Earthquakes are the most fatal natural hazard in the Philippines, but although preventing earthquakes is impossible, there are certain steps that can be taken to ensure the loss of life is minimized. Earthquakes happen due to tectonic shifts, and because there are plates pushing under the Philippine Islands from both the East and West, that means that there is significant earthquake activity. Also there is a North-South fault that runs through the center of the archipelago (reference my blog September 12, 2016). Because the plate boundaries to the East and West are under water, this also creates serious risk of earthquake-generated tsunamis. Besides tsunamis, secondary hazards that are triggered by earthquakes in the Philippines include landslides, sinkholes, and volcanic eruptions, making earthquakes one of the most dangerous hazards for Filipinos.
Any earthquake mitigation recommendations would have to include the continual support of PHIVOLCS, the Philippine Institute of Volcanology and Seismology, which monitors seismic activity across the islands, spearheads education and outreach efforts, and issues alert warnings for secondary hazards, such as tsunamis and volcanic eruptions. Two major target areas of earthquake hazard mitigation must include monitoring and infrastructure. Infrastructure includes housing, communication, and disaster preparedness plans, but the area of highest concern is housing. Housing is a major concern because the enforcement of housing codes is nearly non-existent, and studies have shown that cinder block houses, which the majority of homes in the Philippines are, do not have the structural integrity to withstand earthquakes of magnitude 7.0 or higher, and as low as M 4.0 can suffer serious damage. Many cinder block houses (concrete hollow block houses) rarely have re-bar, iron bracing, that not only helps the structure remain upright, but allows a certain amount of flexibility during lateral and horizontal shaking. Many roofs are sub-standard, and collapse, even if the walls remain intact. Many homes have additions, (rooms or extra floors) that were constructed after the original homes were built, often with the help of friends and neighbors without consulting an architect or getting any kind of permit or housing inspection.
This picture from the 7.2 magnitude Bohol earthquake in 2013, shows the collapse of typical concrete hollow block houses in the Central Visayas region. (Photo from India TV News)
Because earthquakes are so common in this area, many homes have some sort of previous earthquake damage, and because of heavy rainfall and typhoon activity many homes also have some storm or flood damage. Because over a quarter of the population of the Philippines lives in poverty, homes are not very well maintained or fixed after being damaged. After floods, for example, they are often cleaned but not repaired, nor are they evaluated for safety. Flood damage often undermines the strength of the foundation, which makes it just that much more vulnerable to future hazards, even small earthquakes. It is likely many people live in homes that are not safe to live in, and if those same houses were in the US they would be condemned.
Since a majority of the islands are mountainous, with narrow to wide coastal areas, there are a lot of slope concerns. The picture below shows a landslide that was caused by a 6.8 earthquake near Cebu and Negros in 2012. This makes the question of where is safe to build your home quite complicated. Many people build in areas that are simply incapable of supporting houses due to soft soil, steep slopes, being too close to flood-prone areas or the coast. (Picture from Egagah blogspot)
From the Map below you can see that the safer areas for avoiding earthquake-induced landslides are denoted in gray. Some of those areas are coastal areas, and are therefore subject to other hazards, such as flooding, storm surge, coastal erosion, tsunami, and typhoons. So the most inland gray areas would be the safest places to build a house in the Philippines. You would still need to figure in soil composition, proximity to faults and to water systems (such as lakes and rivers that may be prone to flooding), and access to roads and other resources. As can be seen from my previous blog, there are faults through out the islands, with the notable exception of the western-most island of Palawan, which unfortunately has little gray area on the Map below apart from coastal areas.
(Map from PHIVOLCS)
One of the other concerns on where to build your house has to do with soil liquefaction, so just when you thought building your home in the gray area above was enough, you also need to look at what areas are gray but not yellow, in the map below (also from PHIVOLCS). You will notice, by comparing these two maps that Palawan is still a pretty good area to build your house.
Although volcanoes have been quite fatal in the Philippines, causing serious long-lasting damage to the environment and economy, typhoons are a more dangerous hazard, and are set to be of greater concern with the warming of the ocean near the Philippine islands. As the ocean warms, this provides additional power and strength to typhoons. The Philippines suffers the most typhoons of any other country in the world, with at least 20 a year, half of which make landfall. The Philippines is located in what is called the typhoon belt, an area with warm ocean temperatures (at depth). The latent heat from the ocean feeds monsoons and mixes with the natural wind currents from the East in the summer creating ideal conditions for typhoon formation.
