 143 | mesocosm study in April/September 2016", | ||
| 119 | "type": "dataset", | 144 | "type": "dataset", | ||
| 120 | "url": null, | 145 | "url": null, | ||
| 121 | "version": null | 146 | "version": null | ||
| 122 | } | 147 | } |