diff --git a/storage/stories/stories-de.json b/storage/stories/stories-de.json index ebd2de061..22a4cfece 100644 --- a/storage/stories/stories-de.json +++ b/storage/stories/stories-de.json @@ -176,5 +176,34 @@ "description": "", "image": "assets/story37-image07.jpg", "tags": ["land-cover", "fire", "soil-moisture", "ghg"] + }, + { + "id": "story-38", + "title": "Kohlenstoffdioxid zählen", + "description": "", + "image": "assets/story37-image07.jpg", + "tags": [] + }, + { + "id": "story-39", + "title": "Die Meere und das Klima", + "description": "", + "image": "assets/story37-image07.jpg", + "tags": [] + }, + { + "id": "story-40", + "title": "Veränderungen in der Arktis", + "description": "", + "image": "assets/story37-image07.jpg", + "tags": [] + }, + { + "id": "story-41", + "title": "Veränderungen der Atmosphäre", + "description": "", + "image": "assets/story37-image07.jpg", + "tags": [] } + ] diff --git a/storage/stories/stories-en.json b/storage/stories/stories-en.json index b3abf7da3..40d653684 100644 --- a/storage/stories/stories-en.json +++ b/storage/stories/stories-en.json @@ -178,5 +178,33 @@ "description": "", "image": "assets/story37-image07.jpg", "tags": ["land-cover", "fire", "soil-moisture", "ghg"] + }, + { + "id": "story-38", + "title": "Counting Carbon", + "description": "", + "image": "assets/story37-image07.jpg", + "tags": [] + }, + { + "id": "story-39", + "title": "Oceans and Climate", + "description": "", + "image": "assets/story37-image07.jpg", + "tags": [] + }, + { + "id": "story-40", + "title": "Change in the Arctic", + "description": "", + "image": "assets/story37-image07.jpg", + "tags": [] + }, + { + "id": "story-41", + "title": "Change in the Atmosphere", + "description": "", + "image": "assets/story37-image07.jpg", + "tags": [] } ] diff --git a/storage/stories/stories-es.json b/storage/stories/stories-es.json index 25e4a564a..d854e4c61 100644 --- a/storage/stories/stories-es.json +++ b/storage/stories/stories-es.json @@ -178,5 +178,33 @@ "description": "", "image": "assets/story37-image07.jpg", "tags": ["land-cover", "fire", "soil-moisture", "ghg"] + }, + { + "id": "story-38", + "title": "Contar el carbono", + "description": "", + "image": "assets/story37-image07.jpg", + "tags": [] + }, + { + "id": "story-39", + "title": "Los océanos y el clima", + "description": "", + "image": "assets/story37-image07.jpg", + "tags": [] + }, + { + "id": "story-40", + "title": "Cambio en el Ártico", + "description": "", + "image": "assets/story37-image07.jpg", + "tags": [] + }, + { + "id": "story-41", + "title": "Cambio en la atmósfera", + "description": "", + "image": "assets/story37-image07.jpg", + "tags": [] } ] diff --git a/storage/stories/stories-fr.json b/storage/stories/stories-fr.json index 1487deb8b..1228cd79b 100644 --- a/storage/stories/stories-fr.json +++ b/storage/stories/stories-fr.json @@ -172,5 +172,33 @@ "description": "", "image": "assets/story37-image07.jpg", "tags": ["land-cover", "fire", "soil-moisture", "ghg"] + }, + { + "id": "story-38", + "title": "Compter le carbone", + "description": "", + "image": "assets/story37-image07.jpg", + "tags": [] + }, + { + "id": "story-39", + "title": "Océans et climat", + "description": "", + "image": "assets/story37-image07.jpg", + "tags": [] + }, + { + "id": "story-40", + "title": "Changement en Arctique", + "description": "", + "image": "assets/story37-image07.jpg", + "tags": [] + }, + { + "id": "story-41", + "title": "Changement dans l'atmosphère", + "description": "", + "image": "assets/story37-image07.jpg", + "tags": [] } ] diff --git a/storage/stories/stories-nl.json b/storage/stories/stories-nl.json index 4d7a2c60d..22b5469c9 100644 --- a/storage/stories/stories-nl.json +++ b/storage/stories/stories-nl.json @@ -172,5 +172,33 @@ "description": "", "image": "assets/story37-image07.jpg", "tags": ["land-cover", "fire", "soil-moisture", "ghg"] + }, + { + "id": "story-38", + "title": "Het tellen van koolstof", + "description": "", + "image": "assets/story37-image07.jpg", + "tags": [] + }, + { + "id": "story-39", + "title": "Oceanen en klimaat", + "description": "", + "image": "assets/story37-image07.jpg", + "tags": [] + }, + { + "id": "story-40", + "title": "Verandering in het Arctische gebied", + "description": "", + "image": "assets/story37-image07.jpg", + "tags": [] + }, + { + "id": "story-41", + "title": "Veranderingen in de atmosfeer", + "description": "", + "image": "assets/story37-image07.jpg", + "tags": [] } ] diff --git a/storage/stories/story-38/assets/Sentinel-2.jpg b/storage/stories/story-38/assets/Sentinel-2.jpg new file mode 100644 index 000000000..de83bd8d2 Binary files /dev/null and b/storage/stories/story-38/assets/Sentinel-2.jpg differ diff --git a/storage/stories/story-38/assets/story37-image01.jpg b/storage/stories/story-38/assets/story37-image01.jpg new file mode 100644 index 000000000..8adc35000 Binary files /dev/null and b/storage/stories/story-38/assets/story37-image01.jpg differ diff --git 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b/storage/stories/story-38/assets/story37-image06.jpg differ diff --git a/storage/stories/story-38/assets/story37-image07.jpg b/storage/stories/story-38/assets/story37-image07.jpg new file mode 100644 index 000000000..49010b8ce Binary files /dev/null and b/storage/stories/story-38/assets/story37-image07.jpg differ diff --git a/storage/stories/story-38/story-38-de.json b/storage/stories/story-38/story-38-de.json new file mode 100644 index 000000000..77147da96 --- /dev/null +++ b/storage/stories/story-38/story-38-de.json @@ -0,0 +1,39 @@ +{ + "id": "story-38", + "slides": [ + { + "type": "splashscreen", + "text": "# Satellites for Peat's Sake \r\n\r\nFlow Country, Scotland", + "shortText": "# Satellites for Peat's Sake\r\n\r\nFlow Country, Scotland", + "images": [ + "assets/story37-image07.jpg" + ] + }, + { + "type": "image", + "text": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "shortText": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "images": [ + "assets/story37-image01.jpg", + "assets/story37-image02.jpg", + "assets/story37-image04.jpg", + "assets/story37-image05.jpg", + "assets/story37-image06.jpg" + ], + "imageCaptions": [ + "Satellites for peat's sake. This mosaic, acquired on 28 May 2018, offers a rare cloud-free view over the vast expanses of Scotland's Flow Country.", + "Satellites for peat's sake. This high-resolution land cover map derived from Copernicus Sentinel-2 data shows the extent of peatland in purple.", + "Satellites for peat's sake. A massive fire burned 5,700 hectares of peatland in 2019. This image was taken on 16 May.", + "Satellites for peat's sake. False colour image including the near-infrared channel hihglights healthy vegetation in red and shows the burn scar in dark brown.", + "Satellites for peat's sake. False colour image including the shortwave infrared channels highlights the active fire front in bright red." + ], + "imageFits": [ + "contain", + "contain", + "cover", + "cover", + "cover" + ] + } + ] +} \ No newline at end of file diff --git a/storage/stories/story-38/story-38-en.json b/storage/stories/story-38/story-38-en.json new file mode 100644 index 000000000..77147da96 --- /dev/null +++ b/storage/stories/story-38/story-38-en.json @@ -0,0 +1,39 @@ +{ + "id": "story-38", + "slides": [ + { + "type": "splashscreen", + "text": "# Satellites for Peat's Sake \r\n\r\nFlow Country, Scotland", + "shortText": "# Satellites for Peat's Sake\r\n\r\nFlow Country, Scotland", + "images": [ + "assets/story37-image07.jpg" + ] + }, + { + "type": "image", + "text": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "shortText": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "images": [ + "assets/story37-image01.jpg", + "assets/story37-image02.jpg", + "assets/story37-image04.jpg", + "assets/story37-image05.jpg", + "assets/story37-image06.jpg" + ], + "imageCaptions": [ + "Satellites for peat's sake. This mosaic, acquired on 28 May 2018, offers a rare cloud-free view over the vast expanses of Scotland's Flow Country.", + "Satellites for peat's sake. This high-resolution land cover map derived from Copernicus Sentinel-2 data shows the extent of peatland in purple.", + "Satellites for peat's sake. A massive fire burned 5,700 hectares of peatland in 2019. This image was taken on 16 May.", + "Satellites for peat's sake. False colour image including the near-infrared channel hihglights healthy vegetation in red and shows the burn scar in dark brown.", + "Satellites for peat's sake. False colour image including the shortwave infrared channels highlights the active fire front in bright red." + ], + "imageFits": [ + "contain", + "contain", + "cover", + "cover", + "cover" + ] + } + ] +} \ No newline at end of file diff --git a/storage/stories/story-38/story-38-es.json b/storage/stories/story-38/story-38-es.json new file mode 100644 index 000000000..77147da96 --- /dev/null +++ b/storage/stories/story-38/story-38-es.json @@ -0,0 +1,39 @@ +{ + "id": "story-38", + "slides": [ + { + "type": "splashscreen", + "text": "# Satellites for Peat's Sake \r\n\r\nFlow Country, Scotland", + "shortText": "# Satellites for Peat's Sake\r\n\r\nFlow Country, Scotland", + "images": [ + "assets/story37-image07.jpg" + ] + }, + { + "type": "image", + "text": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "shortText": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "images": [ + "assets/story37-image01.jpg", + "assets/story37-image02.jpg", + "assets/story37-image04.jpg", + "assets/story37-image05.jpg", + "assets/story37-image06.jpg" + ], + "imageCaptions": [ + "Satellites for peat's sake. This mosaic, acquired on 28 May 2018, offers a rare cloud-free view over the vast expanses of Scotland's Flow Country.", + "Satellites for peat's sake. This high-resolution land cover map derived from Copernicus Sentinel-2 data shows the extent of peatland in purple.", + "Satellites for peat's sake. A massive fire burned 5,700 hectares of peatland in 2019. This image was taken on 16 May.", + "Satellites for peat's sake. False colour image including the near-infrared channel hihglights healthy vegetation in red and shows the burn scar in dark brown.", + "Satellites for peat's sake. False colour image including the shortwave infrared channels highlights the active fire front in bright red." + ], + "imageFits": [ + "contain", + "contain", + "cover", + "cover", + "cover" + ] + } + ] +} \ No newline at end of file diff --git a/storage/stories/story-38/story-38-fr.json b/storage/stories/story-38/story-38-fr.json new file mode 100644 index 000000000..77147da96 --- /dev/null +++ b/storage/stories/story-38/story-38-fr.json @@ -0,0 +1,39 @@ +{ + "id": "story-38", + "slides": [ + { + "type": "splashscreen", + "text": "# Satellites for Peat's Sake \r\n\r\nFlow Country, Scotland", + "shortText": "# Satellites for Peat's Sake\r\n\r\nFlow Country, Scotland", + "images": [ + "assets/story37-image07.jpg" + ] + }, + { + "type": "image", + "text": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "shortText": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "images": [ + "assets/story37-image01.jpg", + "assets/story37-image02.jpg", + "assets/story37-image04.jpg", + "assets/story37-image05.jpg", + "assets/story37-image06.jpg" + ], + "imageCaptions": [ + "Satellites for peat's sake. This mosaic, acquired on 28 May 2018, offers