In 2013, Typhoon Haiyan (Yolanda) was incredibly deadly, necessitating an outpouring of international aid. PAGASA (the Philippine Atmospheric, Geophysical and Astronomical Services Administration) is the weather bureau, and the main monitoring agency for typhoons in the Philippines. They monitor and rate typhoons, issue alerts and warnings, and store data about past events, such as cyclone track charts. (The track of Super-typhoon "Yolanda" below is from PAGASA)
Unfortunately, there is no way to avoid typhoons in the Philippines, they strike all the islands of the archipelago. Reviewing the typhoon tracks data from PAGASA, between 2008-2015 just about every island has been in the path of a typhoon within the last 8 years. Although the majority of the typhoons come from the East, they often pass all the way through the islands, and in some years, even the Western island of Palawan has been hit by the tail end of a typhoon. Some of the secondary hazards from typhoons include storm surges, such as the deadly one at Tacloban in 2013 during typhoon Haiyan (Yolanda), severe flooding, and landslides (again!).
Like earthquakes, typhoons are very common in the Philippines, and this has led to a certain amount of complacency. You live through enough and you tend to take them less seriously. This is particularly a problem when storms are predicted inaccurately. If PAGASA issues an alert for a serious typhoon, and it turns out not to be as bad as they predicted, then people tend to discredit the alerts. Having accurate prediction models, monitoring, and up-to-date alerts that let people know exactly what to expect, will go a long way to ensure trust in the alert system.
As with earthquakes, a problem with typhoons is infrastructure. In the case of typhoons, the two major priority areas are communication and flood control. Communication before, during, and after storm events in critical. Reliable communication and back-up systems are essential in an emergency. Also, since many people are living in housing with no electricity, getting messages to this at-risk population is a serious concern. Television, radio, and the internet are all good sources, and the use of SMS messaging to cell-phones has proven useful for other emergencies such as tsunamis, but not everyone has access to these modes of communication. Since flooding is a severe secondary hazard of typhoons, having a variety of flood control systems should also be a priority. Many flood channels are blocked with debris, and also during the drier months people set up shantytowns on floodplains, which can have disastrous consequences (in 2009 hundreds of people drowned when a shantytown near Manila was flooded by the Marikina river during Typhoon Ondoy, see photo below). The highly populated coastal areas and lake-side areas are particularly vulnerable to flooding. Deforestation up-slope of urban areas only exacerbates the flooding and increases landslide risk.
(Photo from Seattle Globalist)
In summary, the best place to build your home in the Philippines would be the Western island of Palawan, in an area up from the coast, but not in a landslide-prone area. Being a western island, it should get the least amount of typhoon activity, or at least the storms would have lost much of their power while traversing the other islands of the archipelago. Also the southern part of the island seems the most immune from typhoons. With mountains between 1,000 and 2,000 meters, there should be some nice real estate that should survive sea-level rise for several thousand years. And the view out your front door could look something like this:
(Photo from manbos.com)
Nico
References: http://www.phivolcs.dost.gov.ph/, http://www.phivolcs.dost.gov.ph/images/CHB_Test_Briefing_3_0001.mp4, http://www.phivolcs.dost.gov.ph/images/Flyer-How-Safe-Is-Your-House.pdf, https://www.cia.gov/library/publications/the-world-factbook/geos/rp.html, http://www.indiatvnews.com/news/world/philippines-earthquake-death-toll-rises-to-156-14267.html, http://egagah.blogspot.com/2012/02/68-magnitude-earthquake-strikes.html, http://geography.about.com/od/thephilippinesmaps/a/thephilippinesgeography.htm, https://www.usaid.gov/haiyan, https://www.usaid.gov/philippines/humanitarian-assistance, http://www.pagasa.dost.gov.ph/, http://www.pagasa.dost.gov.ph/index.php/tropical-cyclones/annual-tropical-cyclone-tracks, http://www.seattleglobalist.com/2013/11/10/typhoon-haiyan-a-preview-of-calamities-to-come/17715, http://wwf.panda.org/about_our_earth/ecoregions/palawan_moist_forests.cfm, Keller/DeVecchio "Natural Hazards" Pearson (page 199).
