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Ital. J. Food Sci., vol 28, 2016 - 536 

SHORT COMMUNICATION 
 
 
 
 
 

STATUS OF BENZOIC ACID AMOUNT DURING 
PROCESSING FROM YOGHURT TO ITS BY-PRODUCT 

DRINK (DOOGH) 
 
 
 

ZAHRA ESFANDIARI1*, MOHAMMAD SARAJI2, ROYA ALSADAT MADANI1 
and ELHAM JAHANMARD1 

1 Department of Research and Development, Department of Food and Drug, Isfahan University of Medical 
Sciences, Isfahan, Iran 

2 Department of Chemistry, Faculty of Chemistry, Isfahan University of Technology, Isfahan, Iran 
*Corresponding author: research_esfandiary@mui.ac.ir 

 
 
 
 
 
 

ABSTRACT 
 
The addition of benzoic acid is forbidden in by-product drink of yoghurt "Doogh" in Iran. 
However, this preservative can be naturally found in milk and its products. A total of 24 
and 48 samples of yoghurt and Doogh were analyzed by HPLC method to assess the 
natural and permitted amount of benzoic acid. All samples of yoghurt and Doogh 
contained benzoic acid in mean amount of 1.5-5.0 mg/kg and 0.8-4.7 mg/ L, respectively. 
These findings showed that the amount of 6 mg/L can be defined for benzoic acid as 
admissible limit for Doogh in Iran. 
 
 
 
 
 

Keywords: benzoic acid, yoghurt, Doogh, admissible limit, HPLC, Iran 
 



	
  

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1. INTRODUCTION 
 
Doogh is a traditional fermented drink which is widely used in Asia and produced from 
salt, set yoghurt and water (ZAMANI MAZDEH et al., 2014). This product is known with 
different names like "Ayran" in Turkey and "Lassi" in India (YILDIZ et al., 2012; 
HINGMIRE et al., 2009). Similar to other acidified drinks, one of the main problems with 
Doogh is microbial contamination leading to the spoilage and safety reduction of this 
product (ELVIRA et al., 2014; SOSPEDRA et al., 2012). For this purpose, the antimicrobial 
preservatives such as benzoic acid and/or its salts are usually added to Doogh to impart 
many advantages including increasing their shelf life, but the unpleasant effects of these 
additives have been reported in some surveys (ZENGIN et al., 2011; KAMANKESH et al., 
2013; ZAMANI MAZDEH et al., 2014). The use of chemical additives in different countries 
is restricted by the specific policies adopted. In Iran, the scientific panel on the food 
additives in " Food and Drug Administration: FDA" and "Institute of Standards and 
Industrial Research of Iran: ISIRI" has prohibited the use of benzoic acid in the dairy 
products. The existence of benzoic acid in those products leads to fine payment by the 
producers and suspension of the production licenses (ISIRI, 2008). Recent evidences 
suggest the natural occurring of benzoic acid in yoghurt and its transfer to diluted and 
salted formulation prepared thereof (Doogh) (ESFANDIARI et al., 2013; ZAMANI 
MAZDEH et al., 2014; AMIRPOUR et al., 2015). This can cause the misinterpretation of the 
inspected results regarding the existence of the natural or added benzoic acid to Doogh. In 
fact, the use of benzoic acid is not allowed in the dairy products in Iran even though the 
presence of the naturally-occurring benzoic acid in the fermented dairy products has been 
reported by many workers (SIEBER et al., 1995; IAMMARINO et al., 2011; HORNICKOVA 
et al., 2014). The source of benzoic acid can be hippuric acid as the natural compound in 
milk that changes to benzoic acid through the fermentation of the lactic acid bacteria in 
yoghurt (SIEBER et al., 1999). To author's knowledge, there have been no controlled study 
which determines the natural amount of benzoic acid in Doogh. Therefore, this project was 
undertaken to assess the level of benzoic acid as the natural and permitted value in 
Doogh. These findings could help FDA and ISIRI to reassess the status of the enacted rules 
for benzoic acid in Doogh and resolve the legislative issue in Iran. 
 
 
2. MATERIALS AND METHODS 
 
2.1. Samples 
 
Set yoghurt samples (n=24) were taken from three commercial brands of the dairy 
processing plants (A, B and C; for each 4 samples) and small scale brands (D, E and F; for 
each 4 samples) with high sale in Isfahan, Iran. A total of 12 Doogh samples were 
manually prepared by mixing 0.7, 40 and 59.3 g of salt (NaCl), yoghurt sampled in the 
previous stage (for each brand 2 samples) and water, respectively. A sum of 36 Doogh 
samples from three aforementioned brands (A, B and C; for each 12 samples) were 
purchased from the local food stores located in Isfahan, Iran. All samples were kept at 4º C 
before the examination would be begun. The analysis was performed in two replicates to 
determine the mean of the measurements for benzoic acid.  
 
