A
few minutes after the last stroke of midnight on August 17, 1976, a violent earthquake occurred in the island of Mindanao spawning a tsunami that devastated
more than 700 kms of coastline bordering Moro Gulf in the North Celebes
Sea. This offshore event generated by Cotabato trench, a less prominent
trench system in the Philippines, was the largest tsunamigenic earthquake
to have occurred in Mindanao in the last two decades. It was an earthquake
that resulted in massive destruction of properties and great loss of lives.
The tsunami generated contributed immensely to the devastation. The
cities and provinces of Cotabato took the brunt of the earthquake while
the tsunami generated cast its doom on the provinces bordering Moro Gulf especially on the shores of Pagadian City. According to surveys during
the event, the tsunami was responsible for 85% of deaths, 65% of injuries
and 95% of those missing. After the sea spent its fury and rolled
back to its natural flow, thousands of people were left dead, others homeless
or missing and millions of pesos lost with the damages of properties. Properties
lost not only include establishments for residential and commercial use,
but also bancas that, as a whole, represents the livelihood of hundreds
of families.
Date
of Event |
17
August 1976 |
Time |
12:11
A.M. (Local) |
Epicenter |
06.3°
N, 124.0° E |
Magnitude |
7.9 |
FORESHOCKS
Analysis
of seismic records for August 1976 prior to August 17 of the same year
showed that there were six events recorded that had epicenters in the same
area as the main shock and could be considered as foreshocks of the Moro
Gulf earthquake. Also, about a month before that, two quakes were reportedly
felt in Zamboanga City that also had epicenters near the area of the main
shock. These two events were not recorded at the PAGASA Observatory in
Quezon City nor in any of its field stations. This brings to eight the
total number of foreshocks, three of which are felt events with intensities
ranging from I to IV. (Stratta et.al., 1977)
AFTERSHOCKS
There
were approximately forty (40) aftershocks that were plotted using available
data from the seismic network of PAGASA. But it was reported that more
aftershocks were felt and recorded locally most of which were felt in the
area with Rossi-Forel intensities of up to Intensity VI. Aftershocks in
Cotabato City were monitored by the Commission on Volcanology (now Philippine
Institute of Volcanology and Seismology) and during the span of time that
the aftershocks were monitored, an average of about 140 aftershocks per
day were recorded. Monitoring started on the 18th of August 1976 using
a three component Hosaka seismograph and a single-component Kinemetrics
seismometer.
COTABATO
CITY
DAMAGE
TO BUILDINGS
SCHOOLS
COTABATO
CHINESE SCHOOL GYMNASIUM
A
reinforced concrete and wood structure built in 1962. Its walls fell outward
during the earthquake and the roof fell in.
ADMINISTRATION
BUILDING
This
is a two-story building (designed for three stories) with reinforced concrete
frame built in late 1973. The building suffered little damage on some of
its walls. A pile foundation had been used.
HARVADIAN
COLLEGE
The
campus includes several buildings but only a partially collapsed five-story
structure was investigated. The building was built in 1962. It had reinforced
concrete frame with reinforced concrete slabs at the second level and at
the exterior walkways at the third, fourth and fifth levels. The fifth
story was constructed completely of wood and the roof had GI sheeting.
The building was reportedly designed for three stories with the fourth
and fifth floor added later with no strengthening of the lower stories.
NOTRE
DAME UNIVERSITY
This
University is located on Notre Dame Avenue approximately 1.5 km southeast
of the downtown area. The site has wet and soft marshy ground. Ground water
appeared to be very near the surface as ponds were evident throughout the
site.
THE
ADMINISTRATION BUILDING
A
rectangular three-story structure with reinforced concrete columns and
girders and concrete floors built in 1960s. Damage to the building was
light. There was a 3 m concrete panel at the entrance that was heavily
cracked and damage to the frame was minor.