Earth's Revenge
Saturday, December 10, 2016
Friday, November 18, 2016
Coastal Hazards in the Philippines
Since the Philippines is made up of thousands of islands, there is a lot
of coastline to deal with. Although the wind and waves are the major factors for coastal erosion, human development and coral reef destruction have also played a significant role. Manila, the capital city, is a coastal city of 2 million people with whole communities (as well as major transportation systems-freeways and highways) at risk of falling into the sea. Coastal erosion, flooding, storm surges,
monsoons, typhoons, and tsunamis are all coastal hazards faced by this
island nation.
(MGB Logo)
The Mining and Geosciences Bureau of the Philippines is responsible for monitoring and reporting on coastal hazards, as well as maintaining coastal hazard maps, establishing danger areas, and determining the causes of erosion events.
In Zambales in 2013, they saw a 80-100 meter section of beach collapse near a resort, decreasing the coastline by about 10 meters in that area. They originally thought it might have been due to a sinkhole, but instead determined it was due to a combination of coastal erosion and an underground river. A danger area was established until they could determine if future instability could cause another collapse.
When looking at the Coastal Hazards Maps available through MGB, much of the data is incomplete. So I'm not sure how useful these maps are. Also the priority seems to be on flooding direction and flooding hazards, rather than erosion issues. Considering the severity of flooding that happens annually near coastal and lakeside areas, it is not surprising that flooding has been the major funding priority.
References: http://www.mgb.gov.ph/, http://www.philstar.com/nation/2013/07/02/960479/mgb-coastal-erosion-caused-zambales-beach-collapse, http://newsinfo.inquirer.net/434379/beach-erosion-in-zambales-caused-by-underground-river-geologists-say, http://www.gmanetwork.com/news/story/314186/news/regions/portion-of-zambales-beach-collapses, http://gdis.denr.gov.ph/mgbpublic/#identify, https://ideas.repec.org/p/eep/pbrief/pb2009082.html
Friday, October 28, 2016
Monsoons - A complex hazard for the Philippines
Monsoons, part of the rainy season cycle in the Philippines, are both a norm and a hazard. Compounded by typhoon activity, which will be explored later, monsoon rains can lead to flooding and landslides.
Monsoons are a natural part of the weather cycle in the Philippines, that have to do with the effect of difference in temperature between the ocean and land on the sea breezes. NOAA monitors global monsoon activity in their Climate Prediction Center. This information on ocean temperatures is available online for anyone to access.
(Table from NOAA)
In the Philippines, there are the summer monsoons (June-November), the "rainy" season, that move westerly and bring heavy drenching rainfall, and there are winter monsoons (December-May) that move easterly, and can bring dry conditions (and sometimes drought). The Philippines has between 70% and 85% humidity, year-round, and there is also rainfall year-round.
(Graphic from Panahon TV and PEGASA)
Monsoon seasons are unpredictable, they can start early or start late, bring too little rain or bring too much. This can create significant problems for growing food and tending livestock, as well as for dealing with the secondary consequences of flooding, mudslides, landslides, and sinkholes.
(Photo from Photos of the Week, Sf.Co.Ua, August 2012)
PAGASA (Philippine Atmospheric, Geophysical and Astronomical Services Administration) is the weather monitoring agency in the Philippines, they issue weather warnings about rain, typhoons, and flooding. They are responsible for forecasting for aviation and marine hazards that could impact transportation and shipping, and they also issue impact assessments for agriculture. They have a rainfall and thunderstorm warning system, on a spectrum of advisory-alert-emergency for rainfall, and information-watch-advisory for thunderstorms, the outreach methods besides their website also include social media and SMS messages to affected areas. There is also a PAGASA app for android phones.