a rare cloud-free view over the vast expanses of Scotland's Flow Country.", + "Satellites for peat's sake. This high-resolution land cover map derived from Copernicus Sentinel-2 data shows the extent of peatland in purple.", + "Satellites for peat's sake. A massive fire burned 5,700 hectares of peatland in 2019. This image was taken on 16 May.", + "Satellites for peat's sake. False colour image including the near-infrared channel hihglights healthy vegetation in red and shows the burn scar in dark brown.", + "Satellites for peat's sake. False colour image including the shortwave infrared channels highlights the active fire front in bright red." + ], + "imageFits": [ + "contain", + "contain", + "cover", + "cover", + "cover" + ] + } + ] +} \ No newline at end of file diff --git a/storage/stories/story-38/story-38-nl.json b/storage/stories/story-38/story-38-nl.json new file mode 100644 index 000000000..77147da96 --- /dev/null +++ b/storage/stories/story-38/story-38-nl.json @@ -0,0 +1,39 @@ +{ + "id": "story-38", + "slides": [ + { + "type": "splashscreen", + "text": "# Satellites for Peat's Sake \r\n\r\nFlow Country, Scotland", + "shortText": "# Satellites for Peat's Sake\r\n\r\nFlow Country, Scotland", + "images": [ + "assets/story37-image07.jpg" + ] + }, + { + "type": "image", + "text": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "shortText": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "images": [ + "assets/story37-image01.jpg", + "assets/story37-image02.jpg", + "assets/story37-image04.jpg", + "assets/story37-image05.jpg", + "assets/story37-image06.jpg" + ], + "imageCaptions": [ + "Satellites for peat's sake. This mosaic, acquired on 28 May 2018, offers a rare cloud-free view over the vast expanses of Scotland's Flow Country.", + "Satellites for peat's sake. This high-resolution land cover map derived from Copernicus Sentinel-2 data shows the extent of peatland in purple.", + "Satellites for peat's sake. A massive fire burned 5,700 hectares of peatland in 2019. This image was taken on 16 May.", + "Satellites for peat's sake. False colour image including the near-infrared channel hihglights healthy vegetation in red and shows the burn scar in dark brown.", + "Satellites for peat's sake. False colour image including the shortwave infrared channels highlights the active fire front in bright red." + ], + "imageFits": [ + "contain", + "contain", + "cover", + "cover", + "cover" + ] + } + ] +} \ No newline at end of file diff --git a/storage/stories/story-39/assets/Sentinel-2.jpg b/storage/stories/story-39/assets/Sentinel-2.jpg new file mode 100644 index 000000000..de83bd8d2 Binary files /dev/null and b/storage/stories/story-39/assets/Sentinel-2.jpg differ diff --git a/storage/stories/story-39/assets/story37-image01.jpg b/storage/stories/story-39/assets/story37-image01.jpg new file mode 100644 index 000000000..8adc35000 Binary files /dev/null and b/storage/stories/story-39/assets/story37-image01.jpg differ diff --git a/storage/stories/story-39/assets/story37-image02.jpg b/storage/stories/story-39/assets/story37-image02.jpg new file mode 100644 index 000000000..3897895f0 Binary files /dev/null and b/storage/stories/story-39/assets/story37-image02.jpg differ diff --git a/storage/stories/story-39/assets/story37-image04.jpg b/storage/stories/story-39/assets/story37-image04.jpg new file mode 100644 index 000000000..23ab96e70 Binary files /dev/null and b/storage/stories/story-39/assets/story37-image04.jpg differ diff --git a/storage/stories/story-39/assets/story37-image05.jpg b/storage/stories/story-39/assets/story37-image05.jpg new file mode 100644 index 000000000..40faa51d6 Binary files /dev/null and b/storage/stories/story-39/assets/story37-image05.jpg differ diff --git a/storage/stories/story-39/assets/story37-image06.jpg b/storage/stories/story-39/assets/story37-image06.jpg new file mode 100644 index 000000000..1794c945c Binary files /dev/null and b/storage/stories/story-39/assets/story37-image06.jpg differ diff --git a/storage/stories/story-39/assets/story37-image07.jpg b/storage/stories/story-39/assets/story37-image07.jpg new file mode 100644 index 000000000..49010b8ce Binary files /dev/null and b/storage/stories/story-39/assets/story37-image07.jpg differ diff --git a/storage/stories/story-39/story-39-de.json b/storage/stories/story-39/story-39-de.json new file mode 100644 index 000000000..59070a0cd --- /dev/null +++ b/storage/stories/story-39/story-39-de.json @@ -0,0 +1,39 @@ +{ + "id": "story-39", + "slides": [ + { + "type": "splashscreen", + "text": "# Satellites for Peat's Sake \r\n\r\nFlow Country, Scotland", + "shortText": "# Satellites for Peat's Sake\r\n\r\nFlow Country, Scotland", + "images": [ + "assets/story37-image07.jpg" + ] + }, + { + "type": "image", + "text": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "shortText": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "images": [ + "assets/story37-image01.jpg", + "assets/story37-image02.jpg", + "assets/story37-image04.jpg", + "assets/story37-image05.jpg", + "assets/story37-image06.jpg" + ], + "imageCaptions": [ + "Satellites for peat's sake. This mosaic, acquired on 28 May 2018, offers a rare cloud-free view over the vast expanses of Scotland's Flow Country.", + "Satellites for peat's sake. This high-resolution land cover map derived from Copernicus Sentinel-2 data shows the extent of peatland in purple.", + "Satellites for peat's sake. A massive fire burned 5,700 hectares of peatland in 2019. This image was taken on 16 May.", + "Satellites for peat's sake. False colour image including the near-infrared channel hihglights healthy vegetation in red and shows the burn scar in dark