Community Preparedness in Dealing with Landslides

Mamat Ruhimat

Department of Geography Education Faculty of Social Science Education, Universitas Pendidikan Indonesia

mamatruhimat@upi.edu

Keywords: Community Preparedness, Landslides.

Abstract: Landslides are one of natural disaster that difficult to be predicted accurately. Communities that living in a

landslide-prone area has to have preparedness to deal with it. This research was conducted in Sagalaherang

subdistrict, Subang district, West Java. Sagalaherang subdistrict physically located in a landslide-prone area.

This research aims to determine preparedness level of community to deal with landslides using index of

preparedness level analysis from UNESCO. Primary data were obtained through field observation and

questionnaires and interviews with the people. Secondary data were obtained from a review of various

relevant document and literature. Community sample were determined with proportional random sampling.

Sagalaherang is one of subdistrict in Subang district that categorized as prone to landslides in the medium to

high level, has average rainfall above 2.700 mm/year. Geological condition of Sagalaherang was volcanic

material that resulted from volcanic eruption of Tangkuban Parahu with breksi rock types. The morphology

were hilly, slope class were dominated with class II – V. Level of community preparedness in dealing with

landslides in Sagalaherang subdistrict is categorized as nearly prepared. Communities has knowledge’s, and

a number of steps that has to be done if landslides occurred. It was still lack in resources mobilization of

disaster management. It recommended to increase knowledge’s of community and conducting trainings of

resources mobilization to deal with landslides, until communities get into well prepared categorize.

1 INTRODUCTION

A total of 18 districts and cities in West Java province

were included to the list of area that has land

movement potential. The potential for soil movement

varies from low to medium to high. Majority of

landslide disasters that occurred in areas with

potential of land movement in moderate to high. From

2010 to 2013 the number of landslide victims in West

Java has been reached 180 people (Directorate of

Volcanology and Disaster Mitigation, 2013).

Frequency of landslides in West Java has a higher

potential because it lies in the volcanic region and has

a wavy morphology. Landslides depend on many

aspects, such as land use, slope, and geological

factors, even the behavior of the population in using

land.

Sagalaherang subdistrict that located in Subang

district in area of West Java are located in hilly area,

that was an area that has potential to landslides that

caused by its morphology which was hilly area, or the

volcanic activities of Tangkuban Parahu.

Sagalaherang subdistrict in Subang district was one

of area that has medium to high of land movement

level. Landslides occurred in Sagalaherang

subdistrict has struck Tenggeragung, Sagalaherang

village, the incident causing death of one person.

After that, landslides occurred in Cileungsing,

Sagalaherang Kaler village, in February 2010 resulted

in two houses owned by residents crashed carried

away by landslides, and dozens other houses are

under threat of landslides, it also occurred in

Cikubang, Sagalaherang Kaler village in December

2010, the community has been startled by landslides

that fall on one house and one elementary school,

meanwhile for landslides that occurred in the late of

December 2012, in Panaruban, Cicadas village that

causing death of one person and other seven people

were injured (news.okezone, 21 April 2007).

Landslide vulnerabilities in Sagalaherang subdistrict

was still lack of attention, so there is not any real

mitigation efforts to decrease the risks of the danger

of landslides. Community that lives in area that has

landslide potential plays an important role, even very

decisive. People activities in using their land could be

a triggering or inhibiting factor of landslides. The

570

Ruhimat, M.

Community Preparedness in Dealing with Landslides.

In Proceedings of the 2nd International Conference on Sociology Education (ICSE 2017) - Volume 1, pages 570-574

ISBN: 978-989-758-316-2

preparedness of community needs to be measured, so

that when landslide occurs, it won’t make any shock

and the victims could be minimalized. Preparedness

are the actions that allows government, organizations,

peoples, communities, and individual to be able in

dealing with disaster situation quickly and

appropriately (Carter, 1991). Preparedness has some

parameters that can be measured which is: knowledge

and attitude, emergency planning, warning system,

and resource mobilization capacity (LIPI, UNESCO,

2006). This means that the higher index number, the

level of subject preparedness that has been studied are

also higher. Level of community preparedness are

categorized into five, namely: very prepared with

index value 80 – 100, prepared with index value 65 –

79, nearly prepared with index value 55 – 64, less

prepared with index value 40 – 54, not prepared yet

with index value less of 40 (LIPI-UNESCO, 2006).

2 LANDSLIDES

Landslides are a movement of slope forming material

in the form of rocks, debris material, soil, or mixture

materials, move down or off the slopes. Landslides

was a form of erosion that indicated by transportation

or movement of soil mass which occurs at some point

in a relatively large volume. Landslides are the

movement of soil/rocks mass with tilted direction

from original position, so it was being apart from

solid mass, because of gravity with rotation and

translation movement types. The slides it can be

divided into six types, namely: translation slides,

rotation slides, block movement, stone ruins, soil

creep, and debris material flow. Translation and

rotation slides are the most common in Indonesia.