(Photo from Photos of the Week, Sf.Co.Ua, August 2012)
References: http://www.cpc.ncep.noaa.gov/products/Global_Monsoons/Global-Monsoon.shtml, http://www.wrh.noaa.gov/twc/monsoon/monsoon_whatis.pdf, http://www.pagasa.dost.gov.ph/, http://www.pagasa.dost.gov.ph/index.php/climate-of-the-philippines, http://www.pagasa.dost.gov.ph/index.php/agriculture/impact-assessment-for-agriculture, http://www.pagasa.dost.gov.ph/index.php/20-weather/29-rainfall-warnings, http://photo.sf.co.ua/id22
Monsoons are a natural part of the weather cycle in the Philippines, that have to do with the effect of difference in temperature between the ocean and land on the sea breezes. NOAA monitors global monsoon activity in their Climate Prediction Center. This information on ocean temperatures is available online for anyone to access.
(Table from NOAA)
In the Philippines, there are the summer monsoons (June-November), the "rainy" season, that move westerly and bring heavy drenching rainfall, and there are winter monsoons (December-May) that move easterly, and can bring dry conditions (and sometimes drought). The Philippines has between 70% and 85% humidity, year-round, and there is also rainfall year-round.
(Graphic from Panahon TV and PEGASA)
Monsoon seasons are unpredictable, they can start early or start late, bring too little rain or bring too much. This can create significant problems for growing food and tending livestock, as well as for dealing with the secondary consequences of flooding, mudslides, landslides, and sinkholes.
(Photo from Photos of the Week, Sf.Co.Ua, August 2012)
PAGASA (Philippine Atmospheric, Geophysical and Astronomical Services Administration) is the weather monitoring agency in the Philippines, they issue weather warnings about rain, typhoons, and flooding. They are responsible for forecasting for aviation and marine hazards that could impact transportation and shipping, and they also issue impact assessments for agriculture. They have a rainfall and thunderstorm warning system, on a spectrum of advisory-alert-emergency for rainfall, and information-watch-advisory for thunderstorms, the outreach methods besides their website also include social media and SMS messages to affected areas. There is also a PAGASA app for android phones.
(Photo from Photos of the Week, Sf.Co.Ua, August 2012)
References: http://www.cpc.ncep.noaa.gov/products/Global_Monsoons/Global-Monsoon.shtml, http://www.wrh.noaa.gov/twc/monsoon/monsoon_whatis.pdf, http://www.pagasa.dost.gov.ph/, http://www.pagasa.dost.gov.ph/index.php/climate-of-the-philippines, http://www.pagasa.dost.gov.ph/index.php/agriculture/impact-assessment-for-agriculture, http://www.pagasa.dost.gov.ph/index.php/20-weather/29-rainfall-warnings, http://photo.sf.co.ua/id22
Friday, October 14, 2016
Mass Wasting-Landslides & Mudslides in the Philippines
Unfortunately the islands of the Philippines are highly susceptible to mass wasting. Not only is there a significant amount of coastline, but most of the islands are mountainous, and the upland areas and areas near volcanoes are particular vulnerable. Increasing the risk are earthquakes, high rainfall, typhoon and monsoon activity, and volcanoes. Increasing the hazard is the development of upland areas, homes on slopes, homes made of flimsy building material, and lack of reinforcement and drainage infrastructure.
(Photo from PHIVOLCS)
PHIVOLCS is particularly concerned with earthquake-induced landslides, and therefore they have a hazard map outlining the various levels of hazards. They have hazard maps available by region as well, that are more detailed.
It is not surprising that they have focused specifically on this landslide hazard because of the deadly 2006 Southern Leyte mudslide that claimed the lives of over 1,100 people. This landslide was the result of a period of heavy rainfall followed by a very small M 2.6 earthquake, burying an entire village including an elementary school that was in session at the time, killing all but one child and one adult at the school, as well as a thousand others in the village of Saint Bernard. Possible contributing factors were logging and mining activity in the area. A previous landslide in 2003 claimed the lives of 200 people in this same area. Although some residents were aware of the danger in 2006 and had evacuated, some returned too soon, encouraged by the rainfall subsiding, and were caught in the mudslide.
(Photo from Robert Peterson, US Navy)
September and October are considered high risk months for landslides because of late season typhoons. Just one of many landslides in 2013, the photo below illustrates the slope conditions, soil texture, and building materials that resulted in the death of at least 10 people in Barangay Cawag.
