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Service Description: <div style='text-align:Left;'><p><span style='font-weight:bold;'>Dates of Images:</span></p><p><span>Post-Event: November 3, 2025</span></p><p><span>Pre-Event: October 20, 2025</span></p><p><span style='font-weight:bold;'>Date of Next Image:</span></p><p><span>Unknown</span></p><p><span style='font-weight:bold;'>Summary:</span></p><p><span>Normalized Differential Vegetation Index (NDVI) maps are produced by converting pixel values to NDVI = (Red – NIR)/(Red + NIR), NIR indicates the near infrared band. The dynamically generated Normalized Difference Vegetation Index (NDVI) layer is an index for quantifying green vegetation. It reflects the state of vegetation health based on how vegetation reflects light at certain wavelengths.</span></p><p><span>NDVI change was created by subtracting the cloud-masked post-event NDVI from the cloud-masked pre-event NDVI to show areas of potentially impacted vegetation as negative values (darker shades) and healthy/unimpacted vegetation in positive values (lighter shades). NDVI change can give insights to impacts from an event (like the scouring of vegetation from the riverbeds) but can also show changes in unrelated areas like the clearing of agriculture fields.</span></p><p><span>This layer is a binary NDVI change polygon (threshold of areas where NDVI decreased by -0.25 or more) for November 2, 2025 as compared to October 20, 2025.</span></p><p><span style='font-weight:bold;'>Suggested Use:</span></p><p><span>NDVI change: Commonly used to distinguish healthy/active vegetation (positive values) from potentially unhealthy/impacted vegetation (negative values). This map shows a binary flag where NDVI decreased.</span></p><p><span style='font-weight:bold;'>Satellite/Sensor:</span></p><p><span>MultiSpectral Instrument (MSI) on European Space Agency's (ESA) Copernicus Sentinel-2A/2B satellites</span></p><p><span style='font-weight:bold;'>Resolution:</span></p><p><span>30 meters</span></p><p><span style='font-weight:bold;'>Credits</span><span>:</span></p><p><span>NASA/MSFC, USGS</span></p><p><span style='font-weight:bold;'>Esri REST Endpoint:</span></p><p><span>See URL section on right side of page</span></p><p><span><b>WMS Endpoint:</b></span></p><p><a href='https://gis.earthdata.nasa.gov/gis05/services/DISASTERS_202510_HURRICANE_MELISSA/landsat_bNDVI/MapServer/WMSServer' target='_blank'>https://gis.earthdata.nasa.gov/gis05/services/DISASTERS_202510_HURRICANE_MELISSA/landsat_bNDVI/MapServer/WMSServer</a></p></div>

Map Name: landsat_bNDVI

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Layers:

• Binary NDVI Change (October 20, 2025-November 3, 2025) [AOI 1] (0)
• Binary NDVI Change (October 20, 2025-November 3, 2025) [AOI 2] (1)

Description: Dates of Images:Post-Event: November 3, 2025Pre-Event: October 20, 2025Date of Next Image:UnknownSummary:Normalized Differential Vegetation Index (NDVI) maps are produced by converting pixel values to NDVI = (Red – NIR)/(Red + NIR), NIR indicates the near infrared band. The dynamically generated Normalized Difference Vegetation Index (NDVI) layer is an index for quantifying green vegetation. It reflects the state of vegetation health based on how vegetation reflects light at certain wavelengths.NDVI change was created by subtracting the cloud-masked post-event NDVI from the cloud-masked pre-event NDVI to show areas of potentially impacted vegetation as negative values (darker shades) and healthy/unimpacted vegetation in positive values (lighter shades). NDVI change can give insights to impacts from an event (like the scouring of vegetation from the riverbeds) but can also show changes in unrelated areas like the clearing of agriculture fields.This layer is a binary NDVI change polygon (threshold of areas where NDVI decreased by -0.25 or more) for November 2, 2025 as compared to October 20, 2025.Suggested Use:NDVI change: Commonly used to distinguish healthy/active vegetation (positive values) from potentially unhealthy/impacted vegetation (negative values). This map shows a binary flag where NDVI decreased.Satellite/Sensor:MultiSpectral Instrument (MSI) on European Space Agency's (ESA) Copernicus Sentinel-2A/2B satellitesResolution:30 metersCredits:NASA/MSFC, USGSEsri REST Endpoint:See URL section on right side of pageWMS Endpoint:https://gis.earthdata.nasa.gov/gis05/services/DISASTERS_202510_HURRICANE_MELISSA/landsat_bNDVI/MapServer/WMSServer

Service Item Id: 6c25ce3a7f984db3a45ec96ac4aa26f7

Copyright Text: NASA/MSFC, USGS

Spatial Reference: 32618  (32618)  LatestVCSWkid(0)


Single Fused Map Cache: false

Initial Extent:

XMin: 183641.72633344485
YMin: 1984449.0357196014
XMax: 206690.33607524182
YMax: 2006994.2850187616
Spatial Reference: 32618  (32618)  LatestVCSWkid(0)

Full Extent:

XMin: 138175.888729737
YMin: 1883989.39812214
XMax: 316495.888729737
YMax: 2054149.39812214
Spatial Reference: 32618  (32618)  LatestVCSWkid(0)

Units: esriMeters

Supported Image Format Types: PNG32,PNG24,PNG,JPG,DIB,TIFF,EMF,PS,PDF,GIF,SVG,SVGZ,BMP

Document Info:

Title: landsat_bNDVI
Author:
Comments: Dates of Images:Post-Event: November 3, 2025Pre-Event: October 20, 2025Date of Next Image:UnknownSummary:Normalized Differential Vegetation Index (NDVI) maps are produced by converting pixel values to NDVI = (Red – NIR)/(Red + NIR), NIR indicates the near infrared band. The dynamically generated Normalized Difference Vegetation Index (NDVI) layer is an index for quantifying green vegetation. It reflects the state of vegetation health based on how vegetation reflects light at certain wavelengths.NDVI change was created by subtracting the cloud-masked post-event NDVI from the cloud-masked pre-event NDVI to show areas of potentially impacted vegetation as negative values (darker shades) and healthy/unimpacted vegetation in positive values (lighter shades). NDVI change can give insights to impacts from an event (like the scouring of vegetation from the riverbeds) but can also show changes in unrelated areas like the clearing of agriculture fields.This layer is a binary NDVI change polygon (threshold of areas where NDVI decreased by -0.25 or more) for November 2, 2025 as compared to October 20, 2025.Suggested Use:NDVI change: Commonly used to distinguish healthy/active vegetation (positive values) from potentially unhealthy/impacted vegetation (negative values). This map shows a binary flag where NDVI decreased.Satellite/Sensor:MultiSpectral Instrument (MSI) on European Space Agency's (ESA) Copernicus Sentinel-2A/2B satellitesResolution:30 metersCredits:NASA/MSFC, USGSEsri REST Endpoint:See URL section on right side of page
Subject: Binary NDVI (Landsat) for Hurricane Melissa October 2025
Category:
Keywords: NASA,NASA Disasters Program,Landsat,Landsat 8 Landsat 9,United States,Jamaica,Hurricane Melissa,Hurricane,Flooding,NDVI
AntialiasingMode: Fast
TextAntialiasingMode: Force

Supports Dynamic Layers: true

Resampling: false

MaxRecordCount: 2000

MaxSelectionCount: 2000

MaxImageHeight: 4096

MaxImageWidth: 4096

Supported Query Formats: JSON, geoJSON, PBF

Supports Query Data Elements: true

Min Scale: 0

Max Scale: 0

Supports Datum Transformation: true



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