Changes
On October 10, 2022 at 9:21:59 PM UTC, c17a0114-fe1c-4191-986b-40c4b31b670a:
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Removed the following tags from Biogenic silica standing stock and productivity on the Mississippi-Alabama Shelf, March to July, 2016
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Changed value of field
task_created
of resource 2016_Particulates_Rho_ACER.csv to2022-10-10 21:15:20.879237
(previously2022-07-27 14:33:54.098051
) in Biogenic silica standing stock and productivity on the Mississippi-Alabama Shelf, March to July, 2016 -
Changed value of field
ignore_hash
toTrue
in resource 2016_Particulates_Rho_ACER.csv in Biogenic silica standing stock and productivity on the Mississippi-Alabama Shelf, March to July, 2016
f | 1 | { | f | 1 | { |
2 | "author": "Sydney Acton", | 2 | "author": "Sydney Acton", | ||
3 | "author_email": "sacton@disl.org", | 3 | "author_email": "sacton@disl.org", | ||
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/N70K2738" | 8 | "value": "doi:10.7266/N70K2738" | ||
9 | }, | 9 | }, | ||
10 | { | 10 | { | ||
11 | "key": "ISO.pointOfContact", | 11 | "key": "ISO.pointOfContact", | ||
12 | "value": "Sydney Acton <sacton@disl.org>" | 12 | "value": "Sydney Acton <sacton@disl.org>" | ||
13 | }, | 13 | }, | ||
14 | { | 14 | { | ||
15 | "key": "ISO.pointOfContact.1", | 15 | "key": "ISO.pointOfContact.1", | ||
16 | "value": "Jeffrey Krause <jkrause@disl.org>" | 16 | "value": "Jeffrey Krause <jkrause@disl.org>" | ||
17 | }, | 17 | }, | ||
18 | { | 18 | { | ||
19 | "key": "Place Keywords", | 19 | "key": "Place Keywords", | ||
20 | "value": "Mississippi, Alabama, northern Gulf of Mexico" | 20 | "value": "Mississippi, Alabama, northern Gulf of Mexico" | ||
21 | }, | 21 | }, | ||
22 | { | 22 | { | ||
23 | "key": "Temporal Begin", | 23 | "key": "Temporal Begin", | ||
24 | "value": "2016-03-30" | 24 | "value": "2016-03-30" | ||
25 | }, | 25 | }, | ||
26 | { | 26 | { | ||
27 | "key": "Temporal End", | 27 | "key": "Temporal End", | ||
28 | "value": "2016-07-30" | 28 | "value": "2016-07-30" | ||
29 | }, | 29 | }, | ||
30 | { | 30 | { | ||
31 | "key": "Theme Keywords", | 31 | "key": "Theme Keywords", | ||
32 | "value": "Diatoms, Biogenic Silica, Primary Production" | 32 | "value": "Diatoms, Biogenic Silica, Primary Production" | ||
33 | }, | 33 | }, | ||
34 | { | 34 | { | ||
35 | "key": "spatial", | 35 | "key": "spatial", | ||
36 | "value": "{ \"type\": \"Polygon\", \"coordinates\": [ [ [ | 36 | "value": "{ \"type\": \"Polygon\", \"coordinates\": [ [ [ | ||
37 | -88.8204, 30.27303 ], [ -87.51978, 30.27303 ], [ -87.51978, 29.09797 | 37 | -88.8204, 30.27303 ], [ -87.51978, 30.27303 ], [ -87.51978, 29.09797 | ||
38 | ], [ -88.8204, 29.09797 ], [ -88.8204, 30.27303 ] ] ] }" | 38 | ], [ -88.8204, 29.09797 ], [ -88.8204, 30.27303 ] ] ] }" | ||
39 | } | 39 | } | ||
40 | ], | 40 | ], | ||
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43 | "isopen": false, | 43 | "isopen": false, | ||
44 | "license_id": null, | 44 | "license_id": null, | ||
45 | "license_title": null, | 45 | "license_title": null, | ||
46 | "maintainer": "data@disl.org", | 46 | "maintainer": "data@disl.org", | ||
47 | "maintainer_email": "data@disl.org", | 47 | "maintainer_email": "data@disl.org", | ||
48 | "metadata_created": "2022-07-27T14:33:52.956934", | 48 | "metadata_created": "2022-07-27T14:33:52.956934", | ||
n | 49 | "metadata_modified": "2022-07-27T14:36:00.133828", | n | 49 | "metadata_modified": "2022-10-10T21:21:59.314388", |
50 | "name": | 50 | "name": | ||
51 | nd-productivity-on-the-mississippi-alabama-shelf-march-to-jun70k2738", | 51 | nd-productivity-on-the-mississippi-alabama-shelf-march-to-jun70k2738", | ||
52 | "notes": "### Abstract\nDiatoms are an important phytoplankton group | 52 | "notes": "### Abstract\nDiatoms are an important phytoplankton group | ||
53 | in this region as they can dominate both the standing stock of | 53 | in this region as they can dominate both the standing stock of | ||