brown.", + "Satellites for peat's sake. False colour image including the shortwave infrared channels highlights the active fire front in bright red." + ], + "imageFits": [ + "contain", + "contain", + "cover", + "cover", + "cover" + ] + } + ] +} \ No newline at end of file diff --git a/storage/stories/story-39/story-39-en.json b/storage/stories/story-39/story-39-en.json new file mode 100644 index 000000000..59070a0cd --- /dev/null +++ b/storage/stories/story-39/story-39-en.json @@ -0,0 +1,39 @@ +{ + "id": "story-39", + "slides": [ + { + "type": "splashscreen", + "text": "# Satellites for Peat's Sake \r\n\r\nFlow Country, Scotland", + "shortText": "# Satellites for Peat's Sake\r\n\r\nFlow Country, Scotland", + "images": [ + "assets/story37-image07.jpg" + ] + }, + { + "type": "image", + "text": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "shortText": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "images": [ + "assets/story37-image01.jpg", + "assets/story37-image02.jpg", + "assets/story37-image04.jpg", + "assets/story37-image05.jpg", + "assets/story37-image06.jpg" + ], + "imageCaptions": [ + "Satellites for peat's sake. This mosaic, acquired on 28 May 2018, offers a rare cloud-free view over the vast expanses of Scotland's Flow Country.", + "Satellites for peat's sake. This high-resolution land cover map derived from Copernicus Sentinel-2 data shows the extent of peatland in purple.", + "Satellites for peat's sake. A massive fire burned 5,700 hectares of peatland in 2019. This image was taken on 16 May.", + "Satellites for peat's sake. False colour image including the near-infrared channel hihglights healthy vegetation in red and shows the burn scar in dark brown.", + "Satellites for peat's sake. False colour image including the shortwave infrared channels highlights the active fire front in bright red." + ], + "imageFits": [ + "contain", + "contain", + "cover", + "cover", + "cover" + ] + } + ] +} \ No newline at end of file diff --git a/storage/stories/story-39/story-39-es.json b/storage/stories/story-39/story-39-es.json new file mode 100644 index 000000000..59070a0cd --- /dev/null +++ b/storage/stories/story-39/story-39-es.json @@ -0,0 +1,39 @@ +{ + "id": "story-39", + "slides": [ + { + "type": "splashscreen", + "text": "# Satellites for Peat's Sake \r\n\r\nFlow Country, Scotland", + "shortText": "# Satellites for Peat's Sake\r\n\r\nFlow Country, Scotland", + "images": [ + "assets/story37-image07.jpg" + ] + }, + { + "type": "image", + "text": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "shortText": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "images": [ + "assets/story37-image01.jpg", + "assets/story37-image02.jpg", + "assets/story37-image04.jpg", + "assets/story37-image05.jpg", + "assets/story37-image06.jpg" + ], + "imageCaptions": [ + "Satellites for peat's sake. This mosaic, acquired on 28 May 2018, offers a rare cloud-free view over the vast expanses of Scotland's Flow Country.", + "Satellites for peat's sake. This high-resolution land cover map derived from Copernicus Sentinel-2 data shows the extent of peatland in purple.", + "Satellites for peat's sake. A massive fire burned 5,700 hectares of peatland in 2019. This image was taken on 16 May.", + "Satellites for peat's sake. False colour image including the near-infrared channel hihglights healthy vegetation in red and shows the burn scar in dark brown.", + "Satellites for peat's sake. False colour image including the shortwave infrared channels highlights the active fire front in bright red." + ], + "imageFits": [ + "contain", + "contain", + "cover", + "cover", + "cover" + ] + } + ] +} \ No newline at end of file diff --git a/storage/stories/story-39/story-39-fr.json b/storage/stories/story-39/story-39-fr.json new file mode 100644 index 000000000..59070a0cd --- /dev/null +++ b/storage/stories/story-39/story-39-fr.json @@ -0,0 +1,39 @@ +{ + "id": "story-39", + "slides": [ + { + "type": "splashscreen", + "text": "# Satellites for Peat's Sake \r\n\r\nFlow Country, Scotland", + "shortText": "# Satellites for Peat's Sake\r\n\r\nFlow Country, Scotland", + "images": [ + "assets/story37-image07.jpg" + ] + }, + { + "type": "image", + "text": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "shortText": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "images": [ + "assets/story37-image01.jpg", + "assets/story37-image02.jpg", + "assets/story37-image04.jpg", + "assets/story37-image05.jpg", + "assets/story37-image06.jpg" + ], + "imageCaptions": [ + "Satellites for peat's sake. This mosaic, acquired on 28 May 2018, offers a rare cloud-free view over the vast expanses of Scotland's Flow Country.", + "Satellites for peat's sake. This high-resolution land cover map derived from Copernicus Sentinel-2 data shows the extent of peatland in purple.", + "Satellites for peat's sake. A massive fire burned 5,700 hectares of peatland in 2019. This image was taken on 16 May.", + "Satellites for peat's sake. False colour image including the near-infrared channel hihglights healthy vegetation in red and shows the burn scar in dark brown.", + "Satellites for peat's sake. False colour image including the shortwave infrared channels highlights the active fire front in bright red." + ], + "imageFits": [ + "contain", + "contain", + "cover", + "cover", + "cover" + ] + } + ] +} \ No newline at end of file diff --git a/storage/stories/story-39/story-39-nl.json b/storage/stories/story-39/story-39-nl.json new file mode 100644 index 000000000..59070a0cd --- /dev/null +++ b/storage/stories/story-39/story-39-nl.json @@ -0,0 +1,39 @@ +{ + "id": "story-39", + "slides": [ + { + "type": "splashscreen", + "text": "# Satellites for