Bali Medical Journal (Bali Med. J.) 2015, Volume 4, Number 1: 41-43
P-ISSN.2089-1180, E-ISSN.2302-2914

EFFECTIVENESS OF DIFFERENT DETERGENT SOLUTIONS AS
LARVISIDE FOR AEDESAEGYPTI LARVAE
I Made Sudarmaja, I Kadek Swastika
Departement of Parasitology, Faculty of Medicine Udayana University, Bali-Indonesia
Background: Dengue hemorrhagic fever the spread of which is mediated by Aedesaegypti mosquito
that becomes a health problem in Indonesia every year. Some natural and chemical substances had
been experimented to combat Aedesaegypti, one of them is detergent solution. This study aims to
investigate the effect of several concentrations of detergent to kill Aedesaegypti larvae, and to find out
the lethal concentration (LC)50, LC90, and LC95. Method: Randomized posttest only control group
design was applied to observe the percentage of Aedesaegypti larvae instar III-IV killed when they
contacted to various detergent concentrations within 24 hour of observation. Results: This study result
showed that detergent with the concentration of 0.12 g/l; 0.14 g/l; 0.16 g/l; 0.18 g/l; 0.20 g/l; 0.22 g/l
and 0.24 g/l respectively showed the killing of Aedesaegypti larvae 37.6%, 42.4%, 74.4%, 85.6%,
89.6%, 95.2% and 100%, respectively. Probit analysis showed that LC50 = 0.14 gram/liter, LC90 =
0.20 g/l and LC95=0.22 g/l.
Key words: Aedesaegypti; detergent; solution
INTRODUCTION
Dengue hemorrhagic fever (DHF) is a disease
caused by virus infection which is spread by
mosquito. The fastest spreading in the world is
indicated by incidences that tend to increase every
year. It was predicted that about 50 to 100 million
cases of new infection emerge every year and about
2 to 5 billion citizens who live in endemic countries
that have high risk areinfected.1,2 The species of
mosquito that plays the main role as DHF vector in
Southeast Asia is Aedes aegypti.3
Because the specific medicine and vaccine for
DHF has not yet been founded, the prevention of
DHF is aimed to control the vector.2 Aedesaegypti
is known to prefer breeding places mainly in manmade containers with clear water inside such as
rainwater.4,5 In order to control Aedesaegypti,
people should clean, close and burry those man
made containers.6,7 Bali as the world’s tourism
destination is one of Indonesian provinces with
high incidence rate of DHF within above national
rate.8,9 For supporting tourism, Bali produces a lot
of artworks and handicrafts, such as basins made
from stone and big pots that can became breeding
place of Aedesaegypti in the rainy season. Those
artworks and handicrafts that contain water are
difficult to clean and empty because they are
usually deep and if covered, it will decrease the
value of art and purchase. In this case, safe
larvicide was needed that is available for people.
Some natural and chemical substances have been
experimented to combat larvae of Aedes aegypti,
one of them is detergent solution.
Address of Correspondence: I M Sudarmaja
Department of Parasitology Faculty of Medicine
Udayana University, Bali-Indonesia
Email: msudarmaja@gmail.com

Detergent is one of cleansing agents used in
households that is available and has the potential as
larvicide for Aedesaegypti. Some studies showed
that detergent could prevent oviposition and killed
the larvae of Aedesaegypti in various
concentrations.10-12 However, water that contains
detergent can still be used as breeding place of
Aedesaegypti.13 This study was carried out in order
to find the lethal concentration (LC) of detergent
solution for killing of Aedesaegypti larvae.
MATERIALS AND METHODS
This sudy applied randomized post test only
control group design with one control group versus
seven treatment groups, while the selection and
inputting of samples were carried out randomly.
Control group was a container which contained
well water while treatment groups were containers
which contained well water plus detergent with
concentration of 0.12, 0.14, 0.16, 0.18, 0.20, 0.22
and 0.24 g/l. Every group was replicated 5 times
and each container filled with 25 larvae of
Aedesaegypti instar III – IV according to WHO
standard.14
RESULTS
After 24 hours observation, the Aedesaegypti
larvae in all treatment groups were dead but not in
the control group. The average percentage of the
larva’s death in the treatment groups can be
monitored in Table 1.
Probit analysis was carried out to determine
the ability of detergent water as Aedesaegypti
larvicide, to get the exact detergent concentration
that can kill 50% larva (LC50), 90% larva (LC90)
and 95% larva (LC95). The result of the probit
analysis can be observed in Table 2:

