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CONTACT : Pramita Laksitarahmi Isrianto         laksitarahmi@yahoo.co.id 
© International Journal of Applied Biology  

1 

Abstract 
One of the efforts to optimize the utilization of natural materials that is used 
them as medicinal plants, including Dlingu (Acorus calamus L.) and Garlic 
(Allium sativum) which have the potential as antioxidants. This study aims to 
determine the effectiveness of a combination extract of Acorus calamus L. 
(Dlingu) and Allium sativum (Garlic) on antioxidant activity. This research is 
an experimental research which is the test of antioxidant content and 
antioxidant activity test with 5 series of concentrations and 4 times of 
repetition. The research materials, namely dlingu stem and single clove garlic 
tubers were extracted, phytochemical screening was carried out and then 
antiradical free IC50 was determined. Based on the test results of the 
chemical extract of dligu and single clove garlic, the highest content was 
alkaloid 5.16%, tannin 4.05%, saponin 3.01%, and flavonoid 2.18%. The test 
results of the chemical antioxidant activity of extracts dligu and single clove 
garlic contain IC50 values of 17.062 ppm, including a very strong class of 
antioxidants. 
 
 

ISSN : 2580-2410 
eISSN : 2580-2119 

 
 

 
Antioxidant Activity In Combination Extract of Acorus Calamus L. 
(Dlingu) and Allium Sativum (Garlic) 
 
Pramita Laksitarahmi Isrianto1 & Putu Oky Ari Tania2 
 
1Educational Program of Biology, Faculty of Language and Science, Wijaya Kusuma  
  University, Surabaya, East Java, Indonesia 
2Biomedical Department and Biomolecular Research, Faculty of Medicine, Wijaya Kusuma  
  University, Surabaya, East Java, Indonesia 
 
 
 
 
 
  
  
 
 
 
 
 
 
 
 
Introduction 

The development efforts toward natural materials as traditional medicine is 
conducted immediately to find out the newest medicines in overcoming the various of health 
problems which is caused by the modern medicine contain chemicals that have side effects 
either direct effects or indirect accumulated effects (Nurhasan, 2015). The utilization of 
natural materials which is used as medicine rarely causes the side effects. 

One of the efforts is to optimize the utilization of natural materials which have the 
potential as medicine, including Dlingu (Acorus calamus L.) from Araceae family.  Dlingu 
(Acorus calamus L.) is a water plant which is found excessively as the wild plant at the bank, 
marsh and the flooded material during the year. Biological activity that is resulted by Dlingu 
plant is able to produce the compounds particularly from the class of Terpen, Flavonoid, 

        OPEN ACCESS             International Journal of Applied Biology 

Keyword 
Antioxidant, 
Dlingu, 
Single Clove (Male) 
Garlic. 

Article History 
Received 12 December  2018 
Accepted 10 June 2019 

International Journal of Applied Biology is licensed under a 
Creative Commons Attribution 4.0 International License, 
which permits unrestricted use, distribution, and reproduction 
in any medium, provided the original work is properly cited.  

 

International Journal of Applied Biology, p-ISSN : 2580-2410 e-ISSN : 2580-2119. 
Journal homepage : http://journal.unhas.ac.id/index.php/ijoab



International Journal of Applied Biology, 3(1), 2019 

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alcohol saponin, aldehyde, and phenol such as, karvakrol, eugenol, timol, sinamaldehyde, 
sinamat acid, and perilaldehyde, volatile oil (Nurhasan, 2015).  The high and low quality of 
volatile oil depends on the area of Dlingu rhizome itself. 

According to Afifah (2015), combination extract of Acorus calamus (L.), Curcuma 
mangga Val, and  Allium sativum (Linn) is able to keep down Candida albicans.  Antioxidant 
can be found from natural materials that were dominated by land plant as medicinal plant 
such as Dlingu and garlic. Chemical substances of garlic which have biological activity and the 
benefits in treatment, namely; the compound of organosulfur (the compound of S-ak(en)-il-
L-Sistein sulfoxide (ACSOs) such as allicin. The active substances that contain in garlic have 
the special utility as the medicine of high blood pressure, to assuage a headache, to reduce 
the cholesterol, as the medicine of stomach disorder, as anti-cancer, and as anti-inflammation  
(Ikhtiarsyah,  et al., 2014). Moreover, the male species of garlic (Allium sativum) is besides as 
herbal antibiotic, also able to treat the wound, reduce the inflammation and does not cause 
the scar tissue, accelerate the decreasing of inflammation symptom  ( florid symptom) at the 
wound. It is caused by the content of active substance -Allicin which has the function as anti-
inflammation. Garlic is enriched by vitamine B1, B2, B3, folate, vitamine C, calcium, iron, 
magnesium, mangan, phosphor, calium, natrium and zinc (Wadrianto, 2017). 

