Changes
On July 27, 2022 at 4:02:05 PM UTC, 851c91e4-6343-45af-967a-20a33797707e:
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Added resource AG_SA_indiv_timepoints_mesocosm_2015_2016.csv to Effects of oil exposure, plant species composition, and plant genotypic diversity on salt marsh and mangrove assemblages: A mesocosm study from September 2015 to September 2016
f | 1 | { | f | 1 | { |
2 | "author": "Randall Anne Hughes", | 2 | "author": "Randall Anne Hughes", | ||
3 | "author_email": "rhughes@northeastern.edu", | 3 | "author_email": "rhughes@northeastern.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/N7K93629" | 8 | "value": "doi:10.7266/N7K93629" | ||
9 | }, | 9 | }, | ||
10 | { | 10 | { | ||
11 | "key": "ISO.principalInvestigator", | 11 | "key": "ISO.principalInvestigator", | ||
12 | "value": "Randall Anne Hughes <rhughes@northeastern.edu>" | 12 | "value": "Randall Anne Hughes <rhughes@northeastern.edu>" | ||
13 | }, | 13 | }, | ||
14 | { | 14 | { | ||
15 | "key": "Theme Keywords", | 15 | "key": "Theme Keywords", | ||
16 | "value": "Avicennia germinans, Deepwater Horizon, disturbance, | 16 | "value": "Avicennia germinans, Deepwater Horizon, disturbance, | ||
17 | mesocosm, primary production, range shift, Spartina alterniflora, | 17 | mesocosm, primary production, range shift, Spartina alterniflora, | ||
18 | genotypic diversity" | 18 | genotypic diversity" | ||
19 | } | 19 | } | ||
20 | ], | 20 | ], | ||
21 | "groups": [], | 21 | "groups": [], | ||
22 | "id": "3843c7b3-9cb1-441e-b6d6-c4b6fba97362", | 22 | "id": "3843c7b3-9cb1-441e-b6d6-c4b6fba97362", | ||
23 | "isopen": false, | 23 | "isopen": false, | ||
24 | "license_id": null, | 24 | "license_id": null, | ||
25 | "license_title": null, | 25 | "license_title": null, | ||
26 | "maintainer": "data@disl.org", | 26 | "maintainer": "data@disl.org", | ||
27 | "maintainer_email": "data@disl.org", | 27 | "maintainer_email": "data@disl.org", | ||
28 | "metadata_created": "2022-07-27T16:02:04.121359", | 28 | "metadata_created": "2022-07-27T16:02:04.121359", | ||
n | 29 | "metadata_modified": "2022-07-27T16:02:05.103121", | n | 29 | "metadata_modified": "2022-07-27T16:02:05.603426", |
30 | "name": | 30 | "name": | ||
31 | ecies-composition-and-plant-genotypic-diversity-on-salt-marsn7k93629", | 31 | ecies-composition-and-plant-genotypic-diversity-on-salt-marsn7k93629", | ||
32 | "notes": "### Abstract\nThis dataset contains images and | 32 | "notes": "### Abstract\nThis dataset contains images and | ||
33 | productivity data from a yearlong mesocosm experiment. We included | 33 | productivity data from a yearlong mesocosm experiment. We included | ||
34 | three plant composition treatments: Spartina alterniflora only, | 34 | three plant composition treatments: Spartina alterniflora only, | ||
35 | Avicennia germinans only, and S. alterniflora and A. germinans mix | 35 | Avicennia germinans only, and S. alterniflora and A. germinans mix | ||
36 | (SA+AG). In addition, within the treatments containing S. | 36 | (SA+AG). In addition, within the treatments containing S. | ||
37 | alterniflora, we examined the effects of plant genotypic identity and | 37 | alterniflora, we examined the effects of plant genotypic identity and | ||
38 | diversity using 1 genotype (monoculture) or 3 genotypes (3 genotypes | 38 | diversity using 1 genotype (monoculture) or 3 genotypes (3 genotypes | ||
39 | randomly selected from a pool of 6 genotypes; polyculture). In the two | 39 | randomly selected from a pool of 6 genotypes; polyculture). In the two | ||
40 | oil-exposed mesocosms, we used a 5-day repetitive dosage procedure, | 40 | oil-exposed mesocosms, we used a 5-day repetitive dosage procedure, | ||
41 | with each experimental tub receiving an initial 1 L m-2 of a 1:1 | 41 | with each experimental tub receiving an initial 1 L m-2 of a 1:1 | ||
42 | oil-water mixture. In the two non-oiled mesocosms, seawater was added | 42 | oil-water mixture. In the two non-oiled mesocosms, seawater was added | ||
