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On November 27, 2023 at 3:58:13 PM MST,
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f | 1 | { | f | 1 | { |
2 | "Creator": "E.L. Ogden, S.G. Cumming, S.L. Smith, M.R. Turetsky, | 2 | "Creator": "E.L. Ogden, S.G. Cumming, S.L. Smith, M.R. Turetsky, | ||
3 | J.L. Baltzer", | 3 | J.L. Baltzer", | ||
4 | "author": null, | 4 | "author": null, | ||
5 | "author_email": null, | 5 | "author_email": null, | ||
6 | "creator_user_id": "3d05e0de-1423-4655-b300-645717582c74", | 6 | "creator_user_id": "3d05e0de-1423-4655-b300-645717582c74", | ||
7 | "description": "", | 7 | "description": "", | ||
8 | "funding_program": "", | 8 | "funding_program": "", | ||
9 | "geographic_range": [ | 9 | "geographic_range": [ | ||
10 | "NWT" | 10 | "NWT" | ||
11 | ], | 11 | ], | ||
12 | "groups": [], | 12 | "groups": [], | ||
13 | "id": "649ff5e8-7560-44ea-b2c5-67380a75f266", | 13 | "id": "649ff5e8-7560-44ea-b2c5-67380a75f266", | ||
14 | "isopen": false, | 14 | "isopen": false, | ||
15 | "license_id": "notspecified", | 15 | "license_id": "notspecified", | ||
16 | "license_title": "License Not Specified", | 16 | "license_title": "License Not Specified", | ||
17 | "local_relevance": "Research was conducted in the NWT which | 17 | "local_relevance": "Research was conducted in the NWT which | ||
18 | determined that permafrost thaw induces a short-term increase in | 18 | determined that permafrost thaw induces a short-term increase in | ||
19 | vegetation productivity.", | 19 | vegetation productivity.", | ||
20 | "maintainer": null, | 20 | "maintainer": null, | ||
21 | "maintainer_email": null, | 21 | "maintainer_email": null, | ||
22 | "metadata_created": "2023-11-27T22:56:35.075982", | 22 | "metadata_created": "2023-11-27T22:56:35.075982", | ||
n | 23 | "metadata_modified": "2023-11-27T22:58:12.983234", | n | 23 | "metadata_modified": "2023-11-27T22:58:13.171543", |
24 | "metatags": "Permafrost,Vegetation,Remote Sensing,Research", | 24 | "metatags": "Permafrost,Vegetation,Remote Sensing,Research", | ||
25 | "modified_date": "2023-06-18", | 25 | "modified_date": "2023-06-18", | ||
26 | "name": | 26 | "name": | ||
27 | hort-term-increase-in-vegetation-productivity-in-northwestern-canada", | 27 | hort-term-increase-in-vegetation-productivity-in-northwestern-canada", | ||
28 | "notes": "Active layer thickness data paired with Landsat data were | 28 | "notes": "Active layer thickness data paired with Landsat data were | ||
29 | used to quantify the impacts of changing permafrost conditions on | 29 | used to quantify the impacts of changing permafrost conditions on | ||
30 | vegetation productivity in the NWT.", | 30 | vegetation productivity in the NWT.", | ||
31 | "num_resources": 1, | 31 | "num_resources": 1, | ||
32 | "num_tags": 4, | 32 | "num_tags": 4, | ||
33 | "organization": { | 33 | "organization": { | ||
34 | "approval_status": "approved", | 34 | "approval_status": "approved", | ||
35 | "created": "2023-11-27T15:29:16.450990", | 35 | "created": "2023-11-27T15:29:16.450990", | ||
36 | "description": "", | 36 | "description": "", | ||
37 | "id": "76bec39b-e0d4-4f47-8eb8-0a7e4a6698f3", | 37 | "id": "76bec39b-e0d4-4f47-8eb8-0a7e4a6698f3", | ||
38 | "image_url": "", | 38 | "image_url": "", | ||
39 | "is_organization": true, | 39 | "is_organization": true, | ||
