Changes
On November 6, 2023 at 3:05:45 PM UTC, Marina Lipizer:
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f | 1 | { | f | 1 | { |
2 | "additional_informations": "", | 2 | "additional_informations": "", | ||
3 | "author": null, | 3 | "author": null, | ||
4 | "author_email": null, | 4 | "author_email": null, | ||
5 | "autonotes": "", | 5 | "autonotes": "", | ||
6 | "category": "scientific_research", | 6 | "category": "scientific_research", | ||
7 | "child_of_string": "", | 7 | "child_of_string": "", | ||
8 | "children": "", | 8 | "children": "", | ||
9 | "coastal-land-use-and-planning": [], | 9 | "coastal-land-use-and-planning": [], | ||
10 | "conservation-types": [], | 10 | "conservation-types": [], | ||
11 | "creator_user_id": "23a9e677-56e9-45e1-bb67-b7b4b97acae9", | 11 | "creator_user_id": "23a9e677-56e9-45e1-bb67-b7b4b97acae9", | ||
12 | "crs": [ | 12 | "crs": [ | ||
13 | "4326" | 13 | "4326" | ||
14 | ], | 14 | ], | ||
15 | "crs_other": "", | 15 | "crs_other": "", | ||
16 | "data_accessibility": "OPEN", | 16 | "data_accessibility": "OPEN", | ||
17 | "data_portal": "emodnet", | 17 | "data_portal": "emodnet", | ||
18 | "derived": "", | 18 | "derived": "", | ||
19 | "derives_from_string": "", | 19 | "derives_from_string": "", | ||
20 | "domain_area": "northen_adriatic_sea", | 20 | "domain_area": "northen_adriatic_sea", | ||
21 | "ecosystem-services": [], | 21 | "ecosystem-services": [], | ||
22 | "environment-msfd-classes": [ | 22 | "environment-msfd-classes": [ | ||
23 | "habitats-water-column", | 23 | "habitats-water-column", | ||
24 | 24 | ||||
25 | put-of-nutrients-diffuse-sources-point-sources-atmospheric-deposition" | 25 | put-of-nutrients-diffuse-sources-point-sources-atmospheric-deposition" | ||
26 | ], | 26 | ], | ||
27 | "environment-msfd-descriptors-criteria": [ | 27 | "environment-msfd-descriptors-criteria": [ | ||
28 | "d5-eutrophication" | 28 | "d5-eutrophication" | ||
29 | ], | 29 | ], | ||
30 | "environment-non-msfd-classes": [], | 30 | "environment-non-msfd-classes": [], | ||
31 | "environment-wfd": [ | 31 | "environment-wfd": [ | ||
32 | "chemical-status" | 32 | "chemical-status" | ||
33 | ], | 33 | ], | ||
34 | "groups": [], | 34 | "groups": [], | ||
35 | "id": "47e87395-ea3f-4619-b7e3-c043a74efb54", | 35 | "id": "47e87395-ea3f-4619-b7e3-c043a74efb54", | ||
36 | "isopen": true, | 36 | "isopen": true, | ||
37 | "language": "eng", | 37 | "language": "eng", | ||
38 | "legal-governance-planning-function": [], | 38 | "legal-governance-planning-function": [], | ||
39 | "legal-governance-planning-theme": [], | 39 | "legal-governance-planning-theme": [], | ||
40 | "license_id": "cc-by", | 40 | "license_id": "cc-by", | ||
41 | "license_title": "Creative Commons Attribution", | 41 | "license_title": "Creative Commons Attribution", | ||
42 | "license_url": "http://www.opendefinition.org/licenses/cc-by", | 42 | "license_url": "http://www.opendefinition.org/licenses/cc-by", | ||
43 | "maintainer": null, | 43 | "maintainer": null, | ||
44 | "maintainer_email": null, | 44 | "maintainer_email": null, | ||
45 | "maritime-activities": [], | 45 | "maritime-activities": [], | ||
46 | "metadata_completeness": "complete", | 46 | "metadata_completeness": "complete", | ||
47 | "metadata_created": "2023-11-06T15:05:01.949065", | 47 | "metadata_created": "2023-11-06T15:05:01.949065", | ||
t | 48 | "metadata_modified": "2023-11-06T15:05:41.233667", | t | 48 | "metadata_modified": "2023-11-06T15:05:45.437598", |