2.2. Instrumentation and quantification 
 
A Hewlett–Packard 1090-II liquid chromatograph (now Agilent, Waldbronn, Germany) 
equipped with a diode array detector was used. The system was equipped with a 



	
  

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Rheodyne 7725i injector with a 20-µL loop. The separations were carried out at the room 
temperature on a 3-µm, 150 × 3 mm I.D. Hector-A C18 reversed-phase column (RStech 
Co., South Korea) was preceded by a guard column (4 ×4 mm, 5 µm) of the same packing 
material from Merck (Darmstadt, Germany). The separation was performed isocratically 
using a mobile phase consisting of HPLC grade methanol (40%, v/v) and 0.25 mM 
ammonium acetate aqueous solution (60%, v/v at pH = 4.5). The mobile phase flow rate 
was 0.4 mL/min and the detection was performed at 230 nm. 
The stock standard solution of benzoic acid (99%, Merck) was prepared in methanol at 
1000 mg/L concentration level. More diluted standard solutions were prepared in the 
pure water at the concentrations ranging from 1 to 50 mg/L. Pure water was prepared by 
Overseas Equipment & Services water purification system (OK, USA). 
Estimation of benzoic acid amount was performed according to a previous reported 
method (GUARINO et al., 2011). A 2-g yoghurt sample was mixed with 5 mL 
methanol/water (35/65, v/v). For Doogh analysis, 3 mL of the sample was mixed with 2 
mL methanol. The mixture was ultrasonicated for 5 min. It was then heated at 50 ºC for 5 
min and centrifuged in 2000 rpm (5 min). The clear supernatant solution was injected into 
HPLC. 
 
 
3. RESULTS AND DISCUSSIONS 
 
The results corresponding to benzoic acid level in the industrial (A, B and C) and small 
scale brands (D, E and F) yoghurt samples are listed in Table 1. The mean values of 
benzoic acid were in the range of 1.5-2.9 and 3.6-5.0 mg/kg in the samples collected from 
three yoghurt processing plants and small scale brands, respectively. Our findings imply 
to the presence of benzoic acid in all samples of yoghurt. The surveys on the presence of 
benzoic acid in all yoghurt samples in various studies, performed by MIHYAR et al. (1999), 
EL ZEINY (2009), YILDIZ et al. (2012), CAKIR and CAGRI-MEHMETOGLU (2013) and 
AMIRPOUR et al. (2015), revealed that the ranges found were higher than those described 
in the current study.  
MIHYAR et al. (1999) showed that the content of benzoic acid was in the range of 10.6 to 
1998.8 mg/Kg of Labaneh yoghurt in Amman. EL-ZEINY (2009) also pointed out high 
concentration level of benzoic acid in the amount of 921 mg/Kg in yoghurt ice dressing in 
Saudi Arabia. Furthermore, the amount of benzoic acid is stated from 9.36 to 26.21 in all 25 
yoghurt samples gathered from five cities in Turkey (YILDIZ et al., 2012). In another study 
in Turkey, a mean of 35.2 mg/kg of benzoic acid found in all 21 yoghurt (CAKIR and 
CAGRI-MEHMETOGLU, 2013). In a recent experiment by AMIRPOUR et al., (2015) in 
Iran, the mean amount of 29.3±8.6 mg/kg of benzoic acid detected in all yoghurt samples 
collected from four different brands of the dairy processing plants.  
In contrast, the detection of benzoic acid was reported in 80% of yoghurt samples in 
Turkey (KOYUNCU and UYLASER, 2009). Additionally, Benzoic acid was not observed in 
yoghurt samples examined in Spain, Brazil and China (GONZALEZ et al., 1998; TFOUNI 
and TOLEDO, 2002; WANG et al., 2006). 
Table 1 illustrates the benzoic acid value in the manually manufactured Doogh. Benzoic 
acid was found in the range of 0.8-2.2 and 2.6-4.0 mg/kg in Doogh made from the yoghurt 
collected from the dairy processing plants and small scale brands, respectively. Since 
Doogh is a diluted and salted formulation prepared from yoghurt, processing yoghurt to 
Doogh leads to a decrease in the benzoic acid content with amount of around 60-75%  
As table 1 shows the amount of benzoic acid was higher in yoghurt and Doogh samples 
collected from the small scale brands. A probable explanation could be related to the lack 



	
  

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of controlling the quality criteria in the laboratory and proper hygiene practices as 
observed by the researchers. 
 