(Photo from Philippine Star Global)
As far as methods to reduce landslide hazards, very few are evident from my research. The main strategies seem to be community engagement through education and memorial events, and decentralization (or rather the strengthening of the responsibilities of individual provinces to address their hazards within their own jurisdictions). Also, just simple things, like improving communication throughout the country can help with disaster management and issuing warnings for vulnerable areas, and reliable communication systems are not currently widely available throughout all the Philippine islands.
References: http://www.navy.mil, http://www.phivolcs.dost.gov.ph/index.php?option=com_content&view=article&id=82&Itemid=500025,
http://www.philstar.com/headlines/2013/09/24/1237497/landslides-floods-kill-22-zambales, https://www.scribd.com/document/70631853/Strengthening-Disaster-Risk-Reduction-in-the-Philippines-Strategic-National-Action-Plan-2009-2019
Unfortunately the islands of the Philippines are highly susceptible to mass wasting. Not only is there a significant amount of coastline, but most of the islands are mountainous, and the upland areas and areas near volcanoes are particular vulnerable. Increasing the risk are earthquakes, high rainfall, typhoon and monsoon activity, and volcanoes. Increasing the hazard is the development of upland areas, homes on slopes, homes made of flimsy building material, and lack of reinforcement and drainage infrastructure.
(Photo from PHIVOLCS)
PHIVOLCS is particularly concerned with earthquake-induced landslides, and therefore they have a hazard map outlining the various levels of hazards. They have hazard maps available by region as well, that are more detailed.
It is not surprising that they have focused specifically on this landslide hazard because of the deadly 2006 Southern Leyte mudslide that claimed the lives of over 1,100 people. This landslide was the result of a period of heavy rainfall followed by a very small M 2.6 earthquake, burying an entire village including an elementary school that was in session at the time, killing all but one child and one adult at the school, as well as a thousand others in the village of Saint Bernard. Possible contributing factors were logging and mining activity in the area. A previous landslide in 2003 claimed the lives of 200 people in this same area. Although some residents were aware of the danger in 2006 and had evacuated, some returned too soon, encouraged by the rainfall subsiding, and were caught in the mudslide.
(Photo from Robert Peterson, US Navy)
September and October are considered high risk months for landslides because of late season typhoons. Just one of many landslides in 2013, the photo below illustrates the slope conditions, soil texture, and building materials that resulted in the death of at least 10 people in Barangay Cawag.
(Photo from Philippine Star Global)
As far as methods to reduce landslide hazards, very few are evident from my research. The main strategies seem to be community engagement through education and memorial events, and decentralization (or rather the strengthening of the responsibilities of individual provinces to address their hazards within their own jurisdictions). Also, just simple things, like improving communication throughout the country can help with disaster management and issuing warnings for vulnerable areas, and reliable communication systems are not currently widely available throughout all the Philippine islands.
References: http://www.navy.mil, http://www.phivolcs.dost.gov.ph/index.php?option=com_content&view=article&id=82&Itemid=500025,
http://www.philstar.com/headlines/2013/09/24/1237497/landslides-floods-kill-22-zambales, https://www.scribd.com/document/70631853/Strengthening-Disaster-Risk-Reduction-in-the-Philippines-Strategic-National-Action-Plan-2009-2019
Friday, September 23, 2016
Volcanism of the Philippines
The Philippines is a very volcanic island nation. There are between 23-53 active volcanoes at any time, another 30 potentially active volcanoes, and hundreds of inactive ones, and those are just the ones above sea-level. The eruptions of the volcanoes of the Philippines have been some of the most deadly and costly, having a great number of volcanic eruptions causing tsunamis and lahars. There are two major North-South volcanic arcs, one in Luzon, and one in Mindanao. At the moment, the six most active volcanoes in the Philippines are: Taal, Mayon, Bulusan, Hibok-Hibok, Pinatubo and Kanlaon.
(map from PHIVOLCS)
PHIVOLCS (The Philippine Institute of Volcanology and Seismology) has been praised with being responsible for saving the most lives from volcano-related disasters in the Philippines. Before the 1951 eruption at Hibok-Hibok, which killed 3,000 people, there was no government agency in charge of dealing with volcanoes.