49 | "name": "nas-silicate-climatology", | 49 | "name": "nas-silicate-climatology", | ||
50 | "notes": "Water body silicate - Seasonal Climatology for Po River | 50 | "notes": "Water body silicate - Seasonal Climatology for Po River | ||
51 | for the period 1980-2021 on the domain: Lon E12.0-14.0deg., Lat | 51 | for the period 1980-2021 on the domain: Lon E12.0-14.0deg., Lat | ||
52 | N44.0-46.0deg. Data Sources: observational data from | 52 | N44.0-46.0deg. Data Sources: observational data from | ||
53 | SeaDataNet/EMODNet Chemistry Data Network. Description of DIVA | 53 | SeaDataNet/EMODNet Chemistry Data Network. Description of DIVA | ||
54 | analysis: The computation was done with the DIVAnd (Data-Interpolating | 54 | analysis: The computation was done with the DIVAnd (Data-Interpolating | ||
55 | Variational Analysis in n dimensions), version 2.7.9, using GEBCO | 55 | Variational Analysis in n dimensions), version 2.7.9, using GEBCO | ||
56 | 30sec topography for the spatial connectivity of water masses. The | 56 | 30sec topography for the spatial connectivity of water masses. The | ||
57 | horizontal resolution of the produced DIVAnd maps grids is dx=dy=0.009 | 57 | horizontal resolution of the produced DIVAnd maps grids is dx=dy=0.009 | ||
58 | degrees (around 975m and 708m accordingly). The vertical resolution is | 58 | degrees (around 975m and 708m accordingly). The vertical resolution is | ||
59 | 14 depth levels: [0., 2., 4., 6., 8., 10., 15., 20., 25., 30., 40., | 59 | 14 depth levels: [0., 2., 4., 6., 8., 10., 15., 20., 25., 30., 40., | ||
60 | 50., 60., 70.]. A relative correlation length used based on topography | 60 | 50., 60., 70.]. A relative correlation length used based on topography | ||
61 | gradients and the horizontal correlation length varies from 25 km to | 61 | gradients and the horizontal correlation length varies from 25 km to | ||
62 | 12.5 km. The vertical correlation length (in meters) is: | 62 | 12.5 km. The vertical correlation length (in meters) is: | ||
63 | [4.,4.,4.,4.,4.,10.,10.,10.,10.,20.,20.,20.,20.,20.]. Duplicates check | 63 | [4.,4.,4.,4.,4.,10.,10.,10.,10.,20.,20.,20.,20.,20.]. Duplicates check | ||
64 | was performed using the following criteria for space and time: | 64 | was performed using the following criteria for space and time: | ||
65 | dlon=0.01deg., dlat=0.01deg., ddepth=0.01m, dtime=1min, dvalue=0.01. | 65 | dlon=0.01deg., dlat=0.01deg., ddepth=0.01m, dtime=1min, dvalue=0.01. | ||
66 | The error variance (epsilon2) was set equal to 1. Data weight was | 66 | The error variance (epsilon2) was set equal to 1. Data weight was | ||
67 | reduced at shallow waters. Data weighting was applied with the | 67 | reduced at shallow waters. Data weighting was applied with the | ||
68 | following threshold values: lon=0.03, lat=0.03, depth=2. An | 68 | following threshold values: lon=0.03, lat=0.03, depth=2. An | ||
69 | anamorphosis transformation was applied to the data (function | 69 | anamorphosis transformation was applied to the data (function | ||
70 | DIVAnd.Anam.loglin) to avoid unrealistic negative values: threshold | 70 | DIVAnd.Anam.loglin) to avoid unrealistic negative values: threshold | ||
71 | value=200. The mean value was used as background analysis field. | 71 | value=200. The mean value was used as background analysis field. | ||
72 | Quality control of the observations was applied using the interpolated | 72 | Quality control of the observations was applied using the interpolated | ||