Landslide types that took a lot of victims of

property, objects, and human life is debris material

flow, because it can go through far enough which is

hundred or even thousand meters, especially in

watershed area around volcanoes. This landslide

speed were influenced by slopes, water volume and

pressure, and the material types. Factors that

influence to the occurrence of landslides and erosion

are nature and human factors. The main nature factor

are climate, soil characteristics, main material,

elevation, and slopes, even tsunami, human factor is

all of human activity that accelerate the occurrence of

erosion and landslides (Elliason, 2013). Rainfall is

one of climate element which has the big role to

landslide occurrence. Rainwaters that infiltrated into

soil and saturated the soil determines landslides. Rain

intensity determines the level of erosion, meanwhile

landslides were determined by soil saturated

condition by rainwaters and the collapse of slide

friction. Annual rain fall >2.000 mm/year occurs in

most parts of Indonesia. Soil types was also a factor

that influencing landslide occurrence. Every soil

types has different level of sensitivity to landslides.

The depth or solum, texture, and soil structure

determines the quantity of surface runoff water and

saturation rate of the soil by water. On soil with deep

solum (>90cm), loose structure and dense land cover,

most of the rain water were infiltrated into the ground

and only a small part that being the surface runoff

water. Conversely, in soil with shallow solum, solid

structure, and less density of land cover, only small

percentage of rain water that infiltrated and most of

them are being the surface runoff water.

Characteristics of soil parent material is

determined by the source of rock and composition of

mineralogy that affects the landslide sensitivity. In a

mountainous area, soil material is dominated with

strong rocks from volcanic rocks, sedimentary, and

metamorphic rocks. Soils that formed by sedimentary

rocks, especially clay, calcareous limestone or marl

and limestone, are relatively sensitive to landslides.

Volcanic rocks generally are landslides resistant. One

of characteristics of landslide-sensitive soil is the

width of soil fracture is >2 cm and the depth is >50

cm in dry season. The soil could expand in wet

condition and shrink in dry condition, which was

caused by the high content of clay mineral type 2:1 as

seen on Grumusol soil. At certain depths of Podsolic

or Mediteranic soil there is a clay accumulation which

in saturated water condition can also function as a

glide field in landslide occurrence. Landslides are

common in hilly and mountainous areas, especially in

sandy soils (Regosol or Psamment), Andosol

(Andisols), shallow rocky soil (Litosol or Entisols),

and calcareous shallow soil (Renzina or Mollisols), in

wavy regions especially on Podsolic soil (Ultisols),

Mediterranean (Alfisols), and Grumusol (Vertisols)

that formed from the main rocks of clay stone, marl

and limestone with a high clay content. The altitude

of land based on height were divided into medium

plains (350 – 700 m above sea level) and high plains

(>700 m above sea level). Elevation is closely related

with the types of commodity that suitable to

preserving the environment. National Land Agency

set the land on elevation above 1.000 m above sea

level and slopes >45% as a restricted business area

and prioritized as protected forest areas. While

Ministry of Forestry set the land with the elevation

above >2.000 m above sea level and/or slopes >40%

as protected areas. Grade or land slopes is one of

trigger factor of landslides. When slope are steeper,

the volume and speed of runoff would be increased

Community Preparedness in Dealing with Landslides

571

and has potential to causing landslides. Beside

steepness, the length of slope also determine the

magnitude of landslides, the longer the slope, the

greater landslide would be. Slope class consists of flat

(0 – 3 %), ramps or choppy 3 – 8 %, slightly slanted

or wavy 8 – 15 %, slanted or hilly 15 – 30 %, slightly

steep 30 – 45 %, steep 45 – 65 % and very steep above

65 % (Arsyad, 1989). Human factor, are the action of

human that causing or makes the landslides

occurrence going faster. The action that causing

landslides are deforestation which decreasing

groundwater infiltration so it will increase runoff.

Surface flow or runoff should not be high, because it

will affect the erosion, and in the end it also will affect

to the landslide occurrence. In the less regions of

Europa, Asia and America for example, gully erosion

might be the most important geomorphic natural

hazard (Inolonita, Michael A. Fullen, 2015).

Improper conservation technique in farming land will

trigger landslides. The causes of landslide including

active and passive factors (Cook and Doornkamp,

1994). Passive factor controls the landslide

occurrence, meanwhile the active factor was the

trigger of landslides. Therefore, to every habitant

should be given knowledge’s and planting the

attitudes so that the interaction with environment will

not causing the acceleration of landslide occurrence.

3 METHOD

Research method that used was descriptive. This

research uses survey techniques. Community that

became sample of research are the heads of

household. The number of samples was 80 people.

Sampling technique uses proportional random

sampling. The tools of research was interview

guidelines. Parameters that used to observe household

preparedness level in dealing with landslides are: (1)

knowledge of disaster, (2) emergency response plan,

(3) disaster warning, and (4) resources mobilization.