54 | phytoplankton and the rate of primary production at times. Unlike | 54 | phytoplankton and the rate of primary production at times. Unlike | ||
55 | other phytoplankton groups, diatoms have an obligate requirement for | 55 | other phytoplankton groups, diatoms have an obligate requirement for | ||
56 | silicon. Because diatoms can be important to regional primary | 56 | silicon. Because diatoms can be important to regional primary | ||
57 | production, there can be a strong coupling between the regional C and | 57 | production, there can be a strong coupling between the regional C and | ||
58 | Si cycles. Because of this coupling, measurement of biogenic silica | 58 | Si cycles. Because of this coupling, measurement of biogenic silica | ||
59 | (bSi) production is a useful proxy to deduce the diatom-specific | 59 | (bSi) production is a useful proxy to deduce the diatom-specific | ||
60 | contribution to community rates, as silicoflagellates and radiolarians | 60 | contribution to community rates, as silicoflagellates and radiolarians | ||
61 | (which both use Si to build shells) are comparatively minor in biomass | 61 | (which both use Si to build shells) are comparatively minor in biomass | ||
62 | and grow slower than diatoms. Data were collected during cruises PTS02 | 62 | and grow slower than diatoms. Data were collected during cruises PTS02 | ||
63 | and PTS03 on the Mississippi-Alabama shelf from March-July, 2016. This | 63 | and PTS03 on the Mississippi-Alabama shelf from March-July, 2016. This | ||
64 | dataset supports the publication: Dzwonkowski, B., Greer, A.T., | 64 | dataset supports the publication: Dzwonkowski, B., Greer, A.T., | ||
65 | Brise\u00f1o-Avena, C., Krause, J.W., Soto, I.M., Hernandez, F.J., | 65 | Brise\u00f1o-Avena, C., Krause, J.W., Soto, I.M., Hernandez, F.J., | ||
66 | Deary, A.L., Wiggert, J.D., Joung, D., Fitzpatrick, P.J., O'Brien, | 66 | Deary, A.L., Wiggert, J.D., Joung, D., Fitzpatrick, P.J., O'Brien, | ||
67 | S.J., Dykstra, S.L., Lau, Y., Cambazoglu, M.K., Lockridge, G., Howden, | 67 | S.J., Dykstra, S.L., Lau, Y., Cambazoglu, M.K., Lockridge, G., Howden, | ||
68 | S.D., Shiller, A.M., and Graham, W.M. (2017). Estuarine influence on | 68 | S.D., Shiller, A.M., and Graham, W.M. (2017). Estuarine influence on | ||
69 | biogeochemical properties of the Alabama shelf during the fall season. | 69 | biogeochemical properties of the Alabama shelf during the fall season. | ||
70 | Continental Shelf Research, 140: 96-109 doi: | 70 | Continental Shelf Research, 140: 96-109 doi: | ||
71 | 10.1016/j.csr.2017.05.001. Related size-fractionated nitrate uptake | 71 | 10.1016/j.csr.2017.05.001. Related size-fractionated nitrate uptake | ||
72 | and primary productivity data can be found in GRIIDC dataset | 72 | and primary productivity data can be found in GRIIDC dataset | ||
73 | R4.x260.000:0092.\n\n### Purpose\nRates of biological productivity | 73 | R4.x260.000:0092.\n\n### Purpose\nRates of biological productivity | ||
74 | were determined through a consortia partnership with the Alabama | 74 | were determined through a consortia partnership with the Alabama | ||
75 | Center for Ecological Resilience (ACER) and Consortium for Oil Spill | 75 | Center for Ecological Resilience (ACER) and Consortium for Oil Spill | ||
76 | Exposure Pathways in Coastal River-Dominated Ecosystems (CONCORDE). | 76 | Exposure Pathways in Coastal River-Dominated Ecosystems (CONCORDE). | ||
77 | The shared goal for each consortium was to understand the spatial and | 77 | The shared goal for each consortium was to understand the spatial and | ||
78 | temporal variability in biological productivity rates. This | 78 | temporal variability in biological productivity rates. This | ||
79 | information is critical for providing baseline information to | 79 | information is critical for providing baseline information to | ||
80 | understanding the potential effects of anthropogenic (e.g. oil spill) | 80 | understanding the potential effects of anthropogenic (e.g. oil spill) | ||
