Merge pull request #5550 from nasa-gibs/release

Release into main

.github/CODE_OF_CONDUCT.md

@@ -34,7 +34,7 @@ This Code of Conduct applies both within project spaces and in public spaces whe
 
 ## Enforcement
 
-Instances of abusive, harassing, or otherwise unacceptable behavior may be reported by contacting the project team at support@earthdata.nasa.gov. The project team will review and investigate all complaints, and will respond in a way that it deems appropriate to the circumstances. The project team is obligated to maintain confidentiality with regard to the reporter of an incident. Further details of specific enforcement policies may be posted separately.
+Instances of abusive, harassing, or otherwise unacceptable behavior may be reported by contacting the project team at earthdata-[email protected]. The project team will review and investigate all complaints, and will respond in a way that it deems appropriate to the circumstances. The project team is obligated to maintain confidentiality with regard to the reporter of an incident. Further details of specific enforcement policies may be posted separately.
 
 Project maintainers who do not follow or enforce the Code of Conduct in good faith may face temporary or permanent repercussions as determined by other members of the project's leadership.
 

README.md

@@ -8,7 +8,7 @@ Interactive interface for browsing full-resolution, global satellite imagery.
 
 ## Background
 
-This app from NASA's [ESDIS](https://www.earthdata.nasa.gov/esdis) provides the
+This app from NASA's [ESDIS](https://earthdata.nasa.gov/esdis) provides the
 capability to interactively browse over 1000 global, full-resolution satellite
 imagery layers on desktop and mobile devices. Many of the imagery layers are
 updated daily and are within three hours of observation - showing the entire Earth as it is
@@ -86,7 +86,7 @@ To update Worldview, pull down any branch or tag from GitHub. From the `main` br
 ## Contact
 
 Contact us via GitHub or by sending an email to
-[support@earthdata.nasa.gov](mailto:support@earthdata.nasa.gov).
+[earthdata-[email protected]](mailto:earthdata-[email protected]).
 
 ## Contribute
 

config/default/common/brand.json

@@ -5,5 +5,5 @@
     "shortName":    "Worldview",
     "description":  "Interactive satellite viewer",
     "url":          "https://worldview.earthdata.nasa.gov/",
-    "email":        "support@earthdata.nasa.gov"
+    "email":        "earthdata-[email protected]"
 }

config/default/common/brand/about/acknowledgements.md

@@ -6,7 +6,7 @@
                 href="https://search.earthdata.nasa.gov/">Earthdata Search</a> for a full listing of available data
         products.</p>
 <p>Near real-time imagery is courtesy of the<a href="https://earthdata.nasa.gov/earth-observation-data/near-real-time"
-                target="_blank" rel="noopener noreferrer"> Land, Atmosphere Near Real-Time Capability for Eo (LANCE)
+                target="_blank" rel="noopener noreferrer"> Land, Atmosphere Near Real-Time Capability for Earth observation (LANCE)
         </a>data providers:
 </p>
 <ul>
@@ -78,8 +78,8 @@
         <li>GeoColor imagery layers from GOES-East and GOES-West are provided by <a
                         href="https://www.star.nesdis.noaa.gov/goes/" target="_blank"
                         rel="noopener noreferrer">NOAA/NESDIS/STAR</a> .</li>
-        <li>Geostationary imagery layers from GOES-East, GOES-West and Himawari-8 (Red Visible, Clean Infrared, and Air
-                Mass) are provided by the <a href="https://weather.msfc.nasa.gov/sport/" target="_blank"
+        <li>Geostationary imagery layers from GOES-East, GOES-West and Himawari-8 (Red Visible, Clean Infrared, Air
+                Mass, Dust, and Fire Temperature) are provided by the <a href="https://weather.msfc.nasa.gov/sport/" target="_blank"
                         rel="noopener noreferrer">Short-term Prediction Research and Transition Center (SPoRT)</a> at
                 NASA
                 Marshall Space Flight Center.</li>

config/default/common/config/metadata/layers/modis/CorrectedReflectance.md

@@ -1,6 +1,6 @@
 ### MODIS Corrected Reflectance vs. MODIS Surface Reflectance
 The MODIS Corrected Reflectance algorithm utilizes MODIS Level 1B data (the calibrated, geolocated radiances). It is not a standard, science quality product. The purpose of this algorithm is to provide natural-looking images by removing gross atmospheric effects, such as Rayleigh scattering, from MODIS visible bands 1-7. The algorithm was developed by the original MODIS Rapid Response team to address the needs of the fire monitoring community who want to see smoke. Corrected Reflectance shows smoke more clearly than the standard Surface Reflectance product. In contrast, the MODIS Land Surface Reflectance product (MOD09) is a more complete atmospheric correction algorithm that includes aerosol correction, and is designed to derive land surface properties. In clear atmospheric conditions the Corrected Reflectance product is very similar to the MOD09 product, but they depart from each other in presence of aerosols. If you wish to perform a complete atmospheric correction, please do not use the Corrected Reflectance algorithm. An additional difference is that the Land Surface Reflectance product is only tuned for calculating the reflectance over land surfaces.
 
