By John Pike, director, GlobalSecurity.org (www.globalsecurity.org), Alexandria, Va.

On Dec. 26, 2004, a magnitude 9.0 earthquake off the coast of Sumatra triggered dozens of massive aftershocks northward along the Andaman and Nicobar Islands, spawning the massive tsunami waves that shattered tourist resorts and seaside communities from Thailand to East Africa. The initial shock was the world’s fourth largest earthquake since 1900, and the largest in more than 40 years. With the human death toll surpassing 200,000, the event is one of the deadliest natural disasters in modern history.

The catastrophe’s true magnitude gradually unfolded during the following days. The devastation along the coastal areas of the Indonesian island of Sumatra, closest to the initial shock, was guaranteed. Destruction was so complete that for the first few days there was only silence from these areas. Then the world slowly began to grasp the true magnitude of the calamity. As in the past, news organizations dispatched their reporters and cameras to the scene, and their audiences saw familiar scenes of mangled buildings and lives.

But some of the first glimpses of affected areas were provided by high-resolution commercial satellites, which arrived much sooner than their earthbound counterparts. During the days and weeks that followed, the Indian Ocean tsunami became one of the most intensely observed events of modern times. Satellite operators across the globe devoted collection resources to the relief effort, and imagery exploitation enterprises around the world devoted unprecedented resources to the task at hand. The imagery vividly illustrated the tsunami’s human, social and environmental toll. The result was a remarkable snapshot of a major world event compiled by an astonishingly diverse community that was only a distant dream a decade ago.
 

A First Glimpse
At 10:20 a.m. in Sri Lanka on Dec. 26, a few hours after the earthquake and just moments after the tsunami impact, DigitalGlobe’s QuickBird satellite captured a stunning image of the southwestern coast of Sri Lanka. The image showed high water at least one kilometer inland of the Kalutara resort area, revealing churning ocean movements resulting from the receding water. On Dec. 28, DigitalGlobe’s public relations team issued an e-mail alert about the image’s availability to international media. Within hours, the image appeared on Web sites and in news reports around the globe, prompting dozens of relief organizations to request the image for mapping and damage-assessment purposes.

Others approached the image from a different perspective. Mohamed Faizeen, manager of
the Centre for Islamic Studies in Colombo, Sri Lanka, saw the hand of Allah in the
tsunami, specifically in the churning waves it spawned near Kalutara. “This clearly spells out the name ‘Allah’ in Arabic,” says Faizeen. Indeed, only slight imagination was required to follow his venture into imagery interpretation.
 

DigitalGlobe continued to collect imagery of the hardest hit areas in the Indian Ocean region and, on Dec. 29, issued another image alert showing Banda Aceh, Indonesia, at the earthquake’s epicenter. Showing a markedly changed shoreline, where floods reached further than three kilometers inland, as well as large piles of debris and severely damaged or obliterated buildings, this imagery—aided by “before” shots taken in June 2004—gave the world a visual understanding of the event’s unthinkable devastation.

Again, widely differing perspectives derived vastly different meanings from the same images. Wrote Jonathan Schell, peace and disarmament correspondent for The Nation and author of the 1982 best-seller The Fate of the Earth (a book about nuclear war that galvanized millions), “As would happen in a nuclear war, villages and small cities were scoured from the face of the earth. ‘Before’ and ‘after’ satellite photographs even showed the erasure of geographic features of the landscape. … Like photographs of bombing damage, the before photos showed the fine articulation of human cultivation and dwelling—in this case, a salad of greenery laced with lines of red tile roofs and roads—and the after pictures were a smear of browns.”

Writing a few days later on www.aljazeerah.info, Kaleem Hussain remarked, “ … in Indonesia … vast terrain has been destroyed only to find a mosque where the praise of the Divine is mentioned standing unscathed by destruction that has traveled from one subcontinent to another. This links succinctly with the story of Noah’s Ark and how the community of the prophet were saved at that time.”

 

NGA used its commercial satellite imagery contracts to fulfill customer requests for information on the scope of the damage. OFDA and USPACOM used the products to determine the priorities for emergency relief efforts, and where life-supporting supplies and personnel needed to be deployed. NGA also assessed impacts to infrastructure, particularly damage to roads, bridges, ports and airfields. The assessment of how the damage affected access to the damaged areas helped the U.S. Transportation Command (USTRANSCOM) and others provide assistance in the region.

• Within hours of the tsunami, the U.S. Geological Survey National Center for Earth Resources Observation and Sciences (EROS) began providing relief organizations worldwide with pre- and post-tsunami satellite images, as well as image-derived products that incorporate information on population density, elevation and other relevant topics. Responding to the urgent needs of governments and service organizations, these products were placed in an easily accessible Web site to help relief organizations make practical, well-informed decisions as to where relief efforts are most urgently needed and how best to carry out those efforts.

USGS provided population distribution map books that were updated with pages listing the numbers of potentially affected people, assuming tsunami impact heights of 5, 10 and 15 meters, with summaries by administrative unit. The population data are based on Landscan 2003 data from Oak Ridge National Laboratory. The elevation data are based on the Shuttle Radar Topography Mission (SRTM) 90-meter digital elevation model. These maps portrayed different scenarios based on possible tsunami impact heights. The exact level of impact wasn’t known when the maps were made, so the different scenarios didn’t necessarily represent the actual situation on the ground. The maps were used as tools for informed users with the understanding that impact heights may vary along coasts of a region.
 

• The “International Charter for Space and Major Disasters” was activated in response to several calls to ensure acquisition of satellite data over the areas hit by the tsunami. Extensive coverage of the disaster by the European Space Agency’s Envisat and ERS satellites was planned until the end of January, and data acquisition from the agency’s PROBA experimental satellite occurred Jan. 1-4. In solidarity with the tsunami-affected countries and on UNOSAT’s request, CERN made available the infrastructure for its Imagery Bank at no cost.
 

• From Eurimage, all QuickBird imagery acquired over the areas affected by the tsunami, both before and after Dec. 26, was made available to institutional, governmental and nonprofit organizations involved in disaster recovery at a 30 percent discount. Due to the unprecedented demand, bandwidth problems surfaced at both EiNet and DigitalGlobe, and catalog users initially experienced difficulties.

• Taiwan pledged support in various ways. The country’s FORMOSAT-2 satellite, launched in May 2004, was among the first to successfully acquire images of Thailand’s Phuket Island and Banda Aceh, Indonesia—two of the most heavily hit areas—and download the data to its ground station in Hsinchu City, Taiwan. Working with researchers at several Asian universities, Taiwan’s National Space Program Office (NSPO) immediately processed the images and provided them to aid rescuers in those areas. FORMOSAT-2 continued to collect imagery of seriously affected areas, and NSPO provided the imagery to the affected countries for free.

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