(photo from Hibok-hibokrocks.blogspot)
Today PHIVOLCS have a great site that has lists of active, potentially active, and inactive volcanoes. They include a series of definitions of volcano related phenomena (both direct and indirect), such as lahars, pyroclastic blasts, and tsunami-generation. They have several volcano monitoring stations (see my post on September 9, 2016, with a map of where these are). They monitor volcanoes through four main strategies: a seismic network, a ground deformation network, hot-spring temperature and flow-rate measurements, and visual observation.
PHIVOLCS uses a 0-5 Volcano alert system, where O means no alert/or quiet, and 5 means hazardous eruption in progress. They issue warnings for no fly zones in ares with high ash, as volcanic ash can damage airplane engines. They issue evacuation warnings and establish safety perimeters (from 4-9 kilometers depending on alert level between 1-4), they also issue warnings for ash fall in residential and farming areas. They are responsible for issuing warnings for riverside communities that could be affected by ash contamination in the water downstream of volcanoes, especially following periods of heavy rainfall.
(photo from Newhall, USGS)
The most recent eruption was on September 16, a 4-minute long phreatic (steam-blast) eruption at the Bulusan Volcano on the southeastern part of the island of Luzon (250 km from Manila). Bulusan regularly erupts these steam-blasts, which eject steam and ash into the air. Although some of the blasts are of short duration, the ash can be carried by the wind to nearby towns and water sources. Bulusan is a strato-volcano so people in the area take precautions because an eruption of Mount Bulusan could be highly explosive. Bulusan Volcano Natural Park surrounds the volcano, but there are evacuation procedures for nearby farms and PHIVOLCS establishes and adjusts the threat level as they evaluate the volcano. The alert level for Bulusan is currently 1, which means there is a low level of volcanic unrest. There is currently a four-kilometer Permanent Danger Zone around the volcano, and the area directly over the volcano is considered a no-fly zone during periods of any visible activity.
References: http://volcano.si.edu/reports_weekly.cfm#vn_273010, http://www.phivolcs.dost.gov.ph/index.php?option=com_content&view=article&id=50&Itemid=86, https://www.volcanodiscovery.com/philippines.html, http://hibok-hibokrocks.blogspot.com/2011/12/time-magazine-article-december-1951-mt.html, http://geographic.org/photos/volcanoes/volcano_photos_314.html
Monday, September 12, 2016
Seismicity Map of the Philippines
This is a follow-up from my post on Friday, to include this awesome map and some recent data.
This map of the distribution of active faults and trenches in the Philippines clearly shows the convergence zones off both the East and West coasts of the country, crossing onto land only on the island of Mindoro. There is a collision zone mostly near the western waters of Panay, but also crossing over the southwest tip of the island. There is also a transform boundary to the northeast of Pulong Polillo in the Philippine Sea. As you can see from the map there are a multitude of faults ranging through most of the islands, the notable exception is Palawan in the West.
From the good folks at PHIVOLCS:
Recent activity from IRIS: Since September 1st of this year, there have been 9 significant earthquakes in the southern region of Mindanao, ranging from M4.6 to M5.9. The most recent was at 16:29 UTC, on September 10, 2016, a M5.3.
References: http://www.phivolcs.dost.gov.ph/, http://ds.iris.edu/seismon/eventlist/index.phtml?region=Polynesia
This map of the distribution of active faults and trenches in the Philippines clearly shows the convergence zones off both the East and West coasts of the country, crossing onto land only on the island of Mindoro. There is a collision zone mostly near the western waters of Panay, but also crossing over the southwest tip of the island. There is also a transform boundary to the northeast of Pulong Polillo in the Philippine Sea. As you can see from the map there are a multitude of faults ranging through most of the islands, the notable exception is Palawan in the West.
From the good folks at PHIVOLCS:
References: http://www.phivolcs.dost.gov.ph/, http://ds.iris.edu/seismon/eventlist/index.phtml?region=Polynesia
Friday, September 9, 2016
Earthquake Mitigation Strategies in the Philippines
The Philippine Institute of Volcanology and Seismology (PHIVOLCS) is the Philippine equivalent of the USGS, and has established some innovative earthquake risk reduction projects in the Philippines.