73 | field (QCMETHOD=3). Residuals (differences between the observations | 73 | field (QCMETHOD=3). Residuals (differences between the observations | ||
74 | and the analysis (interpolated linearly to the location of the | 74 | and the analysis (interpolated linearly to the location of the | ||
75 | observations) were calculated. Observations with residuals outside the | 75 | observations) were calculated. Observations with residuals outside the | ||
76 | minimum and maximum values of the 99% quantile were discarded from the | 76 | minimum and maximum values of the 99% quantile were discarded from the | ||
77 | analysis. Seasons definition: Winter=Jan-Mar, Spring=Apr-Jun, | 77 | analysis. Seasons definition: Winter=Jan-Mar, Spring=Apr-Jun, | ||
78 | Summer=Jul-Sep, Autumn=Oct-Dec. Originators of Italian data sets-List | 78 | Summer=Jul-Sep, Autumn=Oct-Dec. Originators of Italian data sets-List | ||
79 | of contributors: - Brunetti Fabio (OGS) - Cardin Vanessa, Bensi Manuel | 79 | of contributors: - Brunetti Fabio (OGS) - Cardin Vanessa, Bensi Manuel | ||
80 | doi:10.6092/36728450-4296-4e6a-967d-d5b6da55f306 - Cardin Vanessa, | 80 | doi:10.6092/36728450-4296-4e6a-967d-d5b6da55f306 - Cardin Vanessa, | ||
81 | Bensi Manuel, Ursella Laura, Siena Giuseppe | 81 | Bensi Manuel, Ursella Laura, Siena Giuseppe | ||
82 | doi:10.6092/f8e6d18e-f877-4aa5-a983-a03b06ccb987 - Cataletto Bruno | 82 | doi:10.6092/f8e6d18e-f877-4aa5-a983-a03b06ccb987 - Cataletto Bruno | ||
83 | (OGS) - Cinzia Comici Cinzia (OGS) - Civitarese Giuseppe (OGS) - | 83 | (OGS) - Cinzia Comici Cinzia (OGS) - Civitarese Giuseppe (OGS) - | ||
84 | DeVittor Cinzia (OGS) - Giani Michele (OGS) - Kovacevic Vedrana (OGS) | 84 | DeVittor Cinzia (OGS) - Giani Michele (OGS) - Kovacevic Vedrana (OGS) | ||
85 | - Mosetti Renzo (OGS) - Solidoro C.,Beran A.,Cataletto B.,Celussi | 85 | - Mosetti Renzo (OGS) - Solidoro C.,Beran A.,Cataletto B.,Celussi | ||
86 | M.,Cibic T.,Comici C.,Del Negro P.,De Vittor C.,Minocci M.,Monti | 86 | M.,Cibic T.,Comici C.,Del Negro P.,De Vittor C.,Minocci M.,Monti | ||
87 | M.,Fabbro C.,Falconi C.,Franzo A.,Libralato S.,Lipizer M.,Negussanti | 87 | M.,Fabbro C.,Falconi C.,Franzo A.,Libralato S.,Lipizer M.,Negussanti | ||
88 | J.S.,Russel H.,Valli G., | 88 | J.S.,Russel H.,Valli G., | ||
89 | doi:10.6092/e5518899-b914-43b0-8139-023718aa63f5 - Celio Massimo (ARPA | 89 | doi:10.6092/e5518899-b914-43b0-8139-023718aa63f5 - Celio Massimo (ARPA | ||
90 | FVG) - Malaguti Antonella (ENEA) - Fonda Umani Serena (UNITS) - | 90 | FVG) - Malaguti Antonella (ENEA) - Fonda Umani Serena (UNITS) - | ||
91 | Bignami Francesco (ISAC/CNR) - Boldrini Alfredo (ISMAR/CNR) - Marini | 91 | Bignami Francesco (ISAC/CNR) - Boldrini Alfredo (ISMAR/CNR) - Marini | ||
92 | Mauro (ISMAR/CNR) - Miserocchi Stefano (ISMAR/CNR) - Zaccone Renata | 92 | Mauro (ISMAR/CNR) - Miserocchi Stefano (ISMAR/CNR) - Zaccone Renata | ||
93 | (IAMC/CNR) - Lavezza, R., Dubroca, L. F. C., Ludicone, D., Kress, N., | 93 | (IAMC/CNR) - Lavezza, R., Dubroca, L. F. C., Ludicone, D., Kress, N., | ||
94 | Herut, B., Civitarese, G., Cruzado, A., Lef\u00e8vre, | 94 | Herut, B., Civitarese, G., Cruzado, A., Lef\u00e8vre, | ||
95 | D.,Souvermezoglou, E., Yilmaz, A., Tugrul, S., and Ribera d'Alcala, | 95 | D.,Souvermezoglou, E., Yilmaz, A., Tugrul, S., and Ribera d'Alcala, | ||