43 | using the same procedure. During each of our four post-oil sampling | 43 | using the same procedure. During each of our four post-oil sampling | ||
44 | events (Dec. 2015 - Sept. 2016), we quantified plant survival, growth, | 44 | events (Dec. 2015 - Sept. 2016), we quantified plant survival, growth, | ||
45 | morphology, and production of both Spartina and Avicennia as a | 45 | morphology, and production of both Spartina and Avicennia as a | ||
46 | function of plant diversity and oiling. Related data can be found in | 46 | function of plant diversity and oiling. Related data can be found in | ||
47 | GRIIDC datasets R4.x262.000:0025, R4.x262.000:0026, and | 47 | GRIIDC datasets R4.x262.000:0025, R4.x262.000:0026, and | ||
48 | R4.x262.000:0035.\n\n### Purpose\nTo test the effects of plant species | 48 | R4.x262.000:0035.\n\n### Purpose\nTo test the effects of plant species | ||
49 | identity and composition (A. germinans, S. alterniflora), as well as | 49 | identity and composition (A. germinans, S. alterniflora), as well as | ||
50 | plant genotypic diversity (S. alterniflora only) on the response of | 50 | plant genotypic diversity (S. alterniflora only) on the response of | ||
51 | coastal wetlands to oiling disturbance.\n\n**DOI: | 51 | coastal wetlands to oiling disturbance.\n\n**DOI: | ||
52 | [doi:10.7266/N7K93629](https://www.doi.org/10.7266/N7K93629)**\n\n### | 52 | [doi:10.7266/N7K93629](https://www.doi.org/10.7266/N7K93629)**\n\n### | ||
53 | Suggested Citation\nA. Randall Hughes, J. Cebrian, K. Heck, J. Goff, | 53 | Suggested Citation\nA. Randall Hughes, J. Cebrian, K. Heck, J. Goff, | ||
54 | T. C. Hanley, W. Scheffel, R.A. Zerebecki. 2018. Effects of oil | 54 | T. C. Hanley, W. Scheffel, R.A. Zerebecki. 2018. Effects of oil | ||
55 | exposure, plant species composition, and plant genotypic diversity on | 55 | exposure, plant species composition, and plant genotypic diversity on | ||
56 | salt marsh and mangrove assemblages: A mesocosm study from September | 56 | salt marsh and mangrove assemblages: A mesocosm study from September | ||
57 | 2015 to September 2016. Distributed by: Gulf of Mexico Research | 57 | 2015 to September 2016. Distributed by: Gulf of Mexico Research | ||
58 | Initiative Information and Data Cooperative (GRIIDC), Harte Research | 58 | Initiative Information and Data Cooperative (GRIIDC), Harte Research | ||
59 | Institute, Texas A&M University\u2013Corpus Christi. | 59 | Institute, Texas A&M University\u2013Corpus Christi. | ||
60 | doi:10.7266/N7K93629\n\n### Related Publication Citation\n[Hughes, A. | 60 | doi:10.7266/N7K93629\n\n### Related Publication Citation\n[Hughes, A. | ||
61 | R., Cebrian, J., Heck, K., Goff, J., Hanley, T. C., Scheffel, W., & | 61 | R., Cebrian, J., Heck, K., Goff, J., Hanley, T. C., Scheffel, W., & | ||
62 | Zerebecki, R. A. (2018). Effects of oil exposure, plant species | 62 | Zerebecki, R. A. (2018). Effects of oil exposure, plant species | ||
63 | composition, and plant genotypic diversity on salt marsh and mangrove | 63 | composition, and plant genotypic diversity on salt marsh and mangrove | ||
64 | assemblages. Ecosphere, 9(4), e02207. | 64 | assemblages. Ecosphere, 9(4), e02207. | ||
65 | 10.1002/ecs2.2207\n](https://dx.doi.org/10.1002/ecs2.2207)\n\n**Funded | 65 | 10.1002/ecs2.2207\n](https://dx.doi.org/10.1002/ecs2.2207)\n\n**Funded | ||
66 | by:** Gulf of Mexico Research Initiative (GoMRI)\n\n**Funding cycle:** | 66 | by:** Gulf of Mexico Research Initiative (GoMRI)\n\n**Funding cycle:** | ||
67 | RFP-IV\n\n**Research group:** Alabama Center for Ecological Resilience | 67 | RFP-IV\n\n**Research group:** Alabama Center for Ecological Resilience | ||
68 | (ACER)\n\n", | 68 | (ACER)\n\n", | ||
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136 | ], | 160 | ], | ||
137 | "state": "active", | 161 | "state": "active", | ||
138 | "tags": [ | 162 | "tags": [ | ||
139 | { | 163 | { | ||
140 | "display_name": "Avicennia germinans", | 164 | "display_name": "Avicennia germinans", | ||