Based on the background above, the utilization of combination extract of Dlingu and 
garlic has not yet been observed excessively, if it is compared to the only individual plant. 
Therefore, the combination of extract is conducted because on each of plants has a potential 
as antioxidant, thus it is expected to prevent and treat infection that is caused by the activity 
of normal floral bacteria, such as S.aureus and Candida albicans. Later, from the combination 
extract of both plants is also expected to make the supply like as embrocating oil for anti-
inflammation in increasing the value of product. Based on some previous researches, both 
plants Dlingu and single clove garlic have the potential as antioxidant. The main function of 
antioxidant is to minimize the occurrence of oxidation process either in the foods or the 
bodies. Besides antioxidant is used in industry of pharmacy, it is also used widely in foods’ 
industry, petroleum’s industry, rubber’s industry, and so on (Sayuti & Rina, 2015). In the 
bodies, antioxidant is also expected able to obstruct the oxidation process. Oxidation process 
which occurs continuously can affect the degenerative disease and aging. This research aims 
to know the antioxidants’ activity in combination extract of Acorus calamus L. (Dlingu) and 
Allium sativum  (Garlic). 
 
Materials and Methods 

The research was done in laboratory of biology FBS Wijaya Kusuma University of 
Surabaya and laboratory of research association and industrial consultation (BPKI). It was 
conducted on June until September 2018. The sample that was used is the extract of single 
clove of garlic (Allium sativum) and the extract of Dlingu rhizome (Acorus calamus L.) by using 
descriptive qualitative method. 

Tools that were used during the research are the cutter, grinder, oven, big tray, 
analytical balance, watch glass, Erlenmeyer 500 mL, 250 mL, aluminium foil, shaker, 
graduated glass 100 mL, beaker glass 100 mL, distillated paper, filter Buchner, rotary 
evaporator, Spectrophotometer UV-VIS, incubator, vortex, autoclaf, disk paper, ose needle, 
petri cup, reaction tube, spatula. The steps that were conducted in this research are: 
 
 
 



International Journal of Applied Biology, 3(1), 2019 

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Preparation of Sample 
The sample that was used in this research is Dlingu rhizome and single clove garlic or 

is usually called the male garlic which obtained from traditional market Buduran Sidoarjo. The 
sample of Dligu rhizome and single clove garlic were washed previously until clean, then, dried 
with the wind. Furthermore, was conducted the process of sorting, washing, cutting into the 
small pieces, drying, grinding and filtering thus dry powder of each plants was obtained. 
 
Maceration Method 

The sample as much 100 gr was macerated by 70% ethanol solvent and was waited 
during 1x24 hours, after that, the obtaining extract was filtered by using vacuum filter 
Buchner. Then, the obtaining filtrate was putted into the rotary vacuum evaporator during 24 
hours until thick extract was obtained. 
 
Determining photochemistry analysis of alkaloid, tannin, saponin and flavonoid  

The extract was  done in laboratory of research association and industrial consultation 
(BPKI). 
 
Test of antioxidant’s content 

For determining the antioxidant’s activity of each concentration, solvent sample was 
taken 1 mL by using micro pipette, putted into reaction tube, then added 4 mL DPPH solvent 
50 µM. The mixture was homogenized and left during 30 minutes in the dark place, the 
absorption was measured by using Spectrophotometer UV-VIS in wave length 517 nm. The 
antioxidant’s activity of sample was determined by the large of radical absorption resistance 
DPPH through percentage calculation (%) inhibition of absorption DPPH (Renhoran, 2012). 
IC50 value was calculated from regression linear curve between the concentration of various 
concentration toward percentage (%) of antioxidant’s activity (Kuntorini & Maria, 2010). 
 