81 | or natural (e.g. hurricane) disturbances on biological productivity in | 81 | or natural (e.g. hurricane) disturbances on biological productivity in | ||
82 | the Mississippi-Alabama shelf in the northern Gulf of | 82 | the Mississippi-Alabama shelf in the northern Gulf of | ||
83 | Mexico.\n\n**DOI: | 83 | Mexico.\n\n**DOI: | ||
84 | [doi:10.7266/N70K2738](https://www.doi.org/10.7266/N70K2738)**\n\n### | 84 | [doi:10.7266/N70K2738](https://www.doi.org/10.7266/N70K2738)**\n\n### | ||
85 | Suggested Citation\nKrause, Jeffrey W.; Acton, Sydney. 2018. Biogenic | 85 | Suggested Citation\nKrause, Jeffrey W.; Acton, Sydney. 2018. Biogenic | ||
86 | silica standing stock and productivity on the Mississippi-Alabama | 86 | silica standing stock and productivity on the Mississippi-Alabama | ||
87 | Shelf, March to July, 2016. Distributed by: Gulf of Mexico Research | 87 | Shelf, March to July, 2016. Distributed by: Gulf of Mexico Research | ||
88 | Initiative Information and Data Cooperative (GRIIDC), Harte Research | 88 | Initiative Information and Data Cooperative (GRIIDC), Harte Research | ||
89 | Institute, Texas A&M University\u2013Corpus Christi. | 89 | Institute, Texas A&M University\u2013Corpus Christi. | ||
90 | doi:10.7266/N70K2738\n\n### Related Publication | 90 | doi:10.7266/N70K2738\n\n### Related Publication | ||
91 | Citation\n[Dzwonkowski, B., Greer, A. T., Brise\u00f1o-Avena, C., | 91 | Citation\n[Dzwonkowski, B., Greer, A. T., Brise\u00f1o-Avena, C., | ||
92 | Krause, J. W., Soto, I. M., Hernandez, F. J., \u2026 Graham, W. M. | 92 | Krause, J. W., Soto, I. M., Hernandez, F. J., \u2026 Graham, W. M. | ||
93 | (2017). Estuarine influence on biogeochemical properties of the | 93 | (2017). Estuarine influence on biogeochemical properties of the | ||
94 | Alabama shelf during the fall season. Continental Shelf Research, 140, | 94 | Alabama shelf during the fall season. Continental Shelf Research, 140, | ||
95 | 96\u2013109. | 95 | 96\u2013109. | ||
96 | 17.05.001\n](https://dx.doi.org/10.1016/j.csr.2017.05.001)\n\n**Funded | 96 | 17.05.001\n](https://dx.doi.org/10.1016/j.csr.2017.05.001)\n\n**Funded | ||
97 | by:** Gulf of Mexico Research Initiative (GoMRI)\n\n**Funding cycle:** | 97 | by:** Gulf of Mexico Research Initiative (GoMRI)\n\n**Funding cycle:** | ||
98 | RFP-IV\n\n**Research group:** Alabama Center for Ecological Resilience | 98 | RFP-IV\n\n**Research group:** Alabama Center for Ecological Resilience | ||
99 | (ACER)\n\n", | 99 | (ACER)\n\n", | ||
100 | "num_resources": 2, | 100 | "num_resources": 2, | ||
n | 101 | "num_tags": 6, | n | 101 | "num_tags": 0, |
102 | "organization": { | 102 | "organization": { | ||
103 | "approval_status": "approved", | 103 | "approval_status": "approved", | ||
104 | "created": "2022-07-22T03:25:13.329710", | 104 | "created": "2022-07-22T03:25:13.329710", | ||
n | 105 | "description": "The Dauphin Island Sea Lab organization.", | n | 105 | "description": "The Dauphin Island Sea Lab's (DISL) mission is to |
106 | become a center for transformative U.S. oceanic and coastal research | ||||
107 | and education.. Founded in 1971 by the State of Alabama Legislature to | ||||
108 | maximize the marine sciences capabilities of several Alabama | ||||
109 | institutions and minimize duplication. \r\n\r\nLocated on the eastern | ||||
110 | tip of Dauphin Island, a barrier island in the northern Gulf of | ||||
111 | Mexico, DISL is surrounded by Mobile Bay, the Mississippi Sound, and | ||||
112 | the waters of the Gulf, making it a perfect location to conduct a wide | ||||
113 | range of marine science activity. \r\n\r\n[The University Programs | ||||
114 | (UP)](https://www.disl.edu/univ-prog/) serves the students of the | ||||
115 | Marine Environmental Sciences Consortium\u2019s (MESC) 22 public and | ||||
116 | private four-year colleges and universities through graduate and | ||||
