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  "Creator": "E.L. Ogden, S.G. Cumming, S.L. Smith, M.R. Turetsky, 
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  "Creator": "E.L. Ogden, S.G. Cumming, S.L. Smith, M.R. Turetsky, 
            
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J.L. Baltzer",
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J.L. Baltzer",
            
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  "geographic_range": [
            
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    "NWT"
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    "NWT"
            
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      "name": "permafrost",
            
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      "title": "Research"
            
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      "description": "",
            
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      "name": "vegetation-soils",
            
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      "title": "Vegetation/Soils"
            
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  "license_title": "License Not Specified",
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  "license_title": "License Not Specified",
            
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  "local_relevance": "Research was conducted in the NWT which 
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  "local_relevance": "Research was conducted in the NWT which 
            
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determined that permafrost thaw induces a short-term increase in 
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determined that permafrost thaw induces a short-term increase in 
            
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vegetation productivity.",
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vegetation productivity.",
            
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  "metadata_modified": "2023-11-28T17:28:39.118988",
            
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  "metatags": "Permafrost,Vegetation,Remote Sensing,Research",
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  "metatags": "Permafrost,Vegetation,Remote Sensing,Research",
            
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  "modified_date": "2023-06-18",
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  "modified_date": "2023-06-18",
            
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  "name": 
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  "name": 
            
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hort-term-increase-in-vegetation-productivity-in-northwestern-canada",
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hort-term-increase-in-vegetation-productivity-in-northwestern-canada",
            
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  "notes": "Active layer thickness data paired with Landsat data were 
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  "notes": "Active layer thickness data paired with Landsat data were 
            
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used to quantify the impacts of changing permafrost conditions on 
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used to quantify the impacts of changing permafrost conditions on 
            
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vegetation productivity in the NWT.",
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vegetation productivity in the NWT.",
            
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  "release_date": "2023-06-18",
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  "release_date": "2023-06-18",
            
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      "mimetype": null,
            
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      "name": "Permafrost thaw induces short-term increase in 
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      "name": "Permafrost thaw induces short-term increase in 
            
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vegetation productivity in northwestern Canada",
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vegetation productivity in northwestern Canada",
            
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      "state": "active",
            
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      "url": 
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      "url": "https://onlinelibrary.wiley.com/doi/10.1111/gcb.16812",
            
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-permafrost-thaw-induces-shortterm-increase-in-vegetation-produc.pdf",

            
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    }
            
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  ],
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  ],
            
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  "state": "active",
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  "state": "active",
            
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  "summary": "Active layer thickness data from 135 permafrost 
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  "summary": "Active layer thickness data from 135 permafrost 
            
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monitoring sites along a 10\u00b0 latitudinal transect of the 
105
monitoring sites along a 10\u00b0 latitudinal transect of the 
            
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Northwest Territories, Canada, paired with a Landsat time series of 
106
Northwest Territories, Canada, paired with a Landsat time series of 
            
81
normalized difference vegetation index from 1984 to 2019, were used to 
107
normalized difference vegetation index from 1984 to 2019, were used to 
            
82
quantify the impacts of changing permafrost conditions on vegetation 
108
quantify the impacts of changing permafrost conditions on vegetation 
            
83
productivity. We found that active layer thickness contributed to the 
109
productivity. We found that active layer thickness contributed to the 
            
84
observed variation in vegetation productivity in recent decades in the 
110
observed variation in vegetation productivity in recent decades in the 
            
85
northwestern Arctic\u2013Boreal, with the highest rates of greening 
111
northwestern Arctic\u2013Boreal, with the highest rates of greening 
            
86
occurring at sites where the near-surface permafrost recently had 
112
occurring at sites where the near-surface permafrost recently had 
            
87
thawed. However, the greening associated with permafrost thaw was not 
113
thawed. However, the greening associated with permafrost thaw was not 
            
88
sustained after prolonged periods of thaw and appeared to diminish 
114
sustained after prolonged periods of thaw and appeared to diminish 
            
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after the thaw front extended outside the plants' rooting zone.",
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after the thaw front extended outside the plants' rooting zone.",
            
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  "tags": [
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  "tags": [
            
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    {
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      "display_name": "Permafrost",
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      "display_name": "Permafrost",
            
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      "id": "ae8cf607-cab9-443a-9c5e-0a7a51698419",
            
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      "name": "Permafrost",
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      "name": "Permafrost",
            
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      "state": "active",
            
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    {
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      "display_name": "Remote Sensing",
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      "display_name": "Remote Sensing",
            
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      "display_name": "Research",
            
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      "id": "9ce08dce-f710-4692-8be5-23a0beedaf90",
            
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      "name": "Research",
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      "name": "Research",
            
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      "display_name": "Vegetation",
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      "display_name": "Vegetation",
            
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      "id": "a6ef54db-e91d-42d5-bf04-be1d31381b5b",
            
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      "name": "Vegetation",
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      "name": "Vegetation",
            
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  ],
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  ],
            
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  "title": "Permafrost thaw induces short-term increase in vegetation 
146
  "title": "Permafrost thaw induces short-term increase in vegetation 
            
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productivity in northwestern Canada",
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productivity in northwestern Canada",
            
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  "type": "dataset",
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  "type": "dataset",
            
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  "version": null
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  "version": null
            
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}
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}