141 | "id": "0aa5c471-029f-4c43-a71a-eee474e3e3b8", | 165 | "id": "0aa5c471-029f-4c43-a71a-eee474e3e3b8", | ||
142 | "name": "Avicennia germinans", | 166 | "name": "Avicennia germinans", | ||
143 | "state": "active", | 167 | "state": "active", | ||
144 | "vocabulary_id": null | 168 | "vocabulary_id": null | ||
145 | }, | 169 | }, | ||
146 | { | 170 | { | ||
147 | "display_name": "Deepwater Horizon", | 171 | "display_name": "Deepwater Horizon", | ||
148 | "id": "0e13401a-3910-4b7f-9e17-df754fe3f24a", | 172 | "id": "0e13401a-3910-4b7f-9e17-df754fe3f24a", | ||
149 | "name": "Deepwater Horizon", | 173 | "name": "Deepwater Horizon", | ||
150 | "state": "active", | 174 | "state": "active", | ||
151 | "vocabulary_id": null | 175 | "vocabulary_id": null | ||
152 | }, | 176 | }, | ||
153 | { | 177 | { | ||
154 | "display_name": "Spartina alterniflora", | 178 | "display_name": "Spartina alterniflora", | ||
155 | "id": "643d641a-af1a-4af4-9006-75e0616a00c4", | 179 | "id": "643d641a-af1a-4af4-9006-75e0616a00c4", | ||
156 | "name": "Spartina alterniflora", | 180 | "name": "Spartina alterniflora", | ||
157 | "state": "active", | 181 | "state": "active", | ||
158 | "vocabulary_id": null | 182 | "vocabulary_id": null | ||
159 | }, | 183 | }, | ||
160 | { | 184 | { | ||
161 | "display_name": "disturbance", | 185 | "display_name": "disturbance", | ||
162 | "id": "6eb32127-5951-4681-ac5b-5b9b412aec8e", | 186 | "id": "6eb32127-5951-4681-ac5b-5b9b412aec8e", | ||
163 | "name": "disturbance", | 187 | "name": "disturbance", | ||
164 | "state": "active", | 188 | "state": "active", | ||
165 | "vocabulary_id": null | 189 | "vocabulary_id": null | ||
166 | }, | 190 | }, | ||
167 | { | 191 | { | ||
168 | "display_name": "genotypic diversity", | 192 | "display_name": "genotypic diversity", | ||
169 | "id": "44cfa426-12b5-424f-9b71-1734ce413118", | 193 | "id": "44cfa426-12b5-424f-9b71-1734ce413118", | ||
170 | "name": "genotypic diversity", | 194 | "name": "genotypic diversity", | ||
171 | "state": "active", | 195 | "state": "active", | ||
172 | "vocabulary_id": null | 196 | "vocabulary_id": null | ||
173 | }, | 197 | }, | ||
174 | { | 198 | { | ||
175 | "display_name": "mesocosm", | 199 | "display_name": "mesocosm", | ||
176 | "id": "9333be78-cf5d-4704-80af-eb8209dc6428", | 200 | "id": "9333be78-cf5d-4704-80af-eb8209dc6428", | ||
177 | "name": "mesocosm", | 201 | "name": "mesocosm", | ||
178 | "state": "active", | 202 | "state": "active", | ||
179 | "vocabulary_id": null | 203 | "vocabulary_id": null | ||
180 | }, | 204 | }, | ||
181 | { | 205 | { | ||
182 | "display_name": "primary production", | 206 | "display_name": "primary production", | ||
183 | "id": "261c90d9-38d1-46c6-9f7c-d75f813b8996", | 207 | "id": "261c90d9-38d1-46c6-9f7c-d75f813b8996", | ||
184 | "name": "primary production", | 208 | "name": "primary production", | ||
185 | "state": "active", | 209 | "state": "active", | ||
186 | "vocabulary_id": null | 210 | "vocabulary_id": null | ||
187 | }, | 211 | }, | ||
188 | { | 212 | { | ||
189 | "display_name": "range shift", | 213 | "display_name": "range shift", | ||
190 | "id": "e88d2818-01ff-41a3-9c72-3f834a1fdc55", | 214 | "id": "e88d2818-01ff-41a3-9c72-3f834a1fdc55", | ||
191 | "name": "range shift", | 215 | "name": "range shift", | ||
192 | "state": "active", | 216 | "state": "active", | ||
193 | "vocabulary_id": null | 217 | "vocabulary_id": null | ||
194 | } | 218 | } | ||
195 | ], | 219 | ], | ||
196 | "title": "Effects of oil exposure, plant species composition, and | 220 | "title": "Effects of oil exposure, plant species composition, and | ||
197 | plant genotypic diversity on salt marsh and mangrove assemblages: A | 221 | plant genotypic diversity on salt marsh and mangrove assemblages: A | ||
198 | mesocosm study from September 2015 to September 2016", | 222 | mesocosm study from September 2015 to September 2016", | ||
199 | "type": "dataset", | 223 | "type": "dataset", | ||
200 | "url": null, | 224 | "url": null, | ||
201 | "version": null | 225 | "version": null | ||
202 | } | 226 | } |