Update to data stories pages - new order and landing page fix (#864)

* add flood landing page

* reorg of lidar lessons

* rename reorg

* url fix

Co-authored-by: earth-lab <[email protected]>

Author: Leah Wasser

_posts/courses/intermediate-earth-data-science-textbook/data-stories/colorado-2013-floods/2018-02-05-coflood-01-about-the-floods.md

@@ -4,12 +4,12 @@ title: 'An Overview of the 2013 Colorado Floods'
 excerpt: "The 2013 flood event caused significant damage throughout the state of Colorado, USA. Learn about what caused the 2013 floods in Colorado and also some of the impacts."
 authors: ['Leah Wasser', 'Lauren Herwehe']
 dateCreated: 2018-05-24
-modified: 2020-01-22
+modified: 2020-02-14
 category: [courses]
 class-lesson: ['about-2013-floods-tb']
 course: 'intermediate-earth-data-science-textbook'
 chapter: 20
-permalink: /courses/use-data-open-source-python/data-stories/colorado-2013-floods/an-overview-of-the-colorado-2013-floods/
+permalink: /courses/use-data-open-source-python/data-stories/colorado-floods-2013/
 nav-title: 'CO Flood Overview'
 module-title: 'An Overview of the 2013 Floods in Colorado, USA'
 module-nav-title: 'Flood overview '
@@ -28,6 +28,7 @@ topics:
     time-series:  
 redirect_from:
   - "/courses/earth-analytics-python/python-open-science-toolbox/an-overview-of-the-floods/"
+  - "/courses/use-data-open-source-python/data-stories/colorado-2013-floods/an-overview-of-the-colorado-2013-floods/"
 ---
 
 {% include toc title="In This Chapter" icon="file-text" %}

_posts/courses/intermediate-earth-data-science-textbook/data-stories/colorado-2013-floods/2018-02-05-coflood-02-flood-drivers.md

@@ -3,12 +3,12 @@ layout: single
 title: 'How the Atmosphere Drives Floods: The 2013 Colorado Floods'
 excerpt: "Changes in the atmosphere, including how quickly a storm moves can impact the severity of a flood. Learn more about how atmospheric conditions impact flood events."
 authors: ['Leah Wasser', 'Lauren Herwehe']
-modified: 2020-01-22
+modified: 2020-02-14
 category: [courses]
 class-lesson: ['about-2013-floods-tb']
 course: 'intermediate-earth-data-science-textbook'
 chapter: 20
-permalink: /courses/use-data-open-source-python/data-stories/colorado-2013-floods/how-atmospheric-conditions-and-drought-impact-floods/
+permalink: /courses/use-data-open-source-python/data-stories/colorado-floods-2013/how-atmospheric-conditions-and-drought-impact-floods/
 nav-title: 'Atmosphere & Drought'
 dateCreated: 2018-05-24
 module-type: 'class'
@@ -24,6 +24,7 @@ topics:
     time-series: 
 redirect_from:
   - "/courses/earth-analytics-python/python-open-science-toolbox/how-atmospheric-conditions-and-drought-impact-floods/"
+  - "/courses/use-data-open-source-python/data-stories/colorado-2013-floods/how-atmospheric-conditions-and-drought-impact-floods/"
 ---
 
 {% include toc title="On This Page" icon="file-text" %}
@@ -83,7 +84,12 @@ There are many ways to measure or quantify drought. The Palmer Drought Severity
 {:.output}
 {:.display_data}
 
-    <Figure size 1800x800 with 1 Axes>
+<figure>
+
+<img src = "{{ site.url }}/images/courses/intermediate-earth-data-science-textbook/data-stories/colorado-2013-floods/2018-02-05-coflood-02-flood-drivers/2018-02-05-coflood-02-flood-drivers_3_0.png" alt = "Plot of Palmer Drought Index for Colorado 2005-2016.">
+<figcaption>Plot of Palmer Drought Index for Colorado 2005-2016.</figcaption>
+
+</figure>
 
 
 