40 | "name": "academic-journal", | 40 | "name": "academic-journal", | ||
41 | "state": "active", | 41 | "state": "active", | ||
42 | "title": "Academic Journal", | 42 | "title": "Academic Journal", | ||
43 | "type": "organization" | 43 | "type": "organization" | ||
44 | }, | 44 | }, | ||
45 | "owner_org": "76bec39b-e0d4-4f47-8eb8-0a7e4a6698f3", | 45 | "owner_org": "76bec39b-e0d4-4f47-8eb8-0a7e4a6698f3", | ||
46 | "private": false, | 46 | "private": false, | ||
47 | "relationships_as_object": [], | 47 | "relationships_as_object": [], | ||
48 | "relationships_as_subject": [], | 48 | "relationships_as_subject": [], | ||
49 | "release_date": "2023-06-18", | 49 | "release_date": "2023-06-18", | ||
50 | "resources": [ | 50 | "resources": [ | ||
51 | { | 51 | { | ||
52 | "cache_last_updated": null, | 52 | "cache_last_updated": null, | ||
53 | "cache_url": null, | 53 | "cache_url": null, | ||
54 | "created": "2023-11-27T22:58:13.000925", | 54 | "created": "2023-11-27T22:58:13.000925", | ||
55 | "datastore_active": false, | 55 | "datastore_active": false, | ||
56 | "datastore_contains_all_records_of_source_file": false, | 56 | "datastore_contains_all_records_of_source_file": false, | ||
57 | "description": null, | 57 | "description": null, | ||
58 | "format": "PDF", | 58 | "format": "PDF", | ||
59 | "hash": "", | 59 | "hash": "", | ||
60 | "id": "23055182-03c2-439b-b147-b596de513ddc", | 60 | "id": "23055182-03c2-439b-b147-b596de513ddc", | ||
61 | "last_modified": "2023-11-27T22:58:12.975608", | 61 | "last_modified": "2023-11-27T22:58:12.975608", | ||
n | 62 | "metadata_modified": "2023-11-27T22:58:12.989688", | n | 62 | "metadata_modified": "2023-11-27T22:58:13.177935", |
63 | "mimetype": "application/pdf", | 63 | "mimetype": "application/pdf", | ||
64 | "mimetype_inner": null, | 64 | "mimetype_inner": null, | ||
65 | "name": "Permafrost thaw induces short-term increase in | 65 | "name": "Permafrost thaw induces short-term increase in | ||
66 | vegetation productivity in northwestern Canada", | 66 | vegetation productivity in northwestern Canada", | ||
67 | "package_id": "649ff5e8-7560-44ea-b2c5-67380a75f266", | 67 | "package_id": "649ff5e8-7560-44ea-b2c5-67380a75f266", | ||
68 | "position": 0, | 68 | "position": 0, | ||
69 | "resource_type": null, | 69 | "resource_type": null, | ||
70 | "size": 8460052, | 70 | "size": 8460052, | ||
71 | "state": "active", | 71 | "state": "active", | ||
72 | "url": | 72 | "url": | ||
73 | -permafrost-thaw-induces-shortterm-increase-in-vegetation-produc.pdf", | 73 | -permafrost-thaw-induces-shortterm-increase-in-vegetation-produc.pdf", | ||
74 | "url_type": "upload" | 74 | "url_type": "upload" | ||
75 | } | 75 | } | ||
76 | ], | 76 | ], | ||
t | 77 | "state": "draft", | t | 77 | "state": "active", |
78 | "summary": "Active layer thickness data from 135 permafrost | 78 | "summary": "Active layer thickness data from 135 permafrost | ||
79 | monitoring sites along a 10\u00b0 latitudinal transect of the | 79 | monitoring sites along a 10\u00b0 latitudinal transect of the | ||
80 | Northwest Territories, Canada, paired with a Landsat time series of | 80 | Northwest Territories, Canada, paired with a Landsat time series of | ||
81 | normalized difference vegetation index from 1984 to 2019, were used to | 81 | normalized difference vegetation index from 1984 to 2019, were used to | ||
