S43D-2818
Real-Time Science on Social Media: The Example of Twitter in the Minutes, Hours, Days after the 2015 M7.8 Nepal Earthquake

Thursday, 17 December 2015
Poster Hall (Moscone South)
Anthony Lomax, ALomax Scientific, Mouans-Sartoux, France, Remy Bossu, CEA Commissariat à l'Energie Atomique DAM, Arpajon Cedex, France and Gilles Mazet-Roux, CSEM, Paris, France
Abstract:
Scientific information on disasters such as earthquakes typically comes firstly from official organizations, news reports and interviews with experts, and later from scientific presentations and peer-reviewed articles. With the advent of the Internet and social media, this information is available in real-time from automated systems and within a dynamic, collaborative interaction between scientific experts, responders and the public.
 
After the 2015 M7.8 Nepal earthquake, Twitter Tweets from earth scientists* included information, analysis, commentary and discussion on earthquake parameters (location, size, mechanism, rupture extent, high-frequency radiation, …), earthquake effects (distribution of felt shaking and damage, triggered seismicity, landslides, …), earthquake rumors (e.g. the imminence of a larger event) and other earthquake information and observations (aftershock forecasts, statistics and maps, source and regional tectonics, seismograms, GPS, InSAR, photos/videos, …).
In the future (while taking into account security, false or erroneous information and identity verification), collaborative, real-time science on social media after a disaster will give earlier and better scientific understanding and dissemination of public information, and enable improved emergency response and disaster management.
* A sample of scientific Tweets after the 2015 Nepal earthquake:
  • In the first minutes: “mb5.9 Mwp7.4 earthquake Nepal 2015.04.25-06:11:25UTC”, “Major earthquake shakes Nepal 8 min ago”, “Epicenter between Pokhara and Kathmandu”, “Major earthquake shakes Nepal 18 min ago. Effects derived from witnesses' reports”.
  • In the first hour: “shallow thrust faulting to North under Himalayas”, “a very large and shallow event ... Mw7.6-7.7”, “aftershocks extend east and south of Kathmandu, so likely ruptured beneath city”, "Valley-blocking landslides must be a very real worry".
  • In the first day: “M7.8 earthquake in Nepal 2hr ago: destructive in Kathmandu Valley and widely felt in India”, "USGS pager v.3 contains initial fatality & economic loss estimates", “analysis of seismic waves … shows fault rupture lasted 80 sec, shaking longer”, “aftershocks suggests rupture zone, directivity and shaking intensity”.