_posts/courses/intermediate-earth-data-science-textbook/data-stories/colorado-2013-floods/2018-02-05-ts05-about-the-precip-and-discharge-data.md renamed to _posts/courses/intermediate-earth-data-science-textbook/data-stories/colorado-2013-floods/2018-02-05-coflood-03-about-the-precip-and-discharge-data.md

@@ -4,13 +4,13 @@ title: "About the Stream Discharge Data Used in this Data Story"
 excerpt: "Learn more about the stream discharge data that is used in this data story."
 authors: ['Leah Wasser']
 dateCreated: 2018-02-05
-modified: 2020-01-22
+modified: 2020-02-14
 category: [courses]
 class-lesson: ['about-2013-floods-tb']
 course: 'intermediate-earth-data-science-textbook'
 chapter: 20
 week: 7
-permalink: /courses/use-data-open-source-python/data-stories/colorado-2013-floods/about-the-stream-discharge-data/
+permalink: /courses/use-data-open-source-python/data-stories/colorado-floods-2013/about-the-stream-discharge-data/
 nav-title: 'About the Stream Discharge Data'
 sidebar:
   nav:
@@ -23,6 +23,7 @@ topics:
     time-series:  
 redirect_from:
   - "/courses/earth-analytics-python/use-time-series-data-in-python/about-the-time-series-data/"
+  - "/courses/use-data-open-source-python/data-stories/colorado-2013-floods/about-the-stream-discharge-data/"
 ---
 
 {% include toc title="On This Page" icon="file-text" %}

_posts/courses/intermediate-earth-data-science-textbook/data-stories/colorado-2013-floods/2018-02-05-coflood-03-flood-drivers-precipitation.md renamed to _posts/courses/intermediate-earth-data-science-textbook/data-stories/colorado-2013-floods/2018-02-05-coflood-04-flood-drivers-precipitation.md

@@ -3,12 +3,12 @@ layout: single
 title: 'Rain: a Driver of the 2013 Colorado Floods'
 excerpt: "The amount and/or duration of rainfall can impact how severe a flood is. Learn how rainfall is measured and used to understand flood impacts."
 authors: ['Leah Wasser', 'Lauren Herwehe']
-modified: 2020-01-22
+modified: 2020-02-14
 category: [courses]
 class-lesson: ['about-2013-floods-tb']
 course: 'intermediate-earth-data-science-textbook'
 chapter: 20
-permalink: /courses/use-data-open-source-python/data-stories/colorado-2013-floods/how-rain-impacts-floods/
+permalink: /courses/use-data-open-source-python/data-stories/colorado-floods-2013/how-rain-impacts-floods/
 nav-title: 'Precipitation'
 dateCreated: 2018-05-24
 module-type: 'class'
@@ -24,6 +24,7 @@ topics:
     time-series:  
 redirect_from:
   - "/courses/earth-analytics-python/python-open-science-toolbox/how-rain-impacts-floods/"
+  - "/courses/use-data-open-source-python/data-stories/colorado-2013-floods/how-rain-impacts-floods/"
 ---
 
 {% include toc title="On This Page" icon="file-text" %}
@@ -96,7 +97,7 @@ The figure below shows the total precipitation each month from 1948 to 2013 for
 
 <figure>
 
-<img src = "{{ site.url }}/images/courses/intermediate-earth-data-science-textbook/data-stories/colorado-2013-floods/2018-02-05-coflood-03-flood-drivers-precipitation/2018-02-05-coflood-03-flood-drivers-precipitation_3_0.png" alt = "Scatter plot showing daily precipitation values for Boulder from 1948 to 2016.">
+<img src = "{{ site.url }}/images/courses/intermediate-earth-data-science-textbook/data-stories/colorado-2013-floods/2018-02-05-coflood-04-flood-drivers-precipitation/2018-02-05-coflood-04-flood-drivers-precipitation_3_0.png" alt = "Scatter plot showing daily precipitation values for Boulder from 1948 to 2016.">
 <figcaption>Scatter plot showing daily precipitation values for Boulder from 1948 to 2016.</figcaption>
 
 </figure>
@@ -115,7 +116,7 @@ Within this 65 years of data, you can see that there is a jump in the amount of
 