96 | M.: Compilation of quality controlled nutrient profiles from the | 96 | M.: Compilation of quality controlled nutrient profiles from the | ||
97 | Mediterranean Sea, doi:10.1594/PANGAEA.771907, 2011.", | 97 | Mediterranean Sea, doi:10.1594/PANGAEA.771907, 2011.", | ||
98 | "num_resources": 0, | 98 | "num_resources": 0, | ||
99 | "num_tags": 4, | 99 | "num_tags": 4, | ||
100 | "oceanographic-variables": [ | 100 | "oceanographic-variables": [ | ||
101 | "biochemistry-nutrients" | 101 | "biochemistry-nutrients" | ||
102 | ], | 102 | ], | ||
103 | "organization": { | 103 | "organization": { | ||
104 | "approval_status": "approved", | 104 | "approval_status": "approved", | ||
105 | "created": "2023-10-03T13:37:52.548819", | 105 | "created": "2023-10-03T13:37:52.548819", | ||
106 | "description": "Team for integration and updating of the Knowledge | 106 | "description": "Team for integration and updating of the Knowledge | ||
107 | Catalogue (metadata catalogue) for MSP on a national scale and | 107 | Catalogue (metadata catalogue) for MSP on a national scale and | ||
108 | Mediterranean projection, with a focus on safeguarding the | 108 | Mediterranean projection, with a focus on safeguarding the | ||
109 | biodiversity of marine ecosystems (Activity 4.1 Knowledge Catalogue | 109 | biodiversity of marine ecosystems (Activity 4.1 Knowledge Catalogue | ||
110 | for Biodiversity mainstreaming in Maritime Spatial Planning - | 110 | for Biodiversity mainstreaming in Maritime Spatial Planning - | ||
111 | MSP4BIODIVERSITY) within Spoke 2: Solutions to reverse marine | 111 | MSP4BIODIVERSITY) within Spoke 2: Solutions to reverse marine | ||
112 | biodiversity loss and manage marine resources sustainably of the | 112 | biodiversity loss and manage marine resources sustainably of the | ||
113 | __National Biodiversity Future Center \u2013 NBFC__\r\n\r\n", | 113 | __National Biodiversity Future Center \u2013 NBFC__\r\n\r\n", | ||
114 | "id": "8ed582af-8314-4998-b7e4-9de7cd1975dd", | 114 | "id": "8ed582af-8314-4998-b7e4-9de7cd1975dd", | ||
115 | "image_url": "2023-10-03-143557.861877LogoNBFCRGB.png", | 115 | "image_url": "2023-10-03-143557.861877LogoNBFCRGB.png", | ||
116 | "is_organization": true, | 116 | "is_organization": true, | ||
117 | "name": "msp-italy-working-team", | 117 | "name": "msp-italy-working-team", | ||
118 | "state": "active", | 118 | "state": "active", | ||
119 | "title": "MSP-Italy Working Team", | 119 | "title": "MSP-Italy Working Team", | ||
120 | "type": "organization" | 120 | "type": "organization" | ||
121 | }, | 121 | }, | ||
122 | "original-abstract": "", | 122 | "original-abstract": "", | ||
123 | "original-title": "Mediterranean Sea - Po River - DIVAnd 4D seasonal | 123 | "original-title": "Mediterranean Sea - Po River - DIVAnd 4D seasonal | ||
124 | analysis of Water body silicate 1980/2021 v2023", | 124 | analysis of Water body silicate 1980/2021 v2023", | ||
125 | "owner": "EMODnet Chemistry", | 125 | "owner": "EMODnet Chemistry", | ||
126 | "owner_org": "8ed582af-8314-4998-b7e4-9de7cd1975dd", | 126 | "owner_org": "8ed582af-8314-4998-b7e4-9de7cd1975dd", | ||
127 | "pdm_modules_relevance": [], | 127 | "pdm_modules_relevance": [], | ||
128 | "pdm_testing_relevance": [], | 128 | "pdm_testing_relevance": [], | ||
129 | "presentation_form": "map", | 129 | "presentation_form": "map", | ||
130 | "private": false, | 130 | "private": false, | ||
131 | "provider": "EMODnet Chemistry", | 131 | "provider": "EMODnet Chemistry", | ||