THE
AUDITORIUM AND SCIENCE BUILDING
This
is a 48 x 30 m auditorium crossed at its entrance by a three-story 51 x
12 m science wing. It had reinforced concrete frame with masonry infills
built in 1969. The roofs of the auditorium and science wing had the same
elevation. After the earthquake, a fire broke out in the science
wing. Its first and second story columns sustained heavy damage. The long
span beams also have heavy cracks. After the fire had burned for several
hours, the science wing collapsed. The auditorium suffered heavy
fire damage. The roof trusses in the stage area sagged heavily due to the
intense heat. Large areas of the trusses dropped simultaneously. The infilled
walls did not suffer structural damage but the entrance of the auditorium
was destroyed when the science wing collapsed.
THE
NEW RESIDENCE HALL
This
is a rectangular, three-story structure nearing completion and unoccupied
at the time of the earthquake. It consists of concrete exterior columns,
thin concrete exterior walls, timber interior columns and floor systems,
and plywood interior partitions. Damage to the building was light. There
were cracks at the floor line, some columns were damaged at the sill line,
interior partitions were torn apart, some ceiling panels fell and considerable
cracks of the ground floor slab.
THE
TECHNICAL SCHOOL
A
two-story building built in 1965. It had a concrete frame with a concrete
two-way slab floor. This building was linked to an adjacent building by
a common wood canopy. Damage to the structure was moderate. The first story
columns and fins were damaged at the head and sill levels and the canopy
collapsed at its end bay.
HOTELS
and RESTAURANTS
DAWNS
HOTEL
A
six-story reinforced concrete frame and wall building. There was no damage
except for a little working on the floor joints of the south wall of the
building.
DMAX
RESTAURANT
A
two-story building constructed in 1968. It was a combination of reinforced
concrete and wood. The building collapsed completely. (Go to Amicus Building
for additional information.)
IMPERIAL
HOTEL #1
Imperial
Hotel #1, Imperial Hotel #2 and Rita Theatre are situated close together.
Imperial Hotel #1 and Rita Theatre drifted to the west and pushed against
Imperial Hotel #2. Imperial Hotel #1 is a four-story reinforced concrete
building with masonry infills built in 1963. The building experienced a
38 cm permanent offset in the first story and the rear portion of the building
collapsed.
IMPERIAL
HOTEL #2
This
is a six-story building with reinforced concrete frame built in 1967. There
was superficial damage to the building that consisted of cracks in a column,
its infill panels and part of the slab grade caused by the impact force
from the fronts of Rita Theater and Imperial Hotel #1. The impact also
caused shear failure of the second story column.
MELBOURNE
HOTEL
A
three-story building with reinforced concrete frame with masonry infilled
panels built in 1970. The first story suffered a permanent offset to the
south after the quake and its columns sustained heavy damage. On the east
side of the building, the panels were pushed out and window infills in
its mezzanine floor buckled outward.
NEW
SOCIETY HOTEL
A
four-story reinforced concrete frame building with shear walls and reinforced
concrete slabs for its floors and roof. It was built in 1968. It is located
within 30 m of Rio Grande and its elevation is 2 m below street level.
The columns were founded on woodpiles with reinforced concrete pile caps.
The pile cap and water table were nearly coincidental. Proximity
of the river and the high water table would suggest a very strong ground
shaking but there had been factors that ruled out this possibility and
instead, flaws in the structure were considered as the principal causes
of failure. The building collapsed as the building twisted in a counterclockwise
motion; the northwest corner of the second floor dropped down to the street;
and the opposite southeast corner suffered torsional failure of the corner
pilaster and out-of-plane shearing of the adjacent walls. The frame and
walls above the first story was practically undamaged.
SAGUITTARIUS
HOTEL
A
four-story structure with reinforced concrete frame built in 1965. The
building collapsed completely. (Go to Amicus Building for additional information.)
SULTAN
HOTEL
A
five-story building that suffered collapse of the first floor. The collapse
of the building must have been slow because the portion above the second
floor remained intact.
THEATERS
COTABATO
CINEMA
This
is a large structure to the rear of Sultan Hotel. When the hotel collapsed,
it caused severe structural damage to the theater complex. It was hard
to determine whether the collapse of the hotel caused failure to the theater
or merely contributed to an already damaged structure.
FRANCEL
THEATER
A
reinforced concrete and wood building built in 1966. The reinforced concrete
portion of the building collapsed causing failure of the wood trusses of
the roof.
