The study was conducted to investigate the physicochemical properties and microbial quality of <i>ititu</i> produced in the Borana zone. A total number of 35 <i>ititu</i> samples, 30 traditionally made plus 5 laboratories made <i>ititu</i>, were analyzed for their physicochemical properties and microbiological quality . The overall average (±SD) values for pH, titratable acidity, total protein, fat, total solids, and ash were 3.59 % ± 0.04 % , 2.86 % ± 0.18%, 7.26 % ± 0.41%, 9.85 % ± 0.73%, 21.23 % ± 1.48%, and 0.84 % ± 0.11%, respectively for traditionally made <i>ititu</i>. The result of all physicochemical parameters of traditional <i>ititu</i> was not significantly) different (P > 0.05) with laboratory-made <i>ititu</i> (control sample).The average (±SD) total bacteria count (TBC), coliform count (CC), yeast and mould count (YMC), Staphylococcus aureus count and Listeria monocytogenes count were 8.36 ± 1.29, 3.47 ± 0.51, 8.06 ± 1.28, 3.79 ± 0.91 and 3.15 ± 0.17 log10cfu/ml, respectively for traditional <i>ititu</i>. Whereas, the corresponding values for the laboratory-made <i>ititu</i> were 4.17 ± 0.55 log10cfu/ml, 0, 5.76 ± 0.57 log<sub>10</sub>cfu/ml, 0 and 0, respectively. Significant (P < 0.05) differences were observed between traditional and laboratory-made <i>ititu</i> for coliform, S. aureus and L. monocytogenes count. The Prevalence of pathogenic microorganisms for S. aureus and L. monocytogenes were 33.33% and 6.67%, respectively for traditionally made <i>ititu</i> while not detected for laboratory-made <i>ititu</i>. The results indicated that the quality of traditional ititu was substandard and not safe for consumption. This in general, the production of <i>ititu</i> in the study area requires intervention such as awareness creation of keeping good hygienic quality and pasteurization (heating up to boiling) of milk to be used for <i>ititu</i> making in order to make it safe from the public health point of view.
Livestock represents major national resources and forms an integral part of the agricultural production system in the country [
Traditional fermented milk products are widely consumed in the entire world. These products are an important supplement to the local diet and provide vital elements for growth, good health [
The consumption of milk and milk products varies geographically between the highlands and the low lands and even in the level of urbanization. In the lowlands like Borena, one of the pastoralists group in Ethiopia, where livestock keeping is the main occupation, milk is consumed by all groups of the society. In Borana, pastoralists traditionally ferment cow milk and this product is called ititu.It is considered as one of the special foods and served to many respected guests as well as to weaning-age children and the elderly. It is consumed as a side dish with traditional porridge or thin baked cereal bread [
However, there is limited work so far undertaken regarding ititu (traditionally fermented cow milk) and the recently available report also lacks bacteriological quality and physicochemical properties in particular to the Borana zone. Therefore, this work is aimed to evaluate physicochemical properties and microbiological qualities of traditionally fermented cow milk, ititu, in the selected districts of Borana Zone Oromia regional state, Ethiopia. The study also attempted to manufacture a prototype sample using the standard procedure of ititu in the laboratory for comparison of qualities.
The study was conducted in Yabello, Arero and Dire districts of Borana zone, Oromia regional state, Ethiopia, focusing on pastoralists who own cow and produce cow milk in order to get background information regarding production practices of the traditional fermented cow milk ititu in the area. The districts were purposively selected based on potential of cow possessions and accessibility and willingness of the households to take part in the study. Yaballo is located at a distance of 563 km from Addis Ababa, the Capital city of Ethiopia. Arero and Dire are located at equidistant (100 km), each to east and south of Yabello town, respectively. Yabello is located at 1350 - 1800 meter above sea level (m.a.s.l.) and it is located between latitude 4˚30'55.81'' and 5˚24'36.39''N and longitude 7˚44'14.70'' and 38˚36'05.35''E. Borana rangeland is found in the south most part of Ethiopian lowlands occupying about 555,000 hectares total land area [
According to respondents, ititu is made from cow milk by natural spontaneous fermentation without addition of any starter culture. Some respondents suggested that, it is also made from goat milk but it has no consistency like that of ititu made from cow milk. Souring of milk is practiced at any time when surplus milk is available and mainly during wet season. The complete process of fermentation takes place for 15 days but for immature ititu, which is locally called “Kelba”, the process of fermentation is only about 2 - 3 days. The study shows that the storage utensil used for preparation of ititu is called Gorfa (made from root fiber of some plants) and it is also used for churning of milk for butter production in the study area. Almost all respondents followed the same procedure for making ititu in the study area. According to the interviewed households, the procedure for making was: first the Gorfa is washed with water and mainly smoked with Olea africana (Ejersa), Terminallia brownii (Bireessa), Daansee, Acacia nilotica (Burquqqee) Maerua triphylla (Dhumasoo) and Combretumhereroense Schinz (Kennoo) were common Then the fresh raw milk is filled and tightly closing the Gorfa and hanging it in the Sepana (a part of the house in which some tool is hanging on it). The milk becomes traditionally fermented after 3 - 4 days and more than 4 days in Gorfa under room temperature. Whey liquid (Dhama) is removed from the container by wooden pipette after which fresh milk is added and the removed “Dhama” was usually drunk by group of people in the village. Further incubation of fermented milk for about 3 - 4 days forms “Kelba (immature ititu)” which is not hard and lacks consistency The removal of the whey liquid (Dhama) from fermented milk is more practiced within 3 - 4 