Wiki Display Wiki Display

GOES-R 0.86 um (Channel 3)

GOES-R ABI Fact Sheet Band 3 (The "Vegetation" Near-Infrared Band)

The “need to know” Advanced Baseline Imager reference guide for the NWS forecaster

By: The Cooperative Institute for Meteorological Satellite Studies (CIMSS)

 

 

The 0.86 μm band (a near-infrared or “reflective” band), along with the 0.64 μm (“red”) ABI Band 2, will be used for detecting daytime clouds, fog, and aerosols and for calculating a normalized difference vegetation index (NDVI), hence its nickname the “vegetation” (or “veggie”) band. This band can help in determining vegetation index and green vegetation fraction, although these are not baseline products. The lone current GOES visible channel does not effectively delineate burn scars. Thus, this ABI band has potential for detecting forest regrowth patterns, etc. Also, given that vegetated land, in general, shows up brighter in this band, it can be used for monitoring Image Navigation and Registration (INR). This band is also useful to simulate a “green” band needed for a “natural color” image from the ABI.
The 0.86 μm band can be used in assessing land characteristics when determining fire and flood potential. For example, following significant fire damage, water is more likely to run off, and less likely to be absorbed into the soil surface, hence decreasing the amount of rain needed to produce flooding, dangerous landslides and debris flows.
Source: Schmit et al., 2005 in BAMS, Miller et al. 2012 and the ABI Weather Event Simulator (WES) Guide by CIMSS.

 

Figure 1: Simulated image of ABI band 3 for Hurricane Katrina. This image was simulated via a combination of high spatial resolution numerical model runs and advanced “forward” radiative transfer models. (Credit: CIMSS)

 

In a Nutshell:
GOES-R ABI Band 3 (approximately 0.86 μm central, 0.85 μm to 0.88 μm)
Also similar to the AVHRR Band 2, Suomi NPP VIIRS Band I2/M7, EUMETSAT SEVIRI Band 2 and Himawari-8/9 AHI Band 4
New for GOES-R series, not available on current GOES
Nickname:
"Vegetation" band
Availability:
Daytime only
Primary Purpose:
Vegetation
Uses Similar to:
None

Table 1: Overview of the 0.86 μm channel

 

Figure 2: The Suomi NPP satellite VIIRS instrument M7 Band (0.865 μm) is shown at two times. On the left is before (August 13, 2013) and on the right is after (August 30, 2013) the California Rim Fire. Note the smoke plume and pyrocumulus along the periphery of the dark burn scar near the center of the image on the right, and the large burn scar just to the west of the smoke plume. Credit: SSEC

 

Did You Know? The spectral width of the ABI vegetation band is narrower than that on heritage instruments such as AVHRR. This means that the ABI band does not include a water vapor absorption feature that complicates the estimating of the surface features. Stated another way, if the NDVI changes in the GOES-R era, it is more likely due to vegetation changes, and not variable atmospheric water vapor. A very similar spectral band is on the Japan Meteorological Agency’s Advanced Himawari Imager (AHI).

 

GOES-R Baseline Product Used?
Aerosol Detection x
Aerosol Optical Depth x
Clear Sky Mask  
Cloud & Moisture Imagery  
Cloud Optical Depth  
Cloud Particle Size Distribution  
Cloud Top Phase  
Cloud Top Height  
Cloud Top Pressure  
Cloud Top Temperature  
Hurricane Intensity  
Rainfall Rate / QPE  
Legacy Vertical Moisture Profile  
Legacy Vertical Temperature Profile  
Derived Stability Indices  
Total Precipitable Water  
Downward Shortwave Radition: Surface x
Reflected Shortwave Radiation: TOA x
Derived Motion Winds  
Fire / Hot Spot Characterization  
Land Surface Temperature  
Snow Cover x
Sea Surface Temperature  
Volcanic Ash: Detection & Height  
Radiances x

Table 2: List of GOES-R baseline products that use the 0.86 μm channel

 

Ward's Words: While the vegetation band has a legacy on NOAA’s polar-orbiting satellites, it was not until I viewed recent imagery from the new Himawari satellite that I realized the potential of this band from geostationary orbit. Due to the high reflectance of vegetative surfaces and relative low reflectance of water in this near-infrared band, the contrast between land and water is extremely sharp, especially when coupled with the 1 km spatial resolution at nadir.
In the Pacific Basin, the sharp contrast will make it easy to identify small islands and atolls. Another benefit of this contrast is the ability to monitor coastal inundation and other flooding, especially when viewed in a time animation. In the future, it is possible that this band would contribute to a flood/standing water product. The enhanced reflectance contrast, while maintaining the high reflectance from clouds and snow similar to visible imagery, will likely make the vegetation band a potential replacement to the visible band as a quick reference for surface and land features amongst forecasters.

Bill “Hima-Ward-i” Ward is the ESSD Chief in NWS Pacific Region and a former Guam forecaster.

 

Figure 3: AHI 0.86 μm image from January 25, 2015, showing clouds and land features.

 

Tim's Topics: Each of the spectral bands on the ABI has a “champion.” This person might have suggested it be included on the ABI to better fulfill the various requirements. Or this might have been a band on the first satellites, and hence the champion might be Vern Suomi. The champion for the 0.86 μm ABI band was the late Nagaraja Rao of the NOAA NESDIS research office. In his email from late 1999, he stated “I believe we can increase the usefulness of the ABI very appreciably if we replace the proposed very broad visible channel with two channels in the visible and near-infrared.” This was the beginning of Band 3 (0.86 μm) on the ABI. The idea was further bolstered when it was approved by the NOAA research council.
Tim Schmit is a research meteorologist with NESDIS in Madison, Wisconsin.

 

Figure 4: ABI (blue shaded curves) and SEVIRI (gray curves) spectral response functions. Note that SEVIRI has a vegetation band, although with a different spectral center. Also plotted are spectral curves for dirt and grass. Note the transition between 0.70 and 0.75 μm. Credit: CIMSS, EUMETSAT and the ASTER spectral library

 

ABI Band Approximate Central Wavelength (µm) Band Nickname Type Nominal Sub Satellite Pixel Spacing (km)
2 0.64 "Red" visible band Visible 0.5
3 0.86 "Vegetation" band Near-IR 1.0

Table 3: Comparison of GOES-R channels

 

Further reading
ABI Bands Quick Information Guides: http://www.goes-r.gov/education/ABI-bands-quick-info.html
Vegetation information: http://www.goes-r.gov/products/opt2-vegetation-index.html
Flood/standing water product: http://www.goes-r.gov/products/opt2-flood-standing-water.html
CIMSS Satellite Blog CA Rim Fire: http://cimss.ssec.wisc.edu/goes/blog/archives/13785
GOES-R COMET training: http://www.goes-r.gov/users/training/comet.html
GOES-R acronyms: http://www.goes-r.gov/resources/acronyms.html

 

0 Attachments
2352 Views
Average (0 Votes)
Comments