Photo #: ISS047-E-23405 Date: Mar. 2016 Geographic Region: NAMIBIA Feature: PUBLIC INPUTS |
Linear Dunes, Namib Sand Sea An astronaut aboard the International Space Station (ISS) used a long lens to document what crews have termed one of the most spectacular features of the planet: the dunes of the Namib Sand Sea. Looking inland (from an ISS position over the South Atlantic) near sunset, the highest linear dunes show smaller linear dunes riding along their crests. Linear dunes are generally aligned parallel to the formative wind - in this case, strong winds from the south. Southerly winds explain the parallel north-aligned linear dunes on the left side of the image. But this simple pattern is disrupted near the Tsondab valley. The valley acts as a funnel for winds from the east. These less frequent but strong winter winds are channeled down the valley and usually carry large amounts of sand, similar to the Santa Ana winds in California. These strong easterly winds significantly deflect all the linear dunes near the valley so that they point downwind (image center). Further inland (right), the north-pointing and west-pointing patterns appear superimposed, making a rectangular pattern. Because the Namib Desert is very old - dating from the time when the cold, desert-forming Benguela ocean current started to flow about 37 million years ago - wind patterns and dune patterns have shifted over time. North-oriented dunes have shifted north and east with drier climates and stronger winds, overriding but not removing earlier dune chains and making the rectangular dune network we see today. The Tsondab River is a well-known Namib Desert river because it is blocked by linear dunes (just outside the left margin of the image) 100 kilometers (60 miles) from the Atlantic Ocean. Research has shown that during wetter times, it did reach the ocean. The name Tsondab means "that which is running is suddenly stopped" in the local Khoisan language. Along the edge of the dune-free Tsondab River valley, we can see star dunes, which are smaller and display multiple arms (top left). |
Images: | All Available Images Low-Resolution 267k |
|
Mission: | ISS047 |
|
Roll - Frame: | E - 23405 |
|
Geographical Name: | NAMIBIA |
|
Features: | PUBLIC INPUTS |
|
Center Lat x Lon: | 24.1S x 15.7E |
|
Film Exposure: | N=Normal exposure, U=Under exposed, O=Over exposed, F=out of Focus |
|
Percentage of Cloud Cover-CLDP: | 10 |
|
Camera:: | N6 |
|
Camera Tilt: | 39 | LO=Low Oblique, HO=High Oblique, NV=Near Vertical |
Camera Focal Length: | 500 |
|
Nadir to Photo Center Direction: | S | The direction from the nadir to the center point, N=North, S=South, E=East, W=West |
Stereo?: | Y=Yes there is an adjacent picture of the same area, N=No there isn't |
|
Orbit Number: | |
|
Date: | 20160327 | YYYYMMDD |
Time: | 162354 | GMT HHMMSS |
Nadir Lat: | 21.1S |
Latitude of suborbital point of spacecraft |
Nadir Lon: | 15.4E |
Longitude of suborbital point of spacecraft |
Sun Azimuth: | 276 | Clockwise angle in degrees from north to the sun measured at the nadir point |
Space Craft Altitude: | 219 | nautical miles |
Sun Elevation: | 8 | Angle in degrees between the horizon and the sun, measured at the nadir point |
Land Views: | |
|
Water Views: | |
|
Atmosphere Views: | |
|
Man Made Views: | |
|
City Views: | |
|
Photo is not associated with any sequences |
NASA Home Page |
JSC Home Page |
JSC Digital Image Collection |
Earth Science & Remote Sensing |
|