In collaboration with Japan, PHIVOLCS has conducted structural integrity studies of concrete hollow block houses, one of the main building types of residential dwellings in the Philippines. They have developed a self-check for earthquake safety entitled "How Safe is Your House" that addresses vulnerability of houses based multiple factors, that allows people to evaluate the potential integrity of their own home.
One of their culturally-inspired projects was Handa...Awit...Lindol! (Ready...Sing...Earthquake!), a collection of (Karaoke-style) songs for preparedness for earthquakes and natural hazards. Since singing is a national pastime, this creative University of the Philippines Diliman funded project incorporates hazard education and music. Check out the "Pacific Ring of Fire" song, the "Intensity" song that describes the differences between the magnitudes of earthquakes, or the rock/rap style "Don't Panic" song that tells you what to have in your emergency kit! (https://soundcloud.com/up-diliman-ovcrd/sets/handa-awit-lindol)
PHIVOLCS also offers a series of hazard maps, for faults and trenches, earthquakes, earthquake-induced landslides, liquefaction susceptibility, tsunami, and volcanoes.
According to PHIVOLCS:
(Map from PHIVOLCS.dost.gov. ph)
The Philippines coordinates with the Global Seismographic Network, and they have shared data from their Davao station since 1994. The broadband connection from the station operated by PHIVOLCS, updates the data to the global network about every 10 minutes.
References: http://www.phivolcs.dost.gov.ph/images/CHB_Test_Briefing_3_0001.mp4, http://www.phivolcs.dost.gov.ph/images/Flyer-How-Safe-Is-Your-House.pdf, https://soundcloud.com/up-diliman-ovcrd/sets/handa-awit-lindol, http://www.phivolcs.dost.gov.ph/index.php?option=com_content&view=article&id=44&Itemid=300083, http://earthquake.usgs.gov/monitoring/gsn/, http://earthquake.usgs.gov/monitoring/operations/station.php?network=IU&station=DAV,
In collaboration with Japan, PHIVOLCS has conducted structural integrity studies of concrete hollow block houses, one of the main building types of residential dwellings in the Philippines. They have developed a self-check for earthquake safety entitled "How Safe is Your House" that addresses vulnerability of houses based multiple factors, that allows people to evaluate the potential integrity of their own home.
One of their culturally-inspired projects was Handa...Awit...Lindol! (Ready...Sing...Earthquake!), a collection of (Karaoke-style) songs for preparedness for earthquakes and natural hazards. Since singing is a national pastime, this creative University of the Philippines Diliman funded project incorporates hazard education and music. Check out the "Pacific Ring of Fire" song, the "Intensity" song that describes the differences between the magnitudes of earthquakes, or the rock/rap style "Don't Panic" song that tells you what to have in your emergency kit! (https://soundcloud.com/up-diliman-ovcrd/sets/handa-awit-lindol)
PHIVOLCS also offers a series of hazard maps, for faults and trenches, earthquakes, earthquake-induced landslides, liquefaction susceptibility, tsunami, and volcanoes.
According to PHIVOLCS:
"The Philippines has a total of 65 seismic stations, 29 of which are manned, 30 are unmanned, and 6 volcano stations. The central operating station is located at PHIVOLCS Main Office, Diliman, Quezon City. All information is received at the Data Receiving Center (DRC), which is operated 24/7 by the Seismological Observation and Prediction Division (SOEPD)." (PHIVOLCS)
(Map from PHIVOLCS.dost.gov. ph)
The Philippines coordinates with the Global Seismographic Network, and they have shared data from their Davao station since 1994. The broadband connection from the station operated by PHIVOLCS, updates the data to the global network about every 10 minutes.
References: http://www.phivolcs.dost.gov.ph/images/CHB_Test_Briefing_3_0001.mp4, http://www.phivolcs.dost.gov.ph/images/Flyer-How-Safe-Is-Your-House.pdf, https://soundcloud.com/up-diliman-ovcrd/sets/handa-awit-lindol, http://www.phivolcs.dost.gov.ph/index.php?option=com_content&view=article&id=44&Itemid=300083, http://earthquake.usgs.gov/monitoring/gsn/, http://earthquake.usgs.gov/monitoring/operations/station.php?network=IU&station=DAV,
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