132 | "relationships_as_object": [], | 132 | "relationships_as_object": [], | ||
133 | "relationships_as_subject": [], | 133 | "relationships_as_subject": [], | ||
134 | "relevance-spatial-and-temporal": [], | 134 | "relevance-spatial-and-temporal": [], | ||
135 | "resources": [], | 135 | "resources": [], | ||
136 | "socio-economic-activities": [], | 136 | "socio-economic-activities": [], | ||
137 | "socio-economic-demography": [], | 137 | "socio-economic-demography": [], | ||
138 | "socio-economic-values": [], | 138 | "socio-economic-values": [], | ||
139 | "spatial_geojson": "North Adriatic", | 139 | "spatial_geojson": "North Adriatic", | ||
140 | "spatial_representation": "raster", | 140 | "spatial_representation": "raster", | ||
141 | "state": "draft", | 141 | "state": "draft", | ||
142 | "sub_category": "oceanography", | 142 | "sub_category": "oceanography", | ||
143 | "tags": [ | 143 | "tags": [ | ||
144 | { | 144 | { | ||
145 | "display_name": "EMODnet Chemistry", | 145 | "display_name": "EMODnet Chemistry", | ||
146 | "id": "a5dd60e2-6473-4d02-a032-82db042a68b7", | 146 | "id": "a5dd60e2-6473-4d02-a032-82db042a68b7", | ||
147 | "name": "EMODnet Chemistry", | 147 | "name": "EMODnet Chemistry", | ||
148 | "state": "active", | 148 | "state": "active", | ||
149 | "vocabulary_id": null | 149 | "vocabulary_id": null | ||
150 | }, | 150 | }, | ||
151 | { | 151 | { | ||
152 | "display_name": "emodnet", | 152 | "display_name": "emodnet", | ||
153 | "id": "249f5e3e-6ac7-4cac-b8ca-d558737bed7f", | 153 | "id": "249f5e3e-6ac7-4cac-b8ca-d558737bed7f", | ||
154 | "name": "emodnet", | 154 | "name": "emodnet", | ||
155 | "state": "active", | 155 | "state": "active", | ||
156 | "vocabulary_id": null | 156 | "vocabulary_id": null | ||
157 | }, | 157 | }, | ||
158 | { | 158 | { | ||
159 | "display_name": "northen_adriatic_sea", | 159 | "display_name": "northen_adriatic_sea", | ||
160 | "id": "e3ac9448-3e06-4335-b761-8beca5f866bd", | 160 | "id": "e3ac9448-3e06-4335-b761-8beca5f866bd", | ||
161 | "name": "northen_adriatic_sea", | 161 | "name": "northen_adriatic_sea", | ||
162 | "state": "active", | 162 | "state": "active", | ||
163 | "vocabulary_id": null | 163 | "vocabulary_id": null | ||
164 | }, | 164 | }, | ||
165 | { | 165 | { | ||
166 | "display_name": "scientific_research", | 166 | "display_name": "scientific_research", | ||
167 | "id": "b715b6a7-db7e-4d0d-974b-6e24f18836de", | 167 | "id": "b715b6a7-db7e-4d0d-974b-6e24f18836de", | ||
168 | "name": "scientific_research", | 168 | "name": "scientific_research", | ||
169 | "state": "active", | 169 | "state": "active", | ||
170 | "vocabulary_id": null | 170 | "vocabulary_id": null | ||
171 | } | 171 | } | ||
172 | ], | 172 | ], | ||
173 | "temporal_extent": "1980-03-04", | 173 | "temporal_extent": "1980-03-04", | ||
174 | "temporal_extent_end": "2020-10-29", | 174 | "temporal_extent_end": "2020-10-29", | ||
175 | "title": "NAS Silicate Climatology", | 175 | "title": "NAS Silicate Climatology", | ||
176 | "type": "msp-data", | 176 | "type": "msp-data", | ||
177 | "url": null, | 177 | "url": null, | ||
178 | "validation_level": "research", | 178 | "validation_level": "research", | ||
179 | "version": null, | 179 | "version": null, | ||
180 | "web_services": [ | 180 | "web_services": [ | ||
181 | "OGC_WMS" | 181 | "OGC_WMS" | ||
182 | ], | 182 | ], | ||
183 | "web_services_other": "" | 183 | "web_services_other": "" | ||
184 | } | 184 | } |