 <figure>
 
-<img src = "{{ site.url }}/images/courses/intermediate-earth-data-science-textbook/data-stories/colorado-2013-floods/2018-02-05-coflood-03-flood-drivers-precipitation/2018-02-05-coflood-03-flood-drivers-precipitation_5_0.png" alt = "Plot of total daily precipitation from August 15th to September 15th, 2013 for a National Weather Service COOP site located in Boulder, CO.">
+<img src = "{{ site.url }}/images/courses/intermediate-earth-data-science-textbook/data-stories/colorado-2013-floods/2018-02-05-coflood-04-flood-drivers-precipitation/2018-02-05-coflood-04-flood-drivers-precipitation_5_0.png" alt = "Plot of total daily precipitation from August 15th to September 15th, 2013 for a National Weather Service COOP site located in Boulder, CO.">
 <figcaption>Plot of total daily precipitation from August 15th to September 15th, 2013 for a National Weather Service COOP site located in Boulder, CO.</figcaption>
 
 </figure>
@@ -158,7 +159,7 @@ The daily average data for the stream gauge along Boulder Creek, five miles down
 
 <figure>
 
-<img src = "{{ site.url }}/images/courses/intermediate-earth-data-science-textbook/data-stories/colorado-2013-floods/2018-02-05-coflood-03-flood-drivers-precipitation/2018-02-05-coflood-03-flood-drivers-precipitation_7_0.png" alt = "Plot of Daily Average Stream Discharge (CFS) for Boulder Creek from August 15th to September 15th, 2013 for a National Weather Service COOP site located in Boulder, CO.">
+<img src = "{{ site.url }}/images/courses/intermediate-earth-data-science-textbook/data-stories/colorado-2013-floods/2018-02-05-coflood-04-flood-drivers-precipitation/2018-02-05-coflood-04-flood-drivers-precipitation_7_0.png" alt = "Plot of Daily Average Stream Discharge (CFS) for Boulder Creek from August 15th to September 15th, 2013 for a National Weather Service COOP site located in Boulder, CO.">
 <figcaption>Plot of Daily Average Stream Discharge (CFS) for Boulder Creek from August 15th to September 15th, 2013 for a National Weather Service COOP site located in Boulder, CO.</figcaption>
 
 </figure>

_posts/courses/intermediate-earth-data-science-textbook/data-stories/colorado-2013-floods/2018-02-05-coflood-04-terrain-impacts.md

@@ -3,12 +3,12 @@ layout: single
 title: 'Measure Changes in the Terrain Caused by a Flood Using Lidar Data'
 excerpt: "A flood event often changes the terrain as water moves sediment and debris across the landscape. Learn how terrain changes are measured using lidar remote sensing data."
 authors: ['Leah Wasser', 'Lauren Herwehe']
-modified: 2020-01-22
+modified: 2020-02-14
 category: [courses]
 class-lesson: ['about-2013-floods-tb']
 course: 'intermediate-earth-data-science-textbook'
 chapter: 20
-permalink: /courses/use-data-open-source-python/data-stories/colorado-2013-floods/measure-changes-in-terrain-caused-by-floods/
+permalink: /courses/use-data-open-source-python/data-stories/colorado-floods-2013/measure-changes-in-terrain-caused-by-floods/
 nav-title: 'Terrain Changes'
 dateCreated: 2018-05-24
 module-type: 'class'
@@ -24,6 +24,7 @@ topics:
     time-series:  
 redirect_from:
   - "/courses/earth-analytics-python/python-open-science-toolbox/measure-changes-in-terrain-caused-by-floods/"
+  - "/courses/use-data-open-source-python/data-stories/colorado-2013-floods/measure-changes-in-terrain-caused-by-floods/"
 ---
 
 {% include toc title="On This Page" icon="file-text" %}

_posts/courses/intermediate-earth-data-science-textbook/data-stories/lidar-intro/2018-02-05-lidar01-lidar-data.md