Results and Discussion  

On this research, the aim is to determine the existence of antioxidant’s activity in 
combination extract of Dlingu and single clove garlic. The sample of this research is Dlingu 
rhizome and single clove garlic or is called the male garlic. Previously, the sample was sorted, 
then, prepared the sample of Dlingu stems as much 350 gram and male garlic tubers as much 
200 gram. After both sorted samples which were cut into small pieces were blown to bits by 
using grinder to expand the surface thus to ease the extraction process and to produce the 
excessive extraction. The method that was used in extracting the sample is maceration 
method by using ethanol solvent because its characteristics of high polarity, low boiling point, 
and able to extract the material more excessive than the other organic solvent. Based on the 
result of organoleptic on the table 1, was found the result as follows: 

 
Table 1.  Organoleptic of  combination extract of Dlingu and male garlic 
No. Organoleptic The information of Maceration Result 

Dlingu Male garlic Combination  

1 Form  Liquid Liquid  Liquid  

2 Color  Deep brown (sepia) Jet deep brown Brown  



International Journal of Applied Biology, 3(1), 2019 

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The test of photochemistry compound became the first base in detecting the existence 

of a secondary metabolic compound in the sample. Based on the test result, the compound 
in combination extract of Dlingu and garlic can be seen on the table 2. 
 
Table 2.  Test of compound in combination extract’s sample of Dlingu and male garlic. 
No. Contents  Percentage (%) 

1 Alkaloid 5,16 

2 Tannin 4,05 

3 Saponin 3,01 

4 Flavonoid 2,18 

 
The test result of compound in combination extract’s sample of Dlingu and single clove 

garlic on this research showed the excessive contents were alkaloid 5,16 %, tannin 4,05%, 
saponin 3,01%, and Flavonoid 2,18%.  

The compound of Flavonoid, xenolic, tannin are the responsible compound toward 
the antioxidant activity. The research result of Prasanto et al (2017) showed that the single 
clove garlic has the stronger antioxidant ability rather than the other variety of garlic. 

Alkaloid compound has the great role in antioxidant, particularly indol group because 
it has the ability to stop the free-radical chained reaction efficiently. Indeed, the other alkaloid 
compounds which have the characteristic as antioxidant are quinolone, caffeine which acted 
as the reducer of radical hydroxide; and melatonin for radiation and toxicity of medicine 
(Harrizul  et al., 2013). 

Based on the observed research, it also showed that the extract of ethanol and 
chloroform of the garlic extract contained much compounds of alkaloid and triterpenoid 
(Azzahra, 2015). This fact was also showed on Silistyorini’s research (2015), suggested that 
the result test of higher potential antioxidant in ethanol extract of garlic (Allium sativum Linn) 
has IC50 value as much 151,1 ppm. 

The result of activity test in combination extract of Dlingu and single clove garlic on 
this research was categorized strong 17,062 ppm (table 3). From the table 3, it also can be 
seen that the inhibition % of concentration 50 ppm was as much 14,66, concentration 100 
ppm as much 37,45, concentration 150 ppm as much 50,82,  concentration 200 ppm as much 
68,72, and concentration 250 ppm was as much 83,14. The resulted average was highest on 
the concentration 250 ppm. On the table 4.4 above, the result of antioxidant activity in 
combination extract of dlingu and male garlic showed that the strongest antioxidant activity 
was caused by IC50 value < 50 µg/mL, as cited on Phongpainchit et al research (2007) that the 
antioxidant activity was very strong if IC50 value  ≤ 50 µg/mL, it was strong if IC50 value 50-100 
µg/mL, it was medium if IC50 value 100-150 µg/mL, it was low if IC50 value 151-200 ppm, 
meanwhile if IC50 value ≥ 200 ppm then its antioxidant’s activity was very low. Based on the 
research which was conducted by Kurniati (2013) explained that the compound of alkaloid, 
saponin, flavonoid, and phenolic in 70% ethanol fraction of the leaf Premna cordifolia Linn 

3  Scent  Exclusive Exclusive smell of 

garlic 

Exclusive smell  



International Journal of Applied Biology, 3(1), 2019 

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was responsible compound toward antioxidant activity. Some of Dligu rhizomes (Acorus 
calamu L.) also emphasized that the rough extract of Acorus calamu L. By using DPPH method 
with ethanol solvent showed the medium antioxidant activity with IC50 value 137,7 mg/L 
(Hasan, 2015). 

 
Table 3.  Test result of antioxidant’s activity in combination extract of Dlingu and male garlic 

 
Figure 1.  Linear regression curve of antioxidant test in combination extract of Dlingu and 
single clove garlic by using DPPH method 
 

Based on figure 1 above, it showed that the higher of ppm concentration then % value 
of inhibition was more increasing, and it showed the existence of relationship between the 
concentration and % inhibition. Antioxidant activity was influenced by compound structure 
on sample, thus the occurrence of inhibition (%) can be influenced by compound structure on 
sample. Electron relocation of secondary metabolic compound such as alkaloid and phenol 
occured through the resonance in radical structure of antioxidant, thus prevented the 
forming of new radical and obstructed the chained reaction of free radical (Cholisoh and 
Utami (2008) as cited by Sulistyorini (2015). From the result test above, combination extract 
of dligu rhizome and single clove garlic tuber contained alkaloid, tannin, saponin and 
flavonoid (table 2) which quite high thus, these compounds were expected in having the 
potential as anti-inflammation compound. Combination extract of both can catch radical with 
higher extract concentration, thus the result of IC50 value was categorized strong. 