RITA
THEATRE
This
was a two-story 12 m tall reinforced concrete frame building in front.
Its rear portion was a combined reinforced concrete frame with masonry
infills and wood and serves as the auditorium. The auditorium roof has
two elevations. The front frame drifted to the west along with Imperial
Hotel #1. The auditorium frame and its infilled east wall were knocked
over by Imperial Hotel #1 and the roof on this part of the structure collapsed.
Further to the rear, the roof did not collapsed because the roof elevation
was lower. (Go to Imperial Hotel #1 for additional information.)
CHURCHES
IMMACULATE
CONCEPTION CHURCH
This
church was located across the street from Tison Building. Its grounds were
very soft and the church was obviously not built on piles. The church tower
settled by about 15 cm.
TAMONTAKA
CATHOLIC CHURCH
A
structure made of unreinforced brick walls with interior timber columns
and wooden roof said to have been built by the Spaniards around 1872. It
was built on soft marshy soil. Before the earthquake, the building already
had some structural cracks that could be either due to a previous earthquake
or a differential settlement. The church suffered severe damage.
OTHERS
AMICUS
BUILDING
The
Amicus Building, Sagittarius Hotel and D'Max Restaurant formed a complex
of three adjacent buildigs that collapsed.
BOSTON
BAKERY
A
two-story reinforced concrete building built in 1965. The first story of
the build drifted about 60 cm to the west.
COTABATO
AUTO SUPPLY
A
three-story building built in 1968 with reinforced concrete frame, concrete
floor and masonry infilled exterior walls. Its partitions were made of
timber and plywood. The first two floors were used for auto parts sales
and storage and the third floor served as the owner's living quarters.
The
first story collapsed gradually, according to the proprietor, with the
upper stories coming to rest approximately 3 m west of its original location.
The rest of the building only sustained minor cracks. Storage shelves
in the second floor were still standing after the quake.
A
one-story concrete lean-to behind this building also collapsed.
COTABATO
FIRE and POLICE STATION
The
building settled out of plumb toward the river during the earthquake. Otherwise,
there was no structural failure noted on the building itself.
FIRST
GIFT AND BOOKSTORE
A
four-story building built around 1968 to 69 with reinforced concrete frame
resting on a timber pile foundation. This was also known as the Yap building
after its owner.
The
first floor of this building collapsed during the initial earthquake tremor
and fire broke out within the structure. Five to six hours later, the structure
collapsed completely. It was noted that this structure leaned into an adjacent
three-story building knocking it into a third building, the City Evangelical
Church. Damage to the church was light.
LCT
HARDWARE AND AUTO SUPPLY
A
two-story reinforced concrete structure with wood trusses and GI sheet
roof. The first story collapsed toward the west during the earthquake.
MELINEEN
BUILDING
A
two-story reinforced concrete building that pancaked.
SOUTH
SEAS TRADING
This
was a three-story building built in 1967. It had a concrete frame and floor
slab. This building completely collapsed.
TAN
BO BUILDING
A
four-story building constructed around 1971. Its frame was of reinforced
concrete while the walls are infilled hollow blocks. The whole structure
was built on timber piles. The only damage noted was the cracks on the
walls near the stairs.
TISON
BUILDING
This
was the only building in Cotabato City known to have been designed with
seismic considerations. It was built on precast concrete friction piles
on good soil. It survived the earthquake with only a slight crack in a
concrete block partition.
WATERFRONT
WAREHOUSES
A
large number of warehouses were located at the edge of Rio Grande west
of Manday River. They look like they were made of masonry walls, timber
trusses, and corrugated GI sheets. They were poorly built. All of the warehouses
collapsed.
DAMAGE
TO BRIDGES
QUIRINO
BRIDGE
This
is a four-span structural steel bridge over the Rio Grande. Each span is
40 m long. The second span from the south end collapsed into the river
during the earthquake. The third span from the south end nearly collapsed
and cracks appeared several centimeters below the base of the south abutment.