-References: [NASA Earthdata - Creating Reprojected True Color MODIS Images: A Tutorial](https://www.earthdata.nasa.gov/s3fs-public/2022-02/MODIS_True_Color.pdf); [NASA Earthdata - LANCE FAQ](https://earthdata.nasa.gov/faq/lance-faq#ed-CRvsSR)
+References: [NASA Earthdata - Creating Reprojected True Color MODIS Images: A Tutorial](https://earthdata.nasa.gov/s3fs-public/2022-02/MODIS_True_Color.pdf); [NASA Earthdata - LANCE FAQ](https://earthdata.nasa.gov/faq/lance-faq#ed-CRvsSR)
 
 NOTE: We are reprocessing the entire MODIS Land imagery archive to collection 6.1 but currently the imagery is a mix of collection 6 and collection 6.1. Most of the imagery from mid-May 2021 onwards is collection 6.1 and older imagery is collection 6.

config/default/common/config/metadata/layers/modis/LandSurfaceReflectance.md

@@ -1,6 +1,6 @@
 ### MODIS Corrected Reflectance vs. MODIS Surface Reflectance
 The MODIS Corrected Reflectance algorithm utilizes MODIS Level 1B data (the calibrated, geolocated radiances). It is not a standard, science quality product. The purpose of this algorithm is to provide natural-looking images by removing gross atmospheric effects, such as Rayleigh scattering, from MODIS visible bands 1-7. The algorithm was developed by the original MODIS Rapid Response team to address the needs of the fire monitoring community who want to see smoke. Corrected Reflectance shows smoke more clearly than the standard Surface Reflectance product. In contrast, the MODIS Land Surface Reflectance product (MOD09) is a more complete atmospheric correction algorithm that includes aerosol correction, and is designed to derive land surface properties. In clear atmospheric conditions the Corrected Reflectance product is very similar to the MOD09 product, but they depart from each other in presence of aerosols. If you wish to perform a complete atmospheric correction, please do not use the Corrected Reflectance algorithm. An additional difference is that the Land Surface Reflectance product is only tuned for calculating the reflectance over land surfaces.
 
-References: [NASA Earthdata - Creating Reprojected True Color MODIS Images: A Tutorial](https://www.earthdata.nasa.gov/s3fs-public/2022-02/MODIS_True_Color.pdf); [NASA Earthdata - LANCE FAQ](https://earthdata.nasa.gov/faq/lance-faq#ed-CRvsSR)
+References: [NASA Earthdata - Creating Reprojected True Color MODIS Images: A Tutorial](https://earthdata.nasa.gov/s3fs-public/2022-02/MODIS_True_Color.pdf); [NASA Earthdata - LANCE FAQ](https://earthdata.nasa.gov/faq/lance-faq#ed-CRvsSR)
 
 NOTE: We are reprocessing the entire MODIS Land imagery archive to collection 6.1 but currently the imagery is a mix of collection 6 and collection 6.1. Most of the imagery from mid-May 2021 onwards is collection 6.1 and older imagery is collection 6.

config/default/common/config/metadata/layers/modis/combined/MODIS_Combined_Flood_2-Day.md

@@ -19,7 +19,7 @@ Common situations in which the flood product may be unable to accurately identif
 - Springtime snow melt ponding on fields: such water can appear as pixelated flood across flat areas of agricultural fields. Although this is unusual water, it is often very shallow, and not moving, and thus typically not a flood in the normal sense. Checking the reflectance imagery will typically show such areas on the edge of larger areas of snow extent, or, looking back in time, will show them recently covered by snow.
 
 #### Spatial Coverage
-Non-polar global land areas (below 80 degrees latitude), comprising 287 10x10 degree tiles (see [product homepage](https://www.earthdata.nasa.gov/learn/find-data/near-real-time/modis-nrt-global-flood-product) for map of included tiles).
+Non-polar global land areas (below 80 degrees latitude), comprising 287 10x10 degree tiles (see [product homepage](https://earthdata.nasa.gov/learn/find-data/near-real-time/modis-nrt-global-flood-product) for map of included tiles).
 