@@ -5,10 +5,10 @@ excerpt: "This lesson reviews what Lidar remote sensing is, what the lidar instr
 components of a lidar remote sensing system."
 authors: ['Leah Wasser']
 dateCreated: 2018-02-05
-modified: 2020-01-22
+modified: 2020-02-14
 category: [courses]
 class-lesson: ['lidar-data-story']
-permalink: /courses/use-data-open-source-python/data-stories/lidar-raster-data/lidar-intro/
+permalink: /courses/use-data-open-source-python/data-stories/what-is-lidar-data/
 nav-title: 'Intro to Lidar Data'
 module-title: 'Intro to Lidar Data'
 module-description: 'This tutorial covers the basic principles of LiDAR remote sensing and
@@ -30,6 +30,7 @@ topics:
   spatial-data-and-gis: ['raster-data']
 redirect_from:
   - "/courses/earth-analytics-python/lidar-raster-data/lidar-intro/"
+  - "/courses/use-data-open-source-python/data-stories/lidar-raster-data/lidar-intro/"
 ---
 
 {% include toc title="In This Chapter" icon="file-text" %}

_posts/courses/intermediate-earth-data-science-textbook/data-stories/lidar-intro/2018-02-05-lidar02-lidar-point-clouds.md

@@ -4,10 +4,10 @@ title: "Get to know Lidar (Light Detection and Ranging) Point Cloud Data - Activ
 excerpt: "This lesson covers what a lidar point cloud is. You will use the free plas.io point cloud viewer to explore a point cloud."
 authors: ['Leah Wasser']
 dateCreated: 2018-02-05
-modified: 2020-01-22
+modified: 2020-02-14
 category: [courses]
 class-lesson: ['lidar-data-story']
-permalink: /courses/use-data-open-source-python/data-stories/lidar-raster-data/explore-lidar-point-clouds-plasio/
+permalink: /courses/use-data-open-source-python/data-stories/what-is-lidar-data/explore-lidar-point-clouds-plasio/
 nav-title: 'Explore Lidar Point Clouds'
 week: 7
 course: 'intermediate-earth-data-science-textbook'
@@ -23,6 +23,7 @@ topics:
   spatial-data-and-gis: ['raster-data']
 redirect_from:
   - "/courses/earth-analytics-python/lidar-raster-data/explore-lidar-point-clouds-plasio/"
+  - "/courses/use-data-open-source-python/data-stories/lidar-raster-data/explore-lidar-point-clouds-plasio/"
 ---
 
 {% include toc title="On This Page" icon="file-text" %}

_posts/courses/intermediate-earth-data-science-textbook/data-stories/lidar-intro/2018-02-05-lidar04-lidar-raster-data.md renamed to _posts/courses/intermediate-earth-data-science-textbook/data-stories/lidar-intro/2018-02-05-lidar03-lidar-points-to-pixels.md

@@ -4,25 +4,26 @@ title: "How lidar point clouds are converted to raster data formats"
 excerpt: "Rasters are gridded data composed of pixels that store values, such as an image or elevation data file. Learn how a lidar data point cloud is converted to a raster format such as a GeoTIFF."
 authors: ['Leah Wasser']
 dateCreated: 2018-02-05
-modified: 2020-01-22
+modified: 2020-02-14
 category: [courses]
 class-lesson: ['lidar-data-story']
-permalink: /courses/use-data-open-source-python/data-stories/lidar-raster-data/intro-lidar-raster-data/
-nav-title: 'Intro Lidar Raster Data'
+permalink: /courses/use-data-open-source-python/data-stories/what-is-lidar-data/lidar-points-to-pixels-raster/
+nav-title: 'Points to Pixels'
 week: 7
 course: 'intermediate-earth-data-science-textbook'
 chapter: 21
 sidebar:
   nav:
 author_profile: false
-comments: false
-order: 4
+comments: true
+order: 3
 topics:
   remote-sensing: ['lidar']
   earth-science: ['vegetation']
   spatial-data-and-gis: ['raster-data']
 redirect_from:
   - "/courses/earth-analytics-python/lidar-raster-data/lidar-raster-data/"
+  - "/courses/use-data-open-source-python/data-stories/lidar-raster-data/intro-lidar-raster-data"
 ---
 
 {% include toc title="On This Page" icon="file-text" %}

_posts/courses/intermediate-earth-data-science-textbook/data-stories/lidar-intro/2018-02-05-lidar03-chm-dtm-dsm.md renamed to _posts/courses/intermediate-earth-data-science-textbook/data-stories/lidar-intro/2018-02-05-lidar04-chm-dtm-dsm.md

