EMAG2v3_color_relief_webmercator (Map Service)
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Current Version: 10.81
Service Description: EMAG2v3: the Earth Magnetic Anomaly Grid (2 arc-minute resolution), version 3 is compiled from
satellite,
ship, and airborne magnetic measurements. Magnetic anomalies result from geologic features enhancing or depressing the local magnetic field. These maps increase knowledge of subsurface structure and composition of the Earth's crust. Global magnetic anomaly grids are used for resource exploration, navigation where GPS is unavailable (submarine, directional drilling, etc.), and for studying the evolution of the lithosphere.
The 2017 release of the EMAG2v3 utilizes updated precompiled grids and a revised process for accurately incorporating the long-wavelength anomalies, as modeled by the satellite-based MF7 lithospheric field model. It is an update from the previous EMAG2v3 released by NCEI in 2016. EMAG2v3 further differs from the previous
EMAG2 (version 2), which relied on an ocean age model to interpolate anomalies into non-existent data areas and on the earlier MF6 model. EMAG2v3 relies solely on the data available. As a result, EMAG2v3 better represents the complexity of these anomalies in oceanic regions and accurately reflects areas where no data has been collected. The current version reports anomalies in two ways:
- A consistent altitude of 4 km (referred to as Upward Continued)
- Anomaly altitude at Sea Level
This tile layer displays a color relief image of the EMAG2v3 (Upward Continued) rendered with a "hillshade" effect to simulate a 3D surface. A coastline is also provided for reference. The magnetic anomaly values in nanotesla (nT) are displayed using the color ramp below:
The EMAG2 dataset illustrates Earth evolution (plate tectonics and crustal interaction with the deep mantle). Distinct patterns and magnetic signatures are attributed to the formation (seafloor spreading) and destruction (subduction zones) of oceanic crust, and the formation of continental crust by accretion of various terranes to cratonic areas and large scale volcanism (both on continents and oceans).
- Magnetization is weaker at the equator and stronger at high latitudes, reflecting the strength of the ambient geomagnetic field, which induces magnetization in rocks
- Stripes of alternating magnetization in the oceans are due to sea floor spreading and the alternating polarity of the geomagnetic field
- Very old crust (North American Shield, Baltic Shield, Siberian Craton) have strongest magnetization, seen as dark shades of purple and blue
There are four related ArcGIS services providing access to EMAG2v3:
Map Name: EMAG2v3_color_relief_webmercator
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Description: EMAG2v3: the Earth Magnetic Anomaly Grid (2 arc-minute resolution), version 3 is compiled from
satellite,
ship, and airborne magnetic measurements. Magnetic anomalies result from geologic features enhancing or depressing the local magnetic field. These maps increase knowledge of subsurface structure and composition of the Earth's crust. Global magnetic anomaly grids are used for resource exploration, navigation where GPS is unavailable (submarine, directional drilling, etc.), and for studying the evolution of the lithosphere.
The 2017 release of the EMAG2v3 utilizes updated precompiled grids and a revised process for accurately incorporating the long-wavelength anomalies, as modeled by the satellite-based MF7 lithospheric field model. It is an update from the previous EMAG2v3 released by NCEI in 2016. EMAG2v3 further differs from the previous
EMAG2 (version 2), which relied on an ocean age model to interpolate anomalies into non-existent data areas and on the earlier MF6 model. EMAG2v3 relies solely on the data available. As a result, EMAG2v3 better represents the complexity of these anomalies in oceanic regions and accurately reflects areas where no data has been collected. The current version reports anomalies in two ways:
- A consistent altitude of 4 km (referred to as Upward Continued)
- Anomaly altitude at Sea Level
This tile layer displays a color relief image of the EMAG2v3 (Upward Continued) rendered with a "hillshade" effect to simulate a 3D surface. A coastline is also provided for reference. The magnetic anomaly values in nanotesla (nT) are displayed using the color ramp below:
The EMAG2 dataset illustrates Earth evolution (plate tectonics and crustal interaction with the deep mantle). Distinct patterns and magnetic signatures are attributed to the formation (seafloor spreading) and destruction (subduction zones) of oceanic crust, and the formation of continental crust by accretion of various terranes to cratonic areas and large scale volcanism (both on continents and oceans).
- Magnetization is weaker at the equator and stronger at high latitudes, reflecting the strength of the ambient geomagnetic field, which induces magnetization in rocks
- Stripes of alternating magnetization in the oceans are due to sea floor spreading and the alternating polarity of the geomagnetic field
- Very old crust (North American Shield, Baltic Shield, Siberian Craton) have strongest magnetization, seen as dark shades of purple and blue
There are four related ArcGIS services providing access to EMAG2v3:
Copyright Text: NOAA National Centers for Environmental Information (NCEI)
Spatial Reference:
102100
Single Fused Map Cache: true
Capabilities: Map,TilesOnly
Tile Info:
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- Width: 256
- DPI: 96
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- Format: JPEG
- Compression Quality: 90
- Origin:
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Y: 2.0037508342787E7
- Spatial Reference:
102100
Initial Extent:
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YMin: -2.1969270783811178E7
XMax: 2.204125917705012E7
YMax: 2.196896503571288E7
Spatial Reference:
102100
Full Extent:
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Spatial Reference:
102100
Min Scale: 5.91657527591555E8
Max Scale: 2311162.217155
Min LOD: 0
Max LOD: 8
Units: esriMeters
Supported Image Format Types: JPEG
Export Tiles Allowed: false
Max Export Tiles Count: 100000
Document Info:
- Title: EMAG2v3: Earth Magnetic Anomaly Grid (Color Hillshade Image)
- Author: ncei_noaa
- Comments:
- Subject: Color hillshade visualization of the global magnetic anomaly grid from NOAA's National Centers for Environmental Information (NCEI), giving insight into the subsurface structure and composition of the Earth's crust.
- Category:
- Keywords: EMAG2, geomagnetism, magnetic anomaly, magnetism, magnetic model, geology, NOAA, NCEI, EMAG2v3