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On August 7, 2025 at 7:06:07 AM UTC,
Caterina Gilli:
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Uploaded a new file to resource Extreme Heat Assessment 2020–2024 (methodology).pdf in Thermal and Ecological spatiotemporal trends to assess extreme heat hazard in Euskadi
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| 2 | "author": "Sudeshna Kumar", | 2 | "author": "Sudeshna Kumar", | ||
| 3 | "author_email": "sudeshna.kumar@bc3research.org", | 3 | "author_email": "sudeshna.kumar@bc3research.org", | ||
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| 10 | "license_title": "Creative Commons Attribution", | 10 | "license_title": "Creative Commons Attribution", | ||
| 11 | "license_url": "http://www.opendefinition.org/licenses/cc-by", | 11 | "license_url": "http://www.opendefinition.org/licenses/cc-by", | ||
| 12 | "maintainer": "Caterina Gilli", | 12 | "maintainer": "Caterina Gilli", | ||
| 13 | "maintainer_email": "caterina.gilli@bc3research.org", | 13 | "maintainer_email": "caterina.gilli@bc3research.org", | ||
| 14 | "metadata_created": "2025-06-13T13:22:48.092950", | 14 | "metadata_created": "2025-06-13T13:22:48.092950", | ||
| n | 15 | "metadata_modified": "2025-08-05T15:57:24.554425", | n | 15 | "metadata_modified": "2025-08-07T07:06:07.813870", |
| 16 | "name": | 16 | "name": | ||
| 17 | gical-spatiotemporal-trends-to-assess-extreme-heat-hazard-in-euskadi", | 17 | gical-spatiotemporal-trends-to-assess-extreme-heat-hazard-in-euskadi", | ||
| 18 | "notes": "Land surface temperature (LST) is obtained from Landsat | 18 | "notes": "Land surface temperature (LST) is obtained from Landsat | ||
| 19 | images using the widely used radiative transfer equation. The thermal | 19 | images using the widely used radiative transfer equation. The thermal | ||
| 20 | and ecological conditions are evaluated by computing urban heat island | 20 | and ecological conditions are evaluated by computing urban heat island | ||
| 21 | (UHI) and urban thermal field variance index (UTFVI) from LST data. | 21 | (UHI) and urban thermal field variance index (UTFVI) from LST data. | ||
| 22 | The influence of vegetation, built area, presence of waterbody, and | 22 | The influence of vegetation, built area, presence of waterbody, and | ||
| 23 | bare soil on LST is examined using land cover indices through | 23 | bare soil on LST is examined using land cover indices through | ||
| 24 | pixel-level multivariate linear regression analysis. (Ahmmed et | 24 | pixel-level multivariate linear regression analysis. (Ahmmed et | ||
| 25 | al.,2021). Landsurface temperature (LST) is frequently used as an | 25 | al.,2021). Landsurface temperature (LST) is frequently used as an | ||
| 26 | indicator for UHI and shows a positive correlation with the density of | 26 | indicator for UHI and shows a positive correlation with the density of | ||
| 27 | sealed surfaces while displaying a negative association with UGS | 27 | sealed surfaces while displaying a negative association with UGS | ||
| 28 | (Aznarez et al., 2024; Rodr\u00edguez-G\u00f3mez et al., 2022). LST is | 28 | (Aznarez et al., 2024; Rodr\u00edguez-G\u00f3mez et al., 2022). LST is | ||
| 29 | used to quantify the extent and size of surface heat. LST is an | 29 | used to quantify the extent and size of surface heat. LST is an | ||
| 30 | integral variable in quantifying thermal hazard levels across | 30 | integral variable in quantifying thermal hazard levels across | ||
| 31 | cityscapes. Local topography, human activity, and specific urban heat | 31 | cityscapes. Local topography, human activity, and specific urban heat | ||
| 32 | island effects influence cities' dynamics and green spaces. | 32 | island effects influence cities' dynamics and green spaces. | ||
| 33 | \r\n\r\nThe methodology used for the creation of the datasets can be | 33 | \r\n\r\nThe methodology used for the creation of the datasets can be | ||
| 34 | found in the \"Extreme Heat Assessment 2020\u20132024 (methodology)\" | 34 | found in the \"Extreme Heat Assessment 2020\u20132024 (methodology)\" | ||
| 35 | document below.", | 35 | document below.", | ||
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| 38 | "organization": { | 38 | "organization": { | ||
| 39 | "approval_status": "approved", | 39 | "approval_status": "approved", | ||
| 40 | "created": "2023-02-03T16:35:39.850142", | 40 | "created": "2023-02-03T16:35:39.850142", | ||
| 41 | "description": "ARtificial Intelligence for Environment & | 41 | "description": "ARtificial Intelligence for Environment & | ||
| 42 | Sustainability (ARIES) is an international collaboration that has | 42 | Sustainability (ARIES) is an international collaboration that has | ||
| 43 | built, for the first time, a shared knowledge space to help address | 43 | built, for the first time, a shared knowledge space to help address | ||
| 44 | the most complex sustainability issues of our time, using the semantic | 44 | the most complex sustainability issues of our time, using the semantic | ||
| 45 | web paradigm. ", | 45 | web paradigm. ", | ||
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| 72 | "name": "Extreme Heat Assessment 2020\u20132024 | 72 | "name": "Extreme Heat Assessment 2020\u20132024 | ||
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| 119 | "name": "Euskadi normalized difference vegetation index | 119 | "name": "Euskadi normalized difference vegetation index | ||
| 120 | 2020-2024", | 120 | 2020-2024", | ||
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| 166 | "name": "Euskadi urban thermal field variance index 2020-2024", | 166 | "name": "Euskadi urban thermal field variance index 2020-2024", | ||
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| 175 | } | 175 | } | ||
| 176 | ], | 176 | ], | ||
| 177 | "state": "active", | 177 | "state": "active", | ||
| 178 | "tags": [], | 178 | "tags": [], | ||
| 179 | "title": "Thermal and Ecological spatiotemporal trends to assess | 179 | "title": "Thermal and Ecological spatiotemporal trends to assess | ||
| 180 | extreme heat hazard in Euskadi", | 180 | extreme heat hazard in Euskadi", | ||
| 181 | "type": "dataset", | 181 | "type": "dataset", | ||
| 182 | "url": "", | 182 | "url": "", | ||
| 183 | "version": "" | 183 | "version": "" | ||
| 184 | } | 184 | } |