A proposed network of GPS stations in the pan-Caribbean region will aid the monitoring, understanding, and prediction of earthquakes, hurricanes, flooding, volcanoes, and landslides.
Una nueva red expandida de estaciones de GPS en la región del Caribe va a ayudar con el monitoreo, entendimiento, y predicción de terremotos, tsunamis, huracanes, inundaciones, volcanes, y deslizamientos de tierra.
Over eighty million people live in Central America and in the Caribbean Islands, with many people living in the zones of maximum earthquake activity. The warm water and air temperatures of the Carribbean region also produce hurricanes and related heavy rains and landslides which create tremendous problems (see video on Hurricane Mitch, below).
Understanding the factors that control these hazards requires getting more real-time data along earthquake zones and data from the atmosphere over the Caribbean Ocean. COCONet, the Continuously Operating Caribbean GPS Observational Network, will help to do this.
What are the questions scientists ask to better understand and predict earthquakes & tsunamis?
Which questions do they ask to better understand tropical storms and hurricanes?
What Will the COCONet Project Do?
This project will add 50 high-precision permanent GPS stations to 50 existing ones in Caribbean and Caribbean-border nations. These instruments are able to detect millimeter changes in movement of the Earth's crust. Locations are shown in Figure 3. Increasing the density of GPS stations measuring plate motion will help geodesists model questions like those above more accurately.
Although scientists often use UNAVCO's GPS systems to measure tectonic movements in earthquake zones, they can also use the GPS radio frequency signals to estimate how much moisture is available in the atmosphere. Figure 4 shows how GPS moisture data correlates well with sea surface temperature over time.
The aim is to create a pan-Caribbean refernce network, while coordinating and educating regional researchers, governments and agencies, and station operators.
The COCONet Planning Workshop will be held in San Juan, Puerto Rico, February 3-4, 2011. It will serve as the kickoff to the COCONet project, as a forum for determining the siting strategy for the project, and to initiate collaborations with and between Caribbean and Central American nations.
COCONet Proposal: COCONet (Continuously Operating Caribbean GPS Observational Network) - An Infrastructure Proposal for a Multi-hazard Tectonic and Weather Observatory a Collaborative Proposal with UNAVCO, UCAR, Purdue, and University of Puerto Rico, October, 2010.
Nature Geoscience: The November, 2010, issue focuses on the Haiti earthquake of January, 2010, and contains several articles with the most recent science on the geophysics of the Haiti earthquake, disaster management, and related topics.
"Can Hurricanes Trigger Earthquakes" discusses work by Shimon Wdowinski et al. (2010) on the potential impacts of erosion caused by deforestation and hurricanes in Haiti.
Haiti Earthquake, Jan. 12, 2010: a comprehensive website including pages on the scientific response, hazard maps, links, post-earthquake art, and more, by Eric Calais and group at Purdue University.
Build Change is an international non-profit organization that focuses on teaching good building techniques for communities in earthquake zones. They are training over 500 Haitian construction professional to build back better, earthquake-resistant houses. This commitment was made at the Sept. 19, Clinton Global Initiative.
Geohazards International works to reduce death and injury caused by earthquakes by helping vulnerable communities recognize their risks as well as methods to manage them.
Get Notified by a Text Message - when an Earthquake Happens in Your Area by the U.S. Geological Survey.
Haiti's Art After the Quake - posted on the BBC web page.
Helping Out - Read about ways to help the people of Haiti.
Broader Impacts of COCONet
The 2010 Haiti earthquake is the latest and most dramatic example of the impact of poor risk identification (earthquakes neglected in risk analysis), poor mitigation and prevention (no seismic building code), and lack of response capacity (no contingency plans). Situations like this then require vigorous international aid and assistance during and after the event.
Reducing the human and economic losses to natural hazards in the Caribbean and Central America will be aided by COCONet through:
This project will contribute to the education of numerous graduate and undergraduate students in solid Earth, atmospheric, and geodesy fields by providing high-quality GPS data to the Caribbean research science community. Support in the project is included for a RESESS intern through UNAVCO, a SOARS protege through UCAR, and a graduate student at Purdue University.
The National Science Foundation (NSF) has charged UNAVCO and the University Corporation for Atmospheric Research (UCAR) with developing this network with the help of the scientists in the region.
Comments on COCONet
"COCONet has the potential to transform our understanding of seismic and hurricane hazards in the extremely vulnerable Caribbean region, and to support basic research into plate tectonic processes and regional climate change."
"This is a very exciting opportunity for interdisciplinary science, and will provide a regional framework for new discoveries about the fundamental processes that control tectonic and atmospheric unrest."
"By establishing a single unified GPS network spanning the entire region, and by providing freely available, high-quality geodetic and meteorological data to researchers in both the U.S. and the Caribbean region, COCONet will be a major step in advancing Earth science research in this area."
"COCONet has the potential to decrease vulnerability to hurricanes and earthquakes throughout the Caribbean while linking the civil, scientific, governmental and private sectors, integratng research and education, and promoting a culture of sharing data and information."
Figure 2 - Trees off the coast of Haiti drowned when 10 - 30 m of land and 10 m of beach were submerged along 1 km of coastline. Photo credit, Roger Bilham. [Larger image].
Figure 3 - Existing and proposed GPS network design for COCONet. The fifty proposed Caribbean GPS stations are shown in red. Existing GPS stations with a high probablity of getting free and open data access are shown in blue. Stations in yellow are deemed critical for tectonic studies but are not included in this proposal due to difficulties associated with working in Venezuela. [Larger image].
Figure 4 - Time series of GPS derived amtmospheric moisture (or precipitable water, PW, in blue) and sea surface temperatures (or SST, in red) from St. Croix. The strong coupling of SST and PW is evident. [Larger image].
Figure 5 - The GPS velocity field is determined from GPS campaigns before the January 12, 2010, earthquake. The ellipses and error bars show 95% confidence levels. (a) Velocities with respect to the North American plate. (b) Velocities with respect to the Caribbean plate. (c) Velocity profile perpendicular to the plate boundary (coloured circles and one-sigma error bars) and best-fit elastic block model (solid lines). Blue = profile-perpendicular (‘strike-slip’) velocity components; orange = profile-parallel (‘shortening’) velocity components. The profile trace and width are indicated by dashed lines in a and b. Figure from Calais et al. 2010. Transpressional rupture of an unmapped fault during the 2010 Haiti earthquake. Nature Geosciences. 3, 794-799. doi:10.1038/ngeo992. [Larger image].
Figure 6 - A painting by prolific Haitian painter Frantz Sephirin shows a family trapped under the rubble. To emphasize their predicament, he shows that a spider has already spun a web across the opening. Source: BBC website.
Last modified: 2020-01-28 22:54:24 America/Denver