 
 
 

y = 2.9502x - 0.3343
R² = 0.9926

0

50

100

150

200

250

300

0 10 20 30 40 50 60 70 80 90

Sample 

concentration (ppm) 

Abs. 

Average 

% Inhibition IC50 
(inhibition 

concentration  50%) 

Antioxidant 

activity 

50 0,734 14,66  

 

17,062 ppm 

 

Very strong  

(IC50< 50 

ppm) 

100 0,538 37,45 

150 0,423 50,82 

200 0,269 68,72 

250 0,145 83,14 



International Journal of Applied Biology, 3(1), 2019 

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Conclusions 
Combination extract of Acorus calamus L. (Dlingu) rhizome and Allium sativum (single 

clove garlic) tuber had the very strong influence toward antioxidant activity with antioxidant 
value as much 17,062µg/mL. 
 
References 
 
Azzahra, Velayaty L. 2015. Profile of Thin Layer Chromatography in Ethanol Extract of 

Mango’s Ginger (Curcuma mangga Val), (Acorus calamus) Rhizome, Garlic Tuber 
(Allium sativum) and Their Ingredients. Minithesis. Biology department, FST. Islamic 
state university of Maulana Malik Ibrahim.Malang 

Harrizul, R., Ernita W.S. and Rusdi.2013. Ratio Influence of Ethanol-Water Solvent toward 
The Total Content of Phenolic Compound and Antioxidant Capacity of Soursop Leaf’s 
Extract (Annona muricata L.) .journal of sciences and pharmaceutical 
technology.page 35-42.ISSN:1410-0177. 

Hasan, Muhammad Nur. 2015. The Influence of Rhizome Extract (Acorus calamus L) in Some 
of Organic Solvents toward Antioxidant Activity and Antifungus in Vitro. 
https://www.researchgate.net/publication/308916822. 

Ikhtiarsyah, Yusrista Gilang, Inna A, Maria D.S., Endang Sulistyiorini. 2014. Bawang Putih/ 
Garlic (Allium sativum L.).http://ccrc.farmasi.ugm.ac.id/en/?page_id=441. It was 
accessed on 2nd march 2018. 

Kuntorini, Evi Mintowati, Maria Dewi Astuti. 2010. Determining Antioxidant Activity in 
Ethanol Extract of Eleutherine americana Merr.. journal of science and  applied 
chemistry, Vol.4, Number. 1:15 – 22. 

Kurniati, Ruth Indah. 2013. Antioxidant Activity Test of (Premna cordifolia Linn) Leaf by Using 
DPPH Method (2,2-difenil-1-pikrilhidrazil). Publication document. Pharmacy Program. 
Medical faculty. Tanjungpura University. Pontianak.  

Nurhasan, Muhammad.2015. The Influence of Rhizome Extract (Acorus calamus L) in Some 
of Organic Solvents toward Antioxidant Activity and Antifungus in Vitro. Minithesis. 
UIN Syarif Hidayatullaaah.Jakarta. 

Prasonto,Djuned, Eriska Riyanti, Meirina Gartika. 2017. Antioxidant Activity Test of Garlic 
Extract (Allium sativum).ODONTO Dental Journal. Volume 4(2).2017. 

Renhoran, Mawaddah. 2012. Antioxidant Activity and Antimicrobe of Extract Sargassum 
polycystum. Minithesis. IPB. Bogor. 

Sayuti, Kesuma, Rina Yenrina. 2015. Natural and Synthetic Antioxidant Andalas University 
Press.Padang. 



International Journal of Applied Biology, 3(1), 2019 

 7 

Sulistyorini, A. 2015. Antioxidant and Antifungus Potential of Garlic Tubers Extract (Allium 
sativum L.) in Some of Organic Solvents. Minithesis. Biology department,  Science and 
Technology Faculty, Maulana Malik Ibrahim Islamic State University. Malang 

Wadrianto, Glori K. 2017. 12 Amazing Use of  Garlic. 
http://lifestyle.kompas.com/read/2017/11/01/110036020/12-manfaat-
menakjubkan-dari-bawang-putih. it was accessed on 30th March 2018.