 #### Sensor/Image Resolution
 Nominal equatorial resolution is ~232 m per pixel, with resolution increasing toward the poles (~116 m at 60 degrees latitude). Note the higher apparent resolution towards the poles is simply an artifact of the lat/lon (geographic) projection used, and not intrinsic to the data.

config/default/common/config/metadata/layers/modis/combined/MODIS_Combined_Flood_3-Day.md

@@ -19,7 +19,7 @@ Common situations in which the flood product may be unable to accurately identif
 - Springtime snow melt ponding on fields: such water can appear as pixelated flood across flat areas of agricultural fields. Although this is unusual water, it is often very shallow, and not moving, and thus typically not a flood in the normal sense. Checking the reflectance imagery will typically show such areas on the edge of larger areas of snow extent, or, looking back in time, will show them recently covered by snow.
 
 #### Spatial Coverage
-Non-polar global land areas (below 80 degrees latitude), comprising 287 10x10 degree tiles (see [product homepage](https://www.earthdata.nasa.gov/learn/find-data/near-real-time/modis-nrt-global-flood-product) for map of included tiles).
+Non-polar global land areas (below 80 degrees latitude), comprising 287 10x10 degree tiles (see [product homepage](https://earthdata.nasa.gov/learn/find-data/near-real-time/modis-nrt-global-flood-product) for map of included tiles).
 
 #### Sensor/Image Resolution
 Nominal equatorial resolution is ~232 m per pixel, with resolution increasing toward the poles (~116 m at 60 degrees latitude). Note the higher apparent resolution towards the poles is simply an artifact of the lat/lon (geographic) projection used, and not intrinsic to the data.

config/default/common/config/metadata/layers/modis/terra/CorrectedReflectance.md

@@ -1,6 +1,6 @@
 ### MODIS Corrected Reflectance vs. MODIS Surface Reflectance
 The MODIS Corrected Reflectance algorithm utilizes MODIS Level 1B data (the calibrated, geolocated radiances). It is not a standard, science quality product. The purpose of this algorithm is to provide natural-looking images by removing gross atmospheric effects, such as Rayleigh scattering, from MODIS visible bands 1-7. The algorithm was developed by the original MODIS Rapid Response team to address the needs of the fire monitoring community who want to see smoke. Corrected Reflectance shows smoke more clearly than the standard Surface Reflectance product. In contrast, the MODIS Land Surface Reflectance product (MOD09) is a more complete atmospheric correction algorithm that includes aerosol correction, and is designed to derive land surface properties. In clear atmospheric conditions the Corrected Reflectance product is very similar to the MOD09 product, but they depart from each other in presence of aerosols. If you wish to perform a complete atmospheric correction, please do not use the Corrected Reflectance algorithm. An additional difference is that the Land Surface Reflectance product is only tuned for calculating the reflectance over land surfaces.
 
-References: [NASA Earthdata - Creating Reprojected True Color MODIS Images: A Tutorial](https://www.earthdata.nasa.gov/s3fs-public/2022-02/MODIS_True_Color.pdf); [NASA Earthdata - LANCE FAQ](https://earthdata.nasa.gov/faq/lance-faq#ed-CRvsSR)
+References: [NASA Earthdata - Creating Reprojected True Color MODIS Images: A Tutorial](https://earthdata.nasa.gov/s3fs-public/2022-02/MODIS_True_Color.pdf); [NASA Earthdata - LANCE FAQ](https://earthdata.nasa.gov/faq/lance-faq#ed-CRvsSR)
 
 NOTE: We are reprocessing the entire MODIS Land imagery archive to collection 6.1 but currently the imagery is a mix of collection 6 and collection 6.1. Most of the imagery from mid-May 2021 onwards is collection 6.1 and older imagery is collection 6.

config/default/common/config/metadata/layers/modis/terra/LandSurfaceReflectance.md

@@ -1,6 +1,6 @@
 ### MODIS Corrected Reflectance vs. MODIS Surface Reflectance
 The MODIS Corrected Reflectance algorithm utilizes MODIS Level 1B data (the calibrated, geolocated radiances). It is not a standard, science quality product. The purpose of this algorithm is to provide natural-looking images by removing gross atmospheric effects, such as Rayleigh scattering, from MODIS visible bands 1-7. The algorithm was developed by the original MODIS Rapid Response team to address the needs of the fire monitoring community who want to see smoke. Corrected Reflectance shows smoke more clearly than the standard Surface Reflectance product. In contrast, the MODIS Land Surface Reflectance product (MOD09) is a more complete atmospheric correction algorithm that includes aerosol correction, and is designed to derive land surface properties. In clear atmospheric conditions the Corrected Reflectance product is very similar to the MOD09 product, but they depart from each other in presence of aerosols. If you wish to perform a complete atmospheric correction, please do not use the Corrected Reflectance algorithm. An additional difference is that the Land Surface Reflectance product is only tuned for calculating the reflectance over land surfaces.
 