Peat's Sake \r\n\r\nFlow Country, Scotland", + "shortText": "# Satellites for Peat's Sake\r\n\r\nFlow Country, Scotland", + "images": [ + "assets/story37-image07.jpg" + ] + }, + { + "type": "image", + "text": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "shortText": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "images": [ + "assets/story37-image01.jpg", + "assets/story37-image02.jpg", + "assets/story37-image04.jpg", + "assets/story37-image05.jpg", + "assets/story37-image06.jpg" + ], + "imageCaptions": [ + "Satellites for peat's sake. This mosaic, acquired on 28 May 2018, offers a rare cloud-free view over the vast expanses of Scotland's Flow Country.", + "Satellites for peat's sake. This high-resolution land cover map derived from Copernicus Sentinel-2 data shows the extent of peatland in purple.", + "Satellites for peat's sake. A massive fire burned 5,700 hectares of peatland in 2019. This image was taken on 16 May.", + "Satellites for peat's sake. False colour image including the near-infrared channel hihglights healthy vegetation in red and shows the burn scar in dark brown.", + "Satellites for peat's sake. False colour image including the shortwave infrared channels highlights the active fire front in bright red." + ], + "imageFits": [ + "contain", + "contain", + "cover", + "cover", + "cover" + ] + } + ] +} \ No newline at end of file diff --git a/storage/stories/story-40/assets/Sentinel-2.jpg b/storage/stories/story-40/assets/Sentinel-2.jpg new file mode 100644 index 000000000..de83bd8d2 Binary files /dev/null and b/storage/stories/story-40/assets/Sentinel-2.jpg differ diff --git a/storage/stories/story-40/assets/story37-image01.jpg b/storage/stories/story-40/assets/story37-image01.jpg new file mode 100644 index 000000000..8adc35000 Binary files /dev/null and b/storage/stories/story-40/assets/story37-image01.jpg differ diff --git a/storage/stories/story-40/assets/story37-image02.jpg b/storage/stories/story-40/assets/story37-image02.jpg new file mode 100644 index 000000000..3897895f0 Binary files /dev/null and b/storage/stories/story-40/assets/story37-image02.jpg differ diff --git a/storage/stories/story-40/assets/story37-image04.jpg b/storage/stories/story-40/assets/story37-image04.jpg new file mode 100644 index 000000000..23ab96e70 Binary files /dev/null and b/storage/stories/story-40/assets/story37-image04.jpg differ diff --git a/storage/stories/story-40/assets/story37-image05.jpg b/storage/stories/story-40/assets/story37-image05.jpg new file mode 100644 index 000000000..40faa51d6 Binary files /dev/null and b/storage/stories/story-40/assets/story37-image05.jpg differ diff --git a/storage/stories/story-40/assets/story37-image06.jpg b/storage/stories/story-40/assets/story37-image06.jpg new file mode 100644 index 000000000..1794c945c Binary files /dev/null and b/storage/stories/story-40/assets/story37-image06.jpg differ diff --git a/storage/stories/story-40/assets/story37-image07.jpg b/storage/stories/story-40/assets/story37-image07.jpg new file mode 100644 index 000000000..49010b8ce Binary files /dev/null and b/storage/stories/story-40/assets/story37-image07.jpg differ diff --git a/storage/stories/story-40/story-40-de.json b/storage/stories/story-40/story-40-de.json new file mode 100644 index 000000000..141804de9 --- /dev/null +++ b/storage/stories/story-40/story-40-de.json @@ -0,0 +1,39 @@ +{ + "id": "story-40", + "slides": [ + { + "type": "splashscreen", + "text": "# Satellites for Peat's Sake \r\n\r\nFlow Country, Scotland", + "shortText": "# Satellites for Peat's Sake\r\n\r\nFlow Country, Scotland", + "images": [ + "assets/story37-image07.jpg" + ] + }, + { + "type": "image", + "text": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "shortText": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "images": [ + "assets/story37-image01.jpg", + "assets/story37-image02.jpg", + "assets/story37-image04.jpg", + "assets/story37-image05.jpg", + "assets/story37-image06.jpg" + ], + "imageCaptions": [ + "Satellites for peat's sake. This mosaic, acquired on 28 May 2018, offers a rare cloud-free view over the vast expanses of Scotland's Flow Country.", + "Satellites for peat's sake. This high-resolution land cover map derived from Copernicus Sentinel-2 data shows the extent of peatland in purple.", + "Satellites for peat's sake. A massive fire burned 5,700 hectares of peatland in 2019. This image was taken on 16 May.", + "Satellites for peat's sake. False colour image including the near-infrared channel hihglights healthy vegetation in red and shows the burn scar in dark brown.", + "Satellites for peat's sake. False colour image including the shortwave infrared channels highlights the active fire front in bright red." + ], + "imageFits": [ + "contain", + "contain", + "cover", + "cover", + "cover" + ] + } + ] +} \ No newline at end of file diff --git a/storage/stories/story-40/story-40-en.json b/storage/stories/story-40/story-40-en.json new file mode 100644 index 000000000..141804de9 --- /dev/null +++ b/storage/stories/story-40/story-40-en.json @@ -0,0 +1,39 @@ +{ + "id": "story-40", + "slides": [ + { + "type": "splashscreen", + "text": "# Satellites for Peat's Sake \r\n\r\nFlow Country, Scotland", + "shortText": "# Satellites for Peat's Sake\r\n\r\nFlow Country, Scotland", + "images": [ + "assets/story37-image07.jpg" + ] + }, + { + "type": "image", + "text": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "shortText": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "images": [ + "assets/story37-image01.jpg", + "assets/story37-image02.jpg", + "assets/story37-image04.jpg", + "assets/story37-image05.jpg", + "assets/story37-image06.jpg" + ], + "imageCaptions": [ + "Satellites for peat's sake. This mosaic, acquired on 28 May 2018, offers a rare cloud-free view over the vast expanses of Scotland's Flow Country.", + "Satellites for peat's sake. This high-resolution land cover map derived from Copernicus Sentinel-2 data shows the extent of peatland in purple.", + "Satellites for peat's sake. A massive fire burned 5,700 hectares of peatland in 2019. This image was taken on 16 May.", + "Satellites for peat's sake. False colour image including the near-infrared channel hihglights healthy vegetation in red and shows the burn scar in dark brown.", + "Satellites for peat's sake. False colour image including the shortwave infrared channels highlights the active fire front in bright red." + ], + "imageFits": [ + "contain", + "contain", + "cover", + "cover", + "cover" + ] + } + ] +} \ No newline at end of file diff --git a/storage/stories/story-40/story-40-es.json b/storage/stories/story-40/story-40-es.json new file mode 100644 index 000000000..141804de9 --- /dev/null +++ b/storage/stories/story-40/story-40-es.json @@ -0,0 +1,39 @@ +{ + "id": "story-40", + "slides": [ + { + "type": "splashscreen", + "text": "# Satellites for Peat's Sake \r\n\r\nFlow Country, Scotland", + "shortText": "# Satellites for Peat's Sake\r\n\r\nFlow Country, Scotland", + "images": [ + "assets/story37-image07.jpg" + ] + }, + { + "type": "image", + "text": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "shortText": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "images": [ + "assets/story37-image01.jpg", + "assets/story37-image02.jpg", + "assets/story37-image04.jpg", + "assets/story37-image05.jpg", + "assets/story37-image06.jpg" + ], + "imageCaptions": [ + "Satellites for peat's sake. This mosaic, acquired on 28 May 2018, offers a rare cloud-free view over the vast expanses of Scotland's Flow Country.", + "Satellites for peat's sake. This high-resolution land cover map derived from Copernicus Sentinel-2 data shows the extent of peatland in purple.", + "Satellites for peat's sake. A massive fire burned 5,700 hectares of peatland in 2019. This image was taken on 16 May.", + "Satellites for peat's sake. False colour image including the near-infrared channel hihglights healthy vegetation in red and shows the burn scar in dark brown.", + "Satellites for peat's sake. False colour image including the shortwave infrared channels highlights the active fire front in bright red." + ], + "imageFits": [ + "contain", + "contain", + "cover", + "cover", + "cover" + ] + } + ] +} \ No newline at end of file diff --git a/storage/stories/story-40/story-40-fr.json b/storage/stories/story-40/story-40-fr.json new file mode 100644 index 000000000..141804de9 --- /dev/null +++ b/storage/stories/story-40/story-40-fr.json @@ -0,0 +1,39 @@ +{ + "id": "story-40", + "slides": [ + { + "type": "splashscreen", + "text": "# Satellites for Peat's Sake \r\n\r\nFlow Country, Scotland", + "shortText": "# Satellites for Peat's Sake\r\n\r\nFlow Country, Scotland", + "images": [ + "assets/story37-image07.jpg" + ] + }, + { + "type": "image", + "text": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "shortText": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "images": [ + "assets/story37-image01.jpg", + "assets/story37-image02.jpg", + "assets/story37-image04.jpg", + "assets/story37-image05.jpg", + "assets/story37-image06.jpg" + ], + "imageCaptions": [ + "Satellites for peat's sake. This mosaic, acquired on 28 May 2018, offers a rare cloud-free view over the vast expanses of Scotland's Flow Country.", + "Satellites for peat's sake. This high-resolution land cover map derived from Copernicus Sentinel-2 data shows the extent of peatland in purple.", + "Satellites for peat's sake. A massive fire burned 5,700 hectares of peatland in 2019. This image was taken on 16 May.", + "Satellites for peat's sake. False colour image including the near-infrared channel hihglights healthy vegetation in red and shows the burn scar in dark brown.", + "Satellites for peat's sake. False colour image including the shortwave infrared channels highlights the active fire front in bright red." + ], + "imageFits": [ + "contain", + "contain", + "cover", + "cover", + "cover" + ] + } + ] +} \ No newline at end of file diff --git a/storage/stories/story-40/story-40-nl.json b/storage/stories/story-40/story-40-nl.json new file mode 100644 index 000000000..141804de9 --- /dev/null +++ b/storage/stories/story-40/story-40-nl.json @@ -0,0 +1,39 @@ +{ + "id": "story-40", + "slides": [ + { + "type": "splashscreen", + "text": "# Satellites for Peat's Sake \r\n\r\nFlow Country, Scotland", + "shortText": "# Satellites for Peat's Sake\r\n\r\nFlow Country, Scotland", + "images": [ + "assets/story37-image07.jpg" + ] + }, + { + "type": "image", + "text": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "shortText": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "images": [ + "assets/story37-image01.jpg", + "assets/story37-image02.jpg", + "assets/story37-image04.jpg", + "assets/story37-image05.jpg", + "assets/story37-image06.jpg" + ], + "imageCaptions": [ + "Satellites for peat's sake. This mosaic, acquired on 28 May 2018, offers a rare cloud-free view over the vast expanses of Scotland's Flow Country.", + "Satellites for peat's sake. This high-resolution land cover map derived from Copernicus Sentinel-2 data shows the extent of peatland in purple.", + "Satellites for peat's sake. A massive fire burned 5,700 hectares of peatland in 2019. This image was taken on 16 May.", + "Satellites for peat's sake. False colour image including the near-infrared channel hihglights healthy vegetation in red and shows the burn scar in dark brown.", + "Satellites for peat's sake. False colour image including the shortwave infrared channels highlights the active fire front in bright red." + ], + "imageFits": [ + "contain", + "contain", + "cover", + "cover", + "cover" + ] + } + ] +} \ No newline at end of file diff --git a/storage/stories/story-41/assets/Sentinel-2.jpg b/storage/stories/story-41/assets/Sentinel-2.jpg new file mode 100644 index 000000000..de83bd8d2 Binary files /dev/null and b/storage/stories/story-41/assets/Sentinel-2.jpg differ diff --git a/storage/stories/story-41/assets/story37-image01.jpg b/storage/stories/story-41/assets/story37-image01.jpg new file mode 100644 index 000000000..8adc35000 Binary files /dev/null and b/storage/stories/story-41/assets/story37-image01.jpg differ diff --git a/storage/stories/story-41/assets/story37-image02.jpg b/storage/stories/story-41/assets/story37-image02.jpg new file mode 100644 index 000000000..3897895f0 Binary files /dev/null and b/storage/stories/story-41/assets/story37-image02.jpg differ diff --git a/storage/stories/story-41/assets/story37-image04.jpg b/storage/stories/story-41/assets/story37-image04.jpg new file mode 100644 index 000000000..23ab96e70 Binary files /dev/null and b/storage/stories/story-41/assets/story37-image04.jpg differ diff --git a/storage/stories/story-41/assets/story37-image05.jpg b/storage/stories/story-41/assets/story37-image05.jpg new file mode 100644 index 000000000..40faa51d6 Binary files /dev/null and b/storage/stories/story-41/assets/story37-image05.jpg differ diff --git a/storage/stories/story-41/assets/story37-image06.jpg b/storage/stories/story-41/assets/story37-image06.jpg new file mode 100644 index 000000000..1794c945c Binary files /dev/null and b/storage/stories/story-41/assets/story37-image06.jpg differ diff --git a/storage/stories/story-41/assets/story37-image07.jpg b/storage/stories/story-41/assets/story37-image07.jpg new file mode 100644 index 000000000..49010b8ce Binary files /dev/null and b/storage/stories/story-41/assets/story37-image07.jpg differ diff --git a/storage/stories/story-41/story-41-de.json b/storage/stories/story-41/story-41-de.json new file mode 100644 index 000000000..248c5dd50 --- /dev/null +++ b/storage/stories/story-41/story-41-de.json @@ -0,0 +1,39 @@ +{ + "id": "story-41", + "slides": [ + { + "type": "splashscreen", + "text": "# Satellites for Peat's Sake \r\n\r\nFlow Country, Scotland", + "shortText": "# Satellites for Peat's Sake\r\n\r\nFlow Country, Scotland", + "images": [ + "assets/story37-image07.jpg" + ] + }, + { + "type": "image", + "text": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "shortText": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "images": [ + "assets/story37-image01.jpg", + "assets/story37-image02.jpg", + "assets/story37-image04.jpg", + "assets/story37-image05.jpg", + "assets/story37-image06.jpg" + ], + "imageCaptions": [ + "Satellites for peat's sake. This mosaic, acquired on 28 May 2018, offers a rare cloud-free view over the vast expanses of Scotland's Flow Country.", + "Satellites for peat's sake. This high-resolution land cover map derived from Copernicus Sentinel-2 data shows the extent of peatland in purple.", + "Satellites for peat's sake. A massive fire burned 5,700 hectares of peatland in 2019. This image was taken on 16 May.", + "Satellites for peat's sake. False colour image including the near-infrared channel hihglights healthy vegetation in red and shows the burn scar in dark brown.", + "Satellites for peat's sake. False colour image including the shortwave infrared channels highlights the active fire front in bright red." + ], + "imageFits": [ + "contain", + "contain", + "cover", + "cover", + "cover" + ] + } + ] +} \ No newline at end of file diff --git a/storage/stories/story-41/story-41-en.json b/storage/stories/story-41/story-41-en.json new file mode 100644 index 000000000..248c5dd50 --- /dev/null +++ b/storage/stories/story-41/story-41-en.json @@ -0,0 +1,39 @@ +{ + "id": "story-41", + "slides": [ + { + "type": "splashscreen", + "text": "# Satellites for Peat's Sake \r\n\r\nFlow Country, Scotland", + "shortText": "# Satellites for Peat's Sake\r\n\r\nFlow Country, Scotland", + "images": [ + "assets/story37-image07.jpg" + ] + }, + { + "type": "image", + "text": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "shortText": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "images": [ + "assets/story37-image01.jpg", + "assets/story37-image02.jpg", + "assets/story37-image04.jpg", + "assets/story37-image05.jpg", + "assets/story37-image06.jpg" + ], + "imageCaptions": [ + "Satellites for peat's sake. This mosaic, acquired on 28 May 2018, offers a rare cloud-free view over the vast expanses of Scotland's Flow Country.", + "Satellites for peat's sake. This high-resolution land cover map derived from Copernicus Sentinel-2 data shows the extent of peatland in purple.", + "Satellites for peat's sake. A massive fire burned 5,700 hectares of peatland in 2019. This image was taken on 16 May.", + "Satellites for peat's sake. False colour image including the near-infrared channel hihglights healthy vegetation in red and shows the burn scar in dark brown.", + "Satellites for peat's sake. False colour image including the shortwave infrared channels highlights the active fire front in bright red." + ], + "imageFits": [ + "contain", + "contain", + "cover", + "cover", + "cover" + ] + } + ] +} \ No newline at end of file diff --git a/storage/stories/story-41/story-41-es.json b/storage/stories/story-41/story-41-es.json new file mode 100644 index 000000000..248c5dd50 --- /dev/null +++ b/storage/stories/story-41/story-41-es.json @@ -0,0 +1,39 @@ +{ + "id": "story-41", + "slides": [ + { + "type": "splashscreen", + "text": "# Satellites for Peat's Sake \r\n\r\nFlow Country, Scotland", + "shortText": "# Satellites for Peat's Sake\r\n\r\nFlow Country, Scotland", + "images": [ + "assets/story37-image07.jpg" + ] + }, + { + "type": "image", + "text": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "shortText": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "images": [ + "assets/story37-image01.jpg", + "assets/story37-image02.jpg", + "assets/story37-image04.jpg", + "assets/story37-image05.jpg", + "assets/story37-image06.jpg" + ], + "imageCaptions": [ + "Satellites for peat's sake. This mosaic, acquired on 28 May 2018, offers a rare cloud-free view over the vast expanses of Scotland's Flow Country.", + "Satellites for peat's sake. This high-resolution land cover map derived from Copernicus Sentinel-2 data shows the extent of peatland in purple.", + "Satellites for peat's sake. A massive fire burned 5,700 hectares of peatland in 2019. This image was taken on 16 May.", + "Satellites for peat's sake. False colour image including the near-infrared channel hihglights healthy vegetation in red and shows the burn scar in dark brown.", + "Satellites for peat's sake. False colour image including the shortwave infrared channels highlights the active fire front in bright red." + ], + "imageFits": [ + "contain", + "contain", + "cover", + "cover", + "cover" + ] + } + ] +} \ No newline at end of file diff --git a/storage/stories/story-41/story-41-fr.json b/storage/stories/story-41/story-41-fr.json new file mode 100644 index 000000000..248c5dd50 --- /dev/null +++ b/storage/stories/story-41/story-41-fr.json @@ -0,0 +1,39 @@ +{ + "id": "story-41", + "slides": [ + { + "type": "splashscreen", + "text": "# Satellites for Peat's Sake \r\n\r\nFlow Country, Scotland", + "shortText": "# Satellites for Peat's Sake\r\n\r\nFlow Country, Scotland", + "images": [ + "assets/story37-image07.jpg" + ] + }, + { + "type": "image", + "text": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "shortText": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "images": [ + "assets/story37-image01.jpg", + "assets/story37-image02.jpg", + "assets/story37-image04.jpg", + "assets/story37-image05.jpg", + "assets/story37-image06.jpg" + ], + "imageCaptions": [ + "Satellites for peat's sake. This mosaic, acquired on 28 May 2018, offers a rare cloud-free view over the vast expanses of Scotland's Flow Country.", + "Satellites for peat's sake. This high-resolution land cover map derived from Copernicus Sentinel-2 data shows the extent of peatland in purple.", + "Satellites for peat's sake. A massive fire burned 5,700 hectares of peatland in 2019. This image was taken on 16 May.", + "Satellites for peat's sake. False colour image including the near-infrared channel hihglights healthy vegetation in red and shows the burn scar in dark brown.", + "Satellites for peat's sake. False colour image including the shortwave infrared channels highlights the active fire front in bright red." + ], + "imageFits": [ + "contain", + "contain", + "cover", + "cover", + "cover" + ] + } + ] +} \ No newline at end of file diff --git a/storage/stories/story-41/story-41-nl.json b/storage/stories/story-41/story-41-nl.json new file mode 100644 index 000000000..248c5dd50 --- /dev/null +++ b/storage/stories/story-41/story-41-nl.json @@ -0,0 +1,39 @@ +{ + "id": "story-41", + "slides": [ + { + "type": "splashscreen", + "text": "# Satellites for Peat's Sake \r\n\r\nFlow Country, Scotland", + "shortText": "# Satellites for Peat's Sake\r\n\r\nFlow Country, Scotland", + "images": [ + "assets/story37-image07.jpg" + ] + }, + { + "type": "image", + "text": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "shortText": "## Flow Country, Scotland \r\n\r\nPeatlands make up just 3% of land globally but capture twice as much carbon dioxide as all forests combined. In healthy bogs, peat moss does not fully decay, and instead slowly builds up to form layers of carbon-rich peat. However, if the bog dries out, or is damaged by fire, the carbon is released – adding to the effects of climate change. The Flow Country is the largest remaining expanse of blanket bog in Europe, and it is estimated that the carbon stored equals 100 years’ worth of Scotland’s fossil fuel emissions. Satellite imagery can be used to create maps of peatlands, measure soil moisture, and detect disturbances such as fires, making it cheaper and easier to monitor and preserve these valuable landscapes. \r\n\r\nCredits: contains modified Copernicus Sentinel data (2018, 2019), processed by ESA, CC BY-SA 3.0 IGO", + "images": [ + "assets/story37-image01.jpg", + "assets/story37-image02.jpg", + "assets/story37-image04.jpg", + "assets/story37-image05.jpg", + "assets/story37-image06.jpg" + ], + "imageCaptions": [ + "Satellites for peat's sake. This mosaic, acquired on 28 May 2018, offers a rare cloud-free view over the vast expanses of Scotland's Flow Country.", + "Satellites for peat's sake. This high-resolution land cover map derived from Copernicus Sentinel-2 data shows the extent of peatland in purple.", + "Satellites for peat's sake. A massive fire burned 5,700 hectares of peatland in 2019. This image was taken on 16 May.", + "Satellites for peat's sake. False colour image including the near-infrared channel hihglights healthy vegetation in red and shows the burn scar in dark brown.", + "Satellites for peat's sake. False colour image including the shortwave infrared channels highlights the active fire front in bright red." + ], + "imageFits": [ + "contain", + "contain", + "cover", + "cover", + "cover" + ] + } + ] +} \ No newline at end of file