82 | quantify the impacts of changing permafrost conditions on vegetation | 82 | quantify the impacts of changing permafrost conditions on vegetation | ||
83 | productivity. We found that active layer thickness contributed to the | 83 | productivity. We found that active layer thickness contributed to the | ||
84 | observed variation in vegetation productivity in recent decades in the | 84 | observed variation in vegetation productivity in recent decades in the | ||
85 | northwestern Arctic\u2013Boreal, with the highest rates of greening | 85 | northwestern Arctic\u2013Boreal, with the highest rates of greening | ||
86 | occurring at sites where the near-surface permafrost recently had | 86 | occurring at sites where the near-surface permafrost recently had | ||
87 | thawed. However, the greening associated with permafrost thaw was not | 87 | thawed. However, the greening associated with permafrost thaw was not | ||
88 | sustained after prolonged periods of thaw and appeared to diminish | 88 | sustained after prolonged periods of thaw and appeared to diminish | ||
89 | after the thaw front extended outside the plants' rooting zone.", | 89 | after the thaw front extended outside the plants' rooting zone.", | ||
90 | "tags": [ | 90 | "tags": [ | ||
91 | { | 91 | { | ||
92 | "display_name": "Permafrost", | 92 | "display_name": "Permafrost", | ||
93 | "id": "ae8cf607-cab9-443a-9c5e-0a7a51698419", | 93 | "id": "ae8cf607-cab9-443a-9c5e-0a7a51698419", | ||
94 | "name": "Permafrost", | 94 | "name": "Permafrost", | ||
95 | "state": "active", | 95 | "state": "active", | ||
96 | "vocabulary_id": null | 96 | "vocabulary_id": null | ||
97 | }, | 97 | }, | ||
98 | { | 98 | { | ||
99 | "display_name": "Remote Sensing", | 99 | "display_name": "Remote Sensing", | ||
100 | "id": "dc4f64a0-95da-45ab-bf8a-197c40a71a8d", | 100 | "id": "dc4f64a0-95da-45ab-bf8a-197c40a71a8d", | ||
101 | "name": "Remote Sensing", | 101 | "name": "Remote Sensing", | ||
102 | "state": "active", | 102 | "state": "active", | ||
103 | "vocabulary_id": null | 103 | "vocabulary_id": null | ||
104 | }, | 104 | }, | ||
105 | { | 105 | { | ||
106 | "display_name": "Research", | 106 | "display_name": "Research", | ||
107 | "id": "9ce08dce-f710-4692-8be5-23a0beedaf90", | 107 | "id": "9ce08dce-f710-4692-8be5-23a0beedaf90", | ||
108 | "name": "Research", | 108 | "name": "Research", | ||
109 | "state": "active", | 109 | "state": "active", | ||
110 | "vocabulary_id": null | 110 | "vocabulary_id": null | ||
111 | }, | 111 | }, | ||
112 | { | 112 | { | ||
113 | "display_name": "Vegetation", | 113 | "display_name": "Vegetation", | ||
114 | "id": "a6ef54db-e91d-42d5-bf04-be1d31381b5b", | 114 | "id": "a6ef54db-e91d-42d5-bf04-be1d31381b5b", | ||
115 | "name": "Vegetation", | 115 | "name": "Vegetation", | ||
116 | "state": "active", | 116 | "state": "active", | ||
117 | "vocabulary_id": null | 117 | "vocabulary_id": null | ||
118 | } | 118 | } | ||
119 | ], | 119 | ], | ||
120 | "title": "Permafrost thaw induces short-term increase in vegetation | 120 | "title": "Permafrost thaw induces short-term increase in vegetation | ||
121 | productivity in northwestern Canada", | 121 | productivity in northwestern Canada", | ||
122 | "type": "dataset", | 122 | "type": "dataset", | ||
123 | "url": null, | 123 | "url": null, | ||
124 | "version": null | 124 | "version": null | ||
125 | } | 125 | } |