-References: MOD02QKM [doi:10.5067/MODIS/MOD02QKM.061](https://doi.org/10.5067/MODIS/MOD02QKM.061); MOD02HKM [doi:10.5067/MODIS/MOD02HKM.061](https://doi.org/10.5067/MODIS/MOD02HKM.061); MOD021KM [doi:10.5067/MODIS/MOD021KM.061](https://doi.org/10.5067/MODIS/MOD021KM.061); MYD02QKM [doi:10.5067/MODIS/MYD02QKM.061](https://doi.org/10.5067/MODIS/MYD02QKM.061); MYD02HKM [doi:10.5067/MODIS/MYD02HKM.061](https://doi.org/10.5067/MODIS/MYD02HKM.061); MYD021KM [doi:10.5067/MODIS/MYD021KM.061](https://doi.org/10.5067/MODIS/MYD021KM.061); [NASA Earthdata - Creating Reprojected True Color MODIS Images: A Tutorial](https://www.earthdata.nasa.gov/s3fs-public/2022-02/MODIS_True_Color.pdf); [NASA Earthdata - LANCE FAQ](https://earthdata.nasa.gov/faq/lance-faq#ed-CRvsSR)
+References: MOD02QKM [doi:10.5067/MODIS/MOD02QKM.061](https://doi.org/10.5067/MODIS/MOD02QKM.061); MOD02HKM [doi:10.5067/MODIS/MOD02HKM.061](https://doi.org/10.5067/MODIS/MOD02HKM.061); MOD021KM [doi:10.5067/MODIS/MOD021KM.061](https://doi.org/10.5067/MODIS/MOD021KM.061); MYD02QKM [doi:10.5067/MODIS/MYD02QKM.061](https://doi.org/10.5067/MODIS/MYD02QKM.061); MYD02HKM [doi:10.5067/MODIS/MYD02HKM.061](https://doi.org/10.5067/MODIS/MYD02HKM.061); MYD021KM [doi:10.5067/MODIS/MYD021KM.061](https://doi.org/10.5067/MODIS/MYD021KM.061); [NASA Earthdata - Creating Reprojected True Color MODIS Images: A Tutorial](https://earthdata.nasa.gov/s3fs-public/2022-02/MODIS_True_Color.pdf); [NASA Earthdata - LANCE FAQ](https://earthdata.nasa.gov/faq/lance-faq#ed-CRvsSR)
 
 NOTE: We are reprocessing the entire MODIS Land imagery archive to collection 6.1 but currently the imagery is a mix of collection 6 and collection 6.1. Most of the imagery from mid-May 2021 onwards is collection 6.1 and older imagery is collection 6.

config/default/common/config/metadata/stories/flood-product/step001.md

@@ -1 +1 @@
-The MODIS Near Real-Time (NRT) Global Flood Product ([MCDWD](https://www.earthdata.nasa.gov/learn/find-data/near-real-time/modis-nrt-global-flood-product)) provides a daily global map of optically observed flooding. It is derived from the NRT MODIS Surface Reflectance (MOD09) datasets from both the Terra and Aqua satellites. Note that this product cannot detect water under persistent cloud cover.
+The MODIS Near Real-Time (NRT) Global Flood Product ([MCDWD](https://earthdata.nasa.gov/learn/find-data/near-real-time/modis-nrt-global-flood-product)) provides a daily global map of optically observed flooding. It is derived from the NRT MODIS Surface Reflectance (MOD09) datasets from both the Terra and Aqua satellites. Note that this product cannot detect water under persistent cloud cover.

config/default/common/config/wv.json/stories/default/flood-product.json

@@ -10,11 +10,11 @@
       "readMoreLinks": [
         {
           "title": "Earthdata - MODIS NRT Global Flood Product",
-          "link": "https://www.earthdata.nasa.gov/learn/find-data/near-real-time/modis-nrt-global-flood-product"
+          "link": "https://earthdata.nasa.gov/learn/find-data/near-real-time/modis-nrt-global-flood-product"
         },
         {
           "title": "Earthdata - Near Real-Time MODIS Global Flood Product Now Available from NASA’s LANCE",
-          "link": "https://www.earthdata.nasa.gov/learn/articles/lance-nrt-global-flood"
+          "link": "https://earthdata.nasa.gov/learn/articles/lance-nrt-global-flood"
         }
       ],
       "steps": [

doc/embed.md

@@ -1,6 +1,6 @@
 ## Create an Embedded Worldview
 
-NOTE: Worldview embedding on non-NASA sites is disabled by default; please contact us at [support@earthdata.nasa.gov](mailto:support@earthdata.nasa.gov?subject=Embed%20Worldview) to request the ability to enable embedding on your site.
+NOTE: Worldview embedding on non-NASA sites is disabled by default; please contact us at [earthdata-[email protected]](mailto:earthdata-[email protected]?subject=Embed%20Worldview) to request the ability to enable embedding on your site.
 
 To embed NASA Worldview into a web page, StoryMap, or other web-based product, use the following steps: