Althea Vol 2 No 1 EDIT.indd


Althea Medical Journal. 2015;2(1)

100     AMJ March, 2015

Larvicidal Effects of Tithonia diversifolia (Hemsley) A. Gray Leaf Water 
Extract against Culex sp. Larvae

Hasan Ali Abdurrachman1, Diah Dhianawaty D.2, Neneng Syarifah S.3
1Faculty of Medicine, Universitas Padjadjaran, 2Department of Biochemistry, Faculty of 

Medicine, Universitas Padjadjaran, 3Department of Parasitology, Faculty of Medicine, Universitas 
Padjadjaran, Bandung, Indonesia

 

Abstract 

Background: There are various vector mosquitoes that cause filariasis such as Culex sp. Controlling the 
number of vectors with larvacide can reduce the spread of this disease. The extracts of Tithonia diversifolia 
(Hemsley) A. Gray leaves are known to have larvicidal effects on Aedes aegypti larvae. The purpose of this 
study is to determine the larvicidal effects of Tithonia diversifolia (Hemsley) A. Gray leaf water extract 
against Culex larvae. 
Methods: This was an experimental study conducted during the period of October to November 2012 at 
the Laboratory of Biochemistry, Faculty of Medicine, Universitas Padjadjaran. First trials were conducted to 
find the most effective larvicidal concentration of Tithonia diversifolia (Hemsley) A. Gray leaf water extract 
in killing 25 Culex larvae. A concentration of 100 ml was decided as the testing concentration which would 
be compared to a positive control containing Abate® and a negative control containing distilled water. The 
number of dead larvae was calculated every hour for 48 hours.
Results: Effective larvicidal concentration of Tithonia diversifolia (Hemsley) A. Gray leaf water extract was 
60% (p=0.000 compared to negative control), which was lower than Abate®. Result also showed LC50 and 
LC90 of 24% and 42%, respectively.
Conclusions: Tithonia diversifolia (Hemsley) A. Gray leaf water extract has a larvicidal effect on  Culex sp. 
larvae, although it is not as effective as Abate®, Hence, this leaf may be used as an alternative larvacide as 
these plants are easily available in the community and inexpensive.

Key words: Culex sp., filariasis, larvacide, Tithonia diversifolia (Hemsley) A. Gray

Correspondence: Hasan Ali Abdurrachman, Faculty of Medicine, Universitas Padjadjaran, Jalan Raya Bandung-
Sumedang Km.21, Jatinangor, Sumedang, Indonesia, Phone: +628562476 5992 Email: hasanabdurrachman@gmail.com

Introduction

Filariasis is a disease caused by the filarial 
worm borne by vectors such as mosquitoes. 
There are 337 districts/cities in Indonesia that 
become endemic sites for filariasis.1 One of the 
vectors is the genus of Culex.2 One way to control 
the mosquito-borne diseases such as filariasis 
is by controlling the mosquitoes population 
itself.3 Controlling the number of  vector can be 
done by manipulating the mosquitoes breeding 
places or by using chemical materials.4

Abate® has been used for about 30 years, 
since it is provisioned as the eradication 
program of Aedes aegypti. With the use of 
Abate® in long run, it is possible that the 
resistance of larvae has emerged. Some studies 
mentioned that the resistance of mosquito 
Culex sp., for some classes of insecticides, 
including organophosphates group occurs 

more rapidly compared to Aedes aegypti.5
Developing pesticides from natural 

materials still continues to rise as there are 
limited side effects arised compared to those 
of chemical pesticides. Toxic effects that occur 
from the chemical larvacides are their effect to 
non-target organisms such as to humans, and 
there is also likelihood of mosquito resistance 
to the pesticide.6

The Tithoniadiversifolia (Hemsley) A. Gray 
leaves or better known as the flower leaf moon, 
is regarded by the public as the weeds which 
grow wildly. Tithoniadiversifolia (Hemsley) A. 
Gray leaves extract is well known to contain 
flavonoids,  tannins, that possesss larvacidal 
effect against  larvae of the mosquito Aedes 
aegypti.7

The aim of this study is to investigate 
whether Tithoniadiversifolia (Hemsley) A.Gray 
leaves are potential to be a green larvacide that 



Althea Medical Journal. 2015;2(1)

101

can be used in the wider community or not. 
To determine the potential active compounds 
present in the Tithoniadiversifolia (Hemsley) A. 
Grayleaves, the values of LC50 and LC90will also 
be determined.8

Method

This was an experimental study conducted 
during the period of October to November 
2012 at Laboratory of Biochemistry Faculty 
of Medicine Universitas Padjadjaran. First 
trials were conducted to find the most 
effective concentration of water extract of 
Tithoniadiversifolia (Hemsley) A. Gray leaves. 

The 100 ml of decided concentration was then 
tested for larvicidal effect of 25 Culex larvae 
compared to a positive control containing 
Abate® and negative control containing 
distilled water. The number of dead larvae 
was calculated in 48 hours once every hour. 
Effective concentration was decided at most 
effective time of all larvae were found dead. 

Culex sp., larvae was obtained from the 
School of Life Sciences and Technology of 
Bandung Institute of Technology (SITH-ITB) 
with inclusion criteria larvae Culex sp. that 
reached instar III or IV. 

The data were processed using SPSS 15.0 for 
Windows. The larvacidal effect was analyzed 

Table 1 Effective Concentration of Water Extract of Tithoniadiversifolia (Hemsley) A. Gray  
  leaves

Concentration Number of Larvae Number of Dead 
Larvae

Time of Dead Larvae 
(Hours)

15% 25 8 -
30% 25 8 -
45% 25 19 -
60% 25 25 30
75% 25 25 33
90% 25 25 34

100% 25 25 39

Table 2 Larvacidal Effect of Water Extract of Tithoniadiversifolia (Hemsley) A. Gray leaves

Group Number of Larvae Number of Dead 
Larvae

Time of Dead 
Larvae (Hours)

 60% 
concentration

1 25 25 34
2 25 25 34
3 25 25 32
4 25 25 34
5 25 25 33

Distilled water 1 25 1 -
2 25 0 -
3 25 0 -
4 25 1 -
5 25 0 -

Abate® 1 25 25 2
2 25 25 2
3 25 25 1
4 25 25 2
5 25 25 1



Althea Medical Journal. 2015;2(1)

102     AMJ March, 2015

using Mann-Whitney test. P value <0.05 was 
considered as significant. LC50 and LC90 values 
were analyzed using probit test.

Results

First, there were 7 different concentration 
of water extract of Tithoniadiversifolia 
(Hemsley) A. Gray leaves; 15, 30, 45, 60, 75, 
90, and 100% Evaluated for the most effective 
concentration. Each concentration was tested 
into a well consists of 25 Culex sp., larvae and 
the larvacidal effect was calculated in 48 hours 
once every hour. The 60% concentration was 
found to be the concentration that can kill 
all larvae Culex sp., in most effective time.

The 100 ml of 60% concentration was 
then tested for larvacidal effect compared 
to a positive control containing Abate® and 
negative control containing distilled water. 
Although less effective than Abate®, there was 
a potential larvacidal effect of water extract of 
Tithoniadiversifolia (Hemsley) A. Gray leaves 
compared to negative control. 

Statistically, the 60% water extract of 
Tithoniadiversifolia (Hemsley) A. Grayleaves 
concentration was effective in killing the Culex 
larvae (p=0.000 compared to negative control), 
although we found a lower effect compared to 
Abate®.

Research model probit Y = -2.505 + 5.425 X, 
where Y is the probit, and X is log concentration 
of the water extract was used to determine 
LC50and LC90. From the equation, the LC50 of 
water extract of Tithoniadiversifolia (Hemsley) 
A. Gray leaves was 24%, while the LC90 was 
42%.

Discussion

The purpose of this study is to determine 
the larvacidal effects of boiled water of 
Tithoniadiversifolia (Hemsley) A. Gray leaves 
against the mosquito larvae Culex sp. The study 
also included LC50 and LC90 of the water extract 

as vegetable larvacide against larvae Culex 
sp.. The results showed that the water extract 
has a significant effect to kill larvae Culex 
sp., although it is not as effective as Abate®.