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41

Bali Medical Journal (Bali Med. J.) 2015, Volume 4, Number 1: 41-43
P-ISSN.2089-1180, E-ISSN.2302-2914

Table 1
The average percentage of the Aedesaegypti larva’s death in several detergent concentrations during 24 hours
observation

0.12

I
32

II
40

III
44

IV
36

V
36

Average
percentage of
larva’s death
37.6

0.14

32

40

40

60

40

42.4

0.16

76

72

80

68

76

74.4

0.18

92

84

84

88

80

85.6

0.20

92

84

86

92

84

89.6

0.22

100

84

100

96

92

95.2

0.24

100

100

100

100

100

100

Concentration
(gr/liter)

Percentage of larva’s death

Table.2
The Percentage of larva’s death, LC50, LC90anf LC95 value of the detergent solution on the Aedesaegypti larva
Detergent
Concentration
(gr/liter)
0.12

Larva’s death
Percentage (%)

LC50 (gr/lt)
(CI 95%)

LC90 (gr/lt)
(CI 95%)

LC95 (gr/lt)
(CI 95%)

37.60

0.14

42.40

0.14
(0.13-0.14)

0.20
(0.19-0.21)

0.22
(0.20-0.23)

0.16

74.40

0.18

85.60

0.20

89.60

0.22

95.20

0.24

100.00

Control

0.00

DISCUSSION
Table 1 shows that detergent has the potential
as larvicide on Aedesaegypti mosquito. Higher
concentration increases the larvicide capability. At
0.24 g/l concentration, all of the larvae were
destroyed (100%). With the one-way anova statistic
test, the result was p < 0.05 which means that
there was significant difference from the average
Aedesaegypti larvae death in the study groups. The
post hoc LSD test showed that the significant
difference existed in all treatment groups and also
in the control group. This result showed that higher
detergent concentration in a container killed more
larvae, up to 0.24 g/l concentration. Some previous
researches also support this result. Water with
higher detergent concentration, 1.5 g/l, even is not
chosen by the Aedesaegypti mosquito as its
oviposition place.12 Beside not being chosen as
oviposition place, at 1.5 g/l detergent concentration,
until the seventh day, none of the Aedesaegypti
eggs hatched.11 Prasantong also found similar
result, where some detergent brands were able to
prevent ovipostition and killed the Aedesaegypti
larvae. The Fab detergent brand in 0.07%
concentration could prevent oviposition of
Aedesaegypti until 22 days.10

Lethal concentration of detergent solution that
can kill 50% larvae (LC50) in this study were 0.14
g/l (CI 95%= 0.13-0.14). This was far less than that
found in the study by Prasantong in Thailand who
got result at 0.07% or 0.7 g/l in the Fab brand
detergent. The study in Thailand also found LC50
result that was nearly the same with this study,
which was obtained with different detergent brand,
Breeze, that was 0.02 % (0.17 g/l), and Paic brand
0.02% or 0.19 g/l.10 The probit analysis also
obtained lethal concentration that can kill 90%
larvae (LC90) at 0.19 concentration (CI 85% = 0.190.21) and lethal concentration that could kill 95%
larvae (LC95) at 0.22 g/l concentration (CI 95% =
0.20-0.23). LC90 in this study showed similar result
with the LC50 of the study by Prasantong with Paic
brand solution.10
Detergent has larvicide potential because it
contains surfactants, which consist of non-ionic
surfactant, ionic surfactant and cationic surfactant.
Surfactant has amphiphilic structure that consists of
two parts, namely the ionic cluster and the
hydrocarbon cluster. The ionic cluster has strong
affinity to water, while the hydrocarbon cluster has
not.15 The surfactants contained in water will
obstruct the oxygen supply at the water surface and
kill the larvae.13

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Bali Medical Journal (Bali Med. J.) 2015, Volume 4, Number 1: 41-43
P-ISSN.2089-1180, E-ISSN.2302-2914