TAMONTAKA
BRIDGE
This
bridge spans about 230 m across Tamontaka River approximately 6 kms south-southwest
of Cotabato City. The bridge is made up of six spans resting on pile-supported
piers. The girders, piers and piles are made of reinforced concrete. The
bridge was constructed in three sections. After the earthquake, the center
section moved east and west in excess of 38 cm each way evidenced by the
broken concrete keepers on each end of the supporting piers. The northern
section moved even greater distances. The southern section moved but with
lesser distance. There was damage to the railings at the abutments and
the expansion joints.
ZAMBOANGA
CITY
Fourteen
buildings in this City of Flowers were partially damaged while twenty-six
buildings sustained minor damage. The City Hall bore noticeable cracks
along its façade. Ateneo de Zamboanga sustained failures at the
sill level of its columns on the fourth floor due probably to poor concreting
and column weakening because of water seepage from the GI downpipes embedded
in the columns. Zamboanga Agricultural and Engineering College sustained
damage to columns due to failure at end moments.
Zamboanga
City was spared from the onslaught of the tsunami on account of the strategic
geographic location of Basilan and Santa Cruz Islands that served as buffers
and deflected the waves that otherwise could have inflicted heavy damage
along Zamboanga City's coastline. Damage in buildings consisted mostly
of cracks on its masonry walls and insufficient lateral ties in some columns.
PAGADIAN
CITY
The
coastal districts of Santa Lucia, Santiago, San Pablo, San Roque and White
Beach Barangay were hardest hit by the tsunami. Almost all of the houses
along the coast within 500 meters inland were destroyed. Some houses made
of reinforced concrete hollow blocks were able to withstand the force of
the waves and also served as protection to other house made of light materials.
The approach to the Pagadian City wharf settled down, causing cracks in
the slabs of the approach area and in the concrete deck. The five-story
reinforced concrete building of Saint Columban College had noticeable cracks
in the masonry infilled walls. Shear cracks in two columns were observed
at the junction.
DAMAGE
DUE TO TSUNAMI
Just
after the earthquake stopped, the sea, stirred by the powerful movement
of the earthquake, swelled and moved away from the coastline for about
three kilometers. About ten minutes later, it roared back to the shore
and beyond in three succeeding waves soaring as high as the treetops according
to some reports. The sea unloaded its fury on everything near the shore.
Houses and properties along the coastal beaches of Lanao del Sur and Pagadian
were practically washed out. Bits of houses littered the sea and bodies
littered the shore. The casualties and victims of the earthquake and tsunami
numbered thousands just in Regions 9 and 12. (Region 9 covers Pagadian
City, Zamboanga del Sur, Zamboanga City, Basilan, and Sulu while Region
12 covers the areas of Sultan Kudarat, Maguindanao, Cotabato City, Lanao
del Sur and Lanao del Norte.) A tabulation of the victims and casualties
in these regions is as follows.
Area
|
Dead
|
Missing
|
Injured
|
Homeless*
|
Region
9
|
1,440
|
909
|
7,701
|
49,848
|
Region
12
|
3,351
|
1,379
|
2,227
|
43,534
|
Source:
Badillo, V.L. and Astilla, Z.C.: Moro Gulf Tsunami of August 17 1976
*Some
of the data in this section was estimated at 6 members per family
The
major cause of the great number of casualties during the event could be
attributed to the fact that (1) the tremor happened just after midnight
when most people were sleeping; (2) a great tsunami was spawned, struck
the coasts from different directions and caught the people unaware.
REFERENCES:
Stratta,
James L., et. al.; 1977, EERI Reconnaissance Report Mindanao, Philippines
Earthquake August 17, 1976, 106 pp.
Badillo,
Victor L. and Astilla, Zinnia C.; 1978, Moro Gulf Tsunami of 17 August
1976, 41 pp.
Stewart,
Gordon S. and Cohn, Stephen N.; 1978, The 1976 August 16, Mindanao, Philippine
Earthquake
(Ms = 7.8) -- evidence for a subduction zone south of Mindanao, 14 pp.
Acharya, H.K., 1978, Mindanao Earthquake of August 16, 1976: Preliminary
Seismological Assessment : Bulletin of the Seismological Society of America
Vol. 68, 1459-1468.
Southeast
Asia Association of Seismology and Earthquake Engineering, 1985, Series
on Seismology Volume IV Philippines, 489-515. |