Based on these results, the active 
substances contained in the water extract of 
Tithoniadiversifolia (Hemsley) A. Gray leaves 
are flavonoids and tannins.9 Flavonoids have 
larvacidal effects due to their mechanism 
of action to inhibit the respiratory system 
and disrupt the electron transport process 
in the larval body thus decreasing ATP 
production and reducing the use of oxygen by 
mitochondria. Besides, the tannins work by 
inactivating the enzymes and proteins in the 
larvae’s body.10 Although the leaves contain 
flavonoids and tannins with larvacidal effect, 
the contents of both substances in the water 
extract of Tithoniadiversifolia (Hemsley) A. Gray 
leaves are allegedly not too high, therefore, it 
takes a long time to kill all the larvae. 

Wide variations in the number of dead 
larvae in each group may be due to the type 
instar of larvae which affects the larvae’s 
sensitivity to the decoction. The study itself 
was carried out in the rainy season that may 
influence the destruction the larvae. The study 
on the active substances contained in the 
water extract of Tithoniadiversifolia (Hemsley) 
A.Gray leaves should be an important issue.

References

1. Ditjen PP & PL (Pengendalian Penyakit 
dan Penyehatan Lingkungan),Direktorat 
P2B2, Subdit Filariasis & Schistosomiasis. 
Rencana Nasional Program Akselerasi 
Eliminasi Filariasis di Indonesia. 
Jakarta: Kementrian Kesehatan Republik 
Indonesia; 2010. p. 5

2. James B. Filariasis. In: Eldridge BF, Edman 
JD, editors. Medical entomology: atextbook 
on public health and veterinary problems 
caused by arthropods. Dordrecht: Kluwer 
Academic; 2004. p. 324–33

Table 3 Statistical Analysis

Parameter Significance Value (2-tailed) 
Alpha=5%

Tithoniadiversifolia (Hemsley) A. 
Gray leaves  60% Concentration-
distilled water

number of dead larvae 0,000

Tithoniadiversifolia (Hemsley) 
A.Gray leaves  60% Water 
Extract-Abate

number of dead larvae 0,000



Althea Medical Journal. 2015;2(1)

103Hasan Ali Abdurrachman, Diah Dhianawaty D., Neneng Syarifah S: Larvicidal Effects of Tithonia diversifolia 
(Hemsley) A. Gray Leaf Water Extract against Culex sp. Larvae

3. Upadhyaya SD. Economic zoology. 2nd ed. 
New Delhi: Rastogi Publications; 2009. p. 
67–9 

4. Agoes R, Oehadian H, Djaenudin N. 
Bunga rampai entomologi medik. 2nd ed. 
Bandung: Universitas Padjadjaran; 2005. 
p. 87–91.

5. Daniel. Ketika larva dan nyamuk dewasa 
sudah kebal terhadap insektisida. Jakarta. 
Farmacia. 2008;7(7):44

6. Nicoletti M, Maccioni O, Coccioletti T, 
Mariani S, Vitali F. Neem tree (Azadirachta 
indica A. Juss) as source of bioinsectides. In: 
Perveen F, editor.  Insecticides-Advances 
in Integrated Pest Management. Rijeka.
InTech; 2012.  p. 411–26

7. Rahayu. Pengaruh ekstrak daun paitan 
(Tithonia diversifolia (Hemsley) A.Gray) 
terhadap mortalitas larva Aedes aegypti 
instar III [minor thesis]. Malang: 
Universitas Islam Negeri Maulana Malik 

Ibrahim; 2007
8. Arbiastutie Y, Muflihati. Isolasi dan uji 

aktivitas kandungan kimia bioaktif dari 
biji duku (Lansium domesticum Corr). 
Jurnal Penelitian Universitas Tanjungpura. 
2008;X(2):70–86

9. Taofik M, Yulianti E, Barizi A, Hayati 
EK. Isolasi dan identifikasi senyawa 
aktif Ekstrak air daun paitan (Tithonia 
diversifolia) sebagai bahan insektisida 
botani untuk pengendalian hama tungau 
Eriophyridae. ALCHEMY. 2010;2(1):132–9 

10. Sudjari DH, Agustin IMK, Telussa. AS. 
Pengaruh dekok daun mint (Mentha 
arvensis var Javanica) sebagai larvasida 
nabati nyamuk Anopheles sp. di Pantai 
Balekambang, Kecamatan Bantur, 
Kabupaten Malang [Online Journal] 2008 
[downloaded in 26 September 2012]. 
Available at: http://elibrary.ub.ac.id