CONCLUSIONS
Detergent has potential as larvicide for the
Aedesaegypti larvae. Detergent solution with 0.12,
0.14, 0.16, 0.18, 0.20, 0.22 and 0.24 g/l
concentration is able to kill Aedesaegypti larvae as
high as 37.2%, 42.4%, 74.4%, 85.6%. 89.6%,
95.2%
and
100%,
respectively.
Higher
concentration of detergent was capable to kill more
larvae. The statistic test showed that the average
percentage of the death of Aedesaegypti larvae
differed significantly between all the treatment
groups and also with the control group. The probit
analysis found that the lethal concentration that
could kill 50% larvae (LC50) is 0.14 g/l (CI 95% =
0.13-0.14), lethal concentration that could kill 90%
larvae (LC90) is 0.19 g/l (CI 85% = 0.19-0.21) and
lethal concentration that could kill 95% larvae
(LC95) is 0.22 g/l (CI 95% = 0.20-0.23).
REFFERENCES
1. Schwartz, E., Weld, L.H., Smith, A.W.,
Sonnenburg, F.V., Keystone, J.S., Kain, K.C.,
Torresi, J., Freedman, D.O. 2008. Seasonality,
Annual Trends, and Characteristics of Dengue
among III Returned Travelers, 1997-2006.
Emerging Infectious Diseases. 14.(7) : 1081-8
2. Nathan, M.B., Drager, R.D., Guzman, M. 2009.
Epidemiology, Burden of Disease and
Transmission in Dengue Guidelines for
Diagnosis, Treatment, Prevention and Control.
Geneva:World Health Organization. p.1-24
3. Soedarto, 2012. DemamBerdarah Dengue.
Jakarta: CV Sagungseto. p. 61-74.
4. Anonim. 2007a. Pedoman Survei Entomologi
Demam Berdarah Dengue. Jakarta: Departemen
Kesehatan RI Direktorat Jenderal Pengendalian
PenyakitdanPenyehatanLingkungan (Dit.Jen PP
& PL). p. 1-24.
5. Anonim. 2007b. Ekologi dan Aspek Perilaku
Vektor. Jakarta: Departemen Kesehatan RI
Direktorat Jenderal Pengendalian Penyakitdan
Penyehatan Lingkungan (Dit.Jen PP & PL). p.
1-28.
6. Kusriastuti, R. and Sutomo, S. 2005. Evolution
of Dengue Prevention and Control Programme
in Indonesia. Dengue Bulletin. 29: 1-7
7. Becker, N., Petric, D., Zgomba, M.,Boase, C.,
Dahl, C., Madon, M., Kaiser, A. 2010.
Mosquitoes and Their Control. Second Edition.
New York: Springer.

8. Kusriastuti, R. 2010. Evaluasi Pengendalian
Penyakit PPBB Tahun 2009 dan Upaya
Memanfaatkan Peluang dalam Mencapai
Indikator PPBB dalam RPJMN 2010-2014.
Seminar on Evaluasi dan Upaya Pemanfaatan
Peluang Penyakit PPBB. Surabaya
9. Anonim. 2012. Data Kasus Demam Berdarah
Dengue (DBD) per bulan per Kabupaten di
Propinsi Bali. Denpasar: Report Program P2BD
DinasKesehatanPropinsi Bali
10. Prasantong, R. 1989. The Study of The
Efficiency of Using Detergent Against Aedes
aegypti.Thesis. Mahidol University Library.
11. Sudarmaja, M. 2008. Pengaruh Air Sabun dan
Detergen terhadap Daya Tetas Telur Aedes
aegypti. Medicina . 39 (1): 56-58
12. Sudarmaja, M. danMardihusodo, S.J. 2009.
PemilihanTempatBertelurNyamukAedesaegypti
pada Air LimbahRumahTangga di
Laboratorium. JurnalVeteriner. 10.(4): 205-7.
13. Hadi, U.K., Sigit, S.H., Agustina, E. 2006.
Habitat Jentik Aedesaegypti (Diptera: Culicidae)
pada Air Terpolusi di Laboratorium. Research
report (unpublish).
14. Anonim. 2005. Guidelines for Laboratory and
Field Testing of Mosquito Larvicides. Geneva.
World Health Organization. p.7-33
15. Lutfi, A. 2009. Sabun dan Detergen. Situs
Kimia Indonesia. chem-is-try.org, download at
15 October 2012

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