 
Table 1: Mean of benzoic acid concentration (mg/kg) in yoghurt and manually manufactured Doogh 
(mg/L). 
 

Sample Brand Yoghurt 
a 

(Mean±SD) 
Manually manufactured Dooghb 

(Mean±SD) 
A 2.9±0.13 2.2±0.34 

B 1.7±0.14 1.2±0.02 

C 1.5±0.10 0.80±0.10 

D 4.0±0.39 2.6±0.34 

E 3.6±0.12 2.6±0.21 

F 5.0±0.21 4.0±0.25 

aStandard deviation calculated for 4 samples of yoghurt. 
bStandard deviation calculated for 2 samples of manually manufactured Doogh. 
 
 
Benzoic acid concentrations quantified in the industrially made Doogh are revealed in 
Table 2. The results demonstrated all samples presented benzoic acid with the levels 
ranging between 3 and 5.6 mg/L. The presence of benzoic acid in our study was near 
agreement with (YILDIZ et al., 2012 and ESFANDIARI et al., 2013) that reported the 
content of benzoic acid in Ayran and Doogh samples in Turkey and Iran ranged from 1.54 
to 16.57 and 0.94 to 9.77 mg/ L, respectively. AKBARI-ADERGANI et al. (2013) and 
ZAMANI MAZDEH et al., (2014) pointed out the high concentration of benzoic acid with 
the mean of 195.9 and 21.3 in 27 and 130 Doogh samples in Iran. In similar study in Iran, 
benzoic acid content in Doogh samples purchased from four dairy brands including A, B, 
C and D were 22.2, 20.0, 19.4 and 21.5 mg/kg, respectively (AMIRPOUR et al., 2015). 
 
 
Table 2: Benzoic acid (mg/ L) level in the investigated Doogh. 
 

Sample brand Concentration range Mean±SD (n=12) 

A 3.9-4.2 4.0±0.1 

B 3.0-5.2 4.3±0.7 

C 4.0-5.6 4.7±0.5 
 
 
The amount of benzoic acid in the industrially manufactured Doogh was higher than 
manually ones. Whereas manually manufactured Doogh was prepared under the 
laboratory conditions and the industrially manufactured Doogh was purchased from the 
local stores, it seems that the storage, handling and hygiene conditions in the dairy 
processing plants is plausible justification for this status. Therefore, this part of the food 
chain requires continuous monitoring for good hygienic practice in the milk processing 
(Smith, 2003). 
Totally, the reason for the difference in the amount of benzoic acid in yoghurt and Doogh 
of the present study and others is not clear but it may be attributed to the several factors 
including the feed of the milk- producing animal, the season of milking, the breeding 



	
  

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conditions, the content of hippuric acid in the raw milk, samples size, type of commercial 
lactic acid bacteria starter, processing technique, storage condition and type of yoghurt 
analyzed as mentioned in other studies (SIEBER et al., 1999; GARMIENE et al., 2008; QI et 
al., 2009; HORNICKOVA et al., 2014; JAVANMARDI et al., 2015). 
The low level of benzoic acid found in the manually and industrially manufactured Doogh 
indicates that this compound is as the indigenous constituent transferring from yoghurt to 
Doogh. Regarding with the codex standard act, the permitted amounts of benzoic acid as 
preservative used in the fermented milk drink is 300 mg/kg (Codex, 2003). Therefore the 
amount of benzoic acid detected in present study should not affect the public health. To 
sum up, the permissible amount of benzoic acid could define less than 6 mg/L in Doogh. 
Below this value, samples can be considered "acceptable" in Iran because such a low 
concentration could originate from the natural endogenous formation of benzoic acid and 
not from the fraudulent addition. 
 
 
4. CONCLUSIONS 
 
An investigation of 72 yoghurt and Doogh samples was carried out to define the natural 
occurring amount of benzoic acid. In the current study, it was found that all yoghurt and 
Doogh analyzed contained benzoic acid in low level at less than 6 mg/L. This amount can 
be a permitted amount without having any harmful effect on the human health and 
considered as the admissible level for benzoic acid in Doogh in the national act by Iranian 
supervision authorities. Moreover, it is suggested further studies on the continuous 
monitoring and the measuring of benzoic acid content in milk and its products to declare 
the amount of this compound on the labels of packaging. The inserted data on the labels of 
packaging can be useful for the exposure estimation of the consumers with this 
compound. 
 
 
ACKNOWLEDGEMENTS 
 
Sincere thanks are forward to Research Council of Isfahan University of Medical Sciences for supporting the research 
project number 292227. 
 
 
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Paper Received November 5, 2016  Accepted April 11, 2016