4 RESULTS AND DISCUSSION

In measuring the preparedness to deal with disaster,

there was three main groups that should be

considered, they are community/households,

apparatus group or bureaucracy and education units

(UNESCO, 2006). One of the stakeholders in

preparedness level to deal with landslides of

Sagalaherang subdistrict is the households or

community. Households is a stakeholder that holds

big role in addition to increase the community

preparedness, because it was an initial foundation in

social life. These are the level of household

preparedness in dealing with landslides in

Sagalaherang subdistrict based on the above 4

parameters as follows.

4.1 Knowledge of Disaster

In studying the knowledge of respondent about

landslides used some indicators that lowered in some

questions related to the causes of disaster occurrence,

types of disaster, signs of landslide occurrence and

signs of building that resistant to landslides, the

actions that should be done when landslide occurs and

knowledge of landslide information sources.

Knowledge of household respondents about the

understanding of disaster was one of important thing

that determine for a process to determining index of

community preparedness in dealing with disaster.

Knowledge of community/households about disaster,

were revealed through some indicators, namely the

causes of disaster, types of natural disaster, signs of

landslide, signs or characteristics of building to

anticipate landslides, and information sources to get

the knowledge of landslides.

The average of this research results showed

score of 97%. This means level of knowledge about

disaster of household respondents can be categorized

as prepared. This results exactly is a good news to the

households in Sagalaherang subdistrict, because most

of them has a high preparedness in dealing with

landslides. Knowledge of disaster that the household

respondents already have was obtained from various

information sources, one of them is television.

Reports about any occurrences or landslides that

occurs in various region in Indonesia on the TV,

adding the insight and knowledge for the household

respondents. Besides television, the household

respondents also get the information from radio. But

it still needs some more effort to make the community

getting more knowledge about disaster, one of them

is with adding information about disaster such as

founding an information source that can be accessed

by population especially related with disaster,

especially landslides.

4.2 Emergency Response Plan

The next parameter that used to determine the level of

household preparedness in Sagalaherang subdistrict

is Emergency Response Plan. In answering the

questions of emergency response plan by household

respondents, components that has been questioned to

the household respondents are a number of actions

that should be done in dealing with landslides,

ICSE 2017 - 2nd International Conference on Sociology Education

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prepare the medicines, and a place to rescue

themselves or understanding evacuation maps when

the landslide occurs. Respondent answers were

summed up, then search the average. Results of this

research showed that its average was 62%. This

means preparedness of household respondents in

emergency response plan is categorized as nearly

prepared. The results of this research on the

emergency response plan are very different from the

ownership of disaster knowledge. Knowledge of

household respondents is not directly proportional

with the emergency response plan. It can be seen from

the description of the emergency response plan which

is owned by the household respondents, like a plan of

action to do when the landslide occurred that is go to

the open field to evacuate themselves to a safe place.

In the future, specifically for the preparedness of the

emergency response plan of the household

respondent component should receive a very serious

attention, which need for increased preparedness by

various acts, such as simulation and/or training.

4.3 System of Disaster Warning

Indicator that used to determine the understanding of

community in disaster warning are knowledge of

disaster warning system traditionally or based on

technology and the action that should be done when

hearing the warning of disaster, also an information

source that obtained by community. The average of

household respondent answers about landslide

warning system was 53%. This means that household

is categorized as less prepared. The highest score was

in indicator of stay away from hills/cliffs and/or run

to the open place, and the lowest score was in can not

coordinate yet and/or utilizing the information

through communication media of radio and

television. That means the types of warning that has

been used by household respondent still using such

simple methods. Based on that tendency, in the future

it seems need to do a socialization of utilizing various

communication media effectively. Area that has

landslide potential, should be mitigate to minimizing

the effects. Landslide mitigation can be done in two

main aspects that is physical condition of nature and

vegetation, then mitigation for humankind in social

(Nursa’ban, 2010).

4.4 Resources Mobilization

Human resources mobilization in families is a part of

preparedness act in dealing with disaster and plays a

big role to prepare household members to do right act

in dealing with possibility of disaster occurrence.

Resources mobilization indicator is the participation

respondents to the meeting/seminar/training, and

vigilance in dealing with disaster. Research results

showed that the average score of respondent

preparedness in dealing with disaster that seen from

the aspect of resources mobilization was 63%. Score

63% is categorized as nearly prepared. Types of

training that has been participated related with

handling disaster is the first aid of accident which was

75%. While the lowest score is on the life/property

insurances which was 30%. This means that from

insurance side, only small percentage of respondents

that has been prepared. Life insurance and saving

should be socialized to the respondents, as an

important part in facing the possibility of disaster

occurrence.

5 CONCLUSIONS

Four parameters of household or community

preparedness in dealing with disaster is knowledge of

disaster, emergency response plan, system of disaster

warning, and resources mobilization. The averages of

research results showed these tendency: Knowledge

of disaster on household stakeholders is in prepared

categorize. Emergency response plan is in nearly

prepared categorize. System of disaster warning is in

less prepared categorize, and for resources

mobilization is in nearly prepared categorize. This

research is only measuring the preparedness from

household component. In the future at similar

research, it recommended to studying the component

of bureaucracy and education units preparedness.

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