117 | undergraduate programs. Throughout the year, graduate students conduct | ||||
118 | research, and attend classes while completing their degree under the | ||||
119 | mentorship of faculty and staff at the Dauphin Island Sea Lab. | ||||
120 | \r\n\r\n[The Discovery Hall Programs (DHP)](https://www.disl.edu/dhp/) | ||||
121 | oversees educational programs for K-12 field programs, | ||||
122 | teacher-training, and community outreach opportunities. \r\n[The | ||||
123 | Estuarium](https://www.disl.edu/aquarium/), our public aquarium | ||||
124 | located on the Dauphin Island Sea Lab campus, is a part of DHP's | ||||
125 | educational outreach mission. The Estuarium focuses solely on the | ||||
126 | Mobile-Tensaw Estuary System. The BayMobile allows DHP educators to | ||||
127 | bring marine science to students across Alabama in the classroom and | ||||
128 | at community events. \r\n\r\nResearch programs at the Dauphin Island | ||||
129 | Sea Lab range from biogeochemistry and oceanography to ecosystem | ||||
130 | ecology. While much of our research focuses on the near-shore and | ||||
131 | estuarine processes of the northern Gulf of Mexico, field sites of our | ||||
132 | internationally-renowned faculty also include the Arctic, Mexico, | ||||
133 | Australia, and other countries.\r\n\r\nThe Dauphin Island Sea Lab also | ||||
134 | offers state and local government, industry, and agency | ||||
135 | decision-makers a range of coastal zone management services, including | ||||
136 | access to the nationally acclaimed data management center. Armed with | ||||
137 | data through the DISL data management center, entities can make | ||||
138 | well-informed decisions and sound policies while considering | ||||
139 | environmental impact. Another key contributor to successful coastal | ||||
140 | zone management is the Mobile Bay National Estuary Program, which | ||||
141 | falls within the services of DISL.\r\n\r\n", | ||||
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175 | "state": "active", | 212 | "state": "active", | ||
t | 176 | "tags": [ | t | 213 | "tags": [], |
177 | { | ||||
178 | "display_name": "Alabama", | ||||
179 | "id": "ac3ee2de-3a66-40a9-8f21-8a547eb88533", | ||||
180 | "name": "Alabama", | ||||
181 | "state": "active", | ||||
182 | "vocabulary_id": null | ||||
183 | }, | ||||
184 | { | ||||
185 | "display_name": "Biogenic Silica", | ||||
186 | "id": "ff0b3d54-c93b-4ed5-aeec-4cf2790d73ed", | ||||
187 | "name": "Biogenic Silica", | ||||
188 | "state": "active", | ||||
189 | "vocabulary_id": null | ||||
190 | }, | ||||
191 | { | ||||
192 | "display_name": "Diatoms", | ||||
193 | "id": "757efc05-87c2-4fd2-805a-7352595eadf1", | ||||
194 | "name": "Diatoms", | ||||
195 | "state": "active", | ||||
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197 | }, | ||||
198 | { | ||||
199 | "display_name": "Mississippi", | ||||
200 | "id": "a2e7290a-74f7-4e92-bd07-554f7270741d", | ||||
201 | "name": "Mississippi", | ||||
202 | "state": "active", | ||||
203 | "vocabulary_id": null | ||||
204 | }, | ||||
205 | { | ||||
206 | "display_name": "Primary Production", | ||||
207 | "id": "842483a0-f29d-4cc9-8009-70c604235101", | ||||
208 | "name": "Primary Production", | ||||
209 | "state": "active", | ||||
210 | "vocabulary_id": null | ||||
211 | }, | ||||
212 | { | ||||
213 | "display_name": "northern Gulf of Mexico", | ||||
214 | "id": "511c4d3a-d5d8-438d-af93-0bbe19b42564", | ||||
215 | "name": "northern Gulf of Mexico", | ||||
216 | "state": "active", | ||||
217 | "vocabulary_id": null | ||||
218 | } | ||||
219 | ], | ||||
220 | "title": "Biogenic silica standing stock and productivity on the | 214 | "title": "Biogenic silica standing stock and productivity on the | ||
221 | Mississippi-Alabama Shelf, March to July, 2016", | 215 | Mississippi-Alabama Shelf, March to July, 2016", | ||
222 | "type": "dataset", | 216 | "type": "dataset", | ||
223 | "url": null, | 217 | "url": null, | ||
224 | "version": null | 218 | "version": null | ||
225 | } | 219 | } |