@@ -4,10 +4,10 @@ title: "Canopy Height Models, Digital Surface Models & Digital Elevation Models
 excerpt: "This lesson defines 3 lidar data products: the digital elevation model (DEM), the digital surface model (DSM) and the canopy height model (CHM)."
 authors: ['Leah Wasser']
 dateCreated: 2018-02-05
-modified: 2020-01-22
+modified: 2020-02-14
 category: [courses]
 class-lesson: ['lidar-data-story']
-permalink: /courses/use-data-open-source-python/data-stories/lidar-raster-data/lidar-chm-dem-dsm/
+permalink: /courses/use-data-open-source-python/data-stories/what-is-lidar-data/lidar-chm-dem-dsm/
 nav-title: 'CHM, DTM, DSM'
 week: 7
 course: 'intermediate-earth-data-science-textbook'
@@ -16,13 +16,14 @@ sidebar:
   nav:
 author_profile: false
 comments: false
-order: 3
+order: 4
 topics:
   remote-sensing: ['lidar']
   earth-science: ['vegetation']
   spatial-data-and-gis: ['raster-data']
 redirect_from:
   - "/courses/earth-analytics-python/lidar-raster-data/lidar-chm-dem-dsm/"
+  - "/courses/use-data-open-source-python/data-stories/lidar-raster-data/explore-lidar-point-clouds-plasio/"
 ---
 
 {% include toc title="On This Page" icon="file-text" %}
@@ -74,7 +75,7 @@ In this lesson, you will explore Digital Surface Models (DSM) and learn how to u
 
 <figure>
 
-<img src = "{{ site.url }}/images/courses/intermediate-earth-data-science-textbook/data-stories/lidar-intro/2018-02-05-lidar03-chm-dtm-dsm/2018-02-05-lidar03-chm-dtm-dsm_3_0.png" alt = "Raster plot of a lidar DEM.">
+<img src = "{{ site.url }}/images/courses/intermediate-earth-data-science-textbook/data-stories/lidar-intro/2018-02-05-lidar04-chm-dtm-dsm/2018-02-05-lidar04-chm-dtm-dsm_3_0.png" alt = "Raster plot of a lidar DEM.">
 <figcaption>Raster plot of a lidar DEM.</figcaption>
 
 </figure>
@@ -93,7 +94,7 @@ Next, let's review the digital surface model (DSM). The DSM represents the top o
 
 <figure>
 
-<img src = "{{ site.url }}/images/courses/intermediate-earth-data-science-textbook/data-stories/lidar-intro/2018-02-05-lidar03-chm-dtm-dsm/2018-02-05-lidar03-chm-dtm-dsm_6_0.png" alt = "Raster plot of a Lidar DSM.">
+<img src = "{{ site.url }}/images/courses/intermediate-earth-data-science-textbook/data-stories/lidar-intro/2018-02-05-lidar04-chm-dtm-dsm/2018-02-05-lidar04-chm-dtm-dsm_6_0.png" alt = "Raster plot of a Lidar DSM.">
 <figcaption>Raster plot of a Lidar DSM.</figcaption>
 
 </figure>
@@ -121,7 +122,7 @@ You can learn how to subtract rasters in the <a href="{{ site.url }}/courses/use
 
 <figure>
 
-<img src = "{{ site.url }}/images/courses/intermediate-earth-data-science-textbook/data-stories/lidar-intro/2018-02-05-lidar03-chm-dtm-dsm/2018-02-05-lidar03-chm-dtm-dsm_8_0.png" alt = "Raster plot of a Lidar canopy height model.">
+<img src = "{{ site.url }}/images/courses/intermediate-earth-data-science-textbook/data-stories/lidar-intro/2018-02-05-lidar04-chm-dtm-dsm/2018-02-05-lidar04-chm-dtm-dsm_8_0.png" alt = "Raster plot of a Lidar canopy height model.">
 <figcaption>Raster plot of a Lidar canopy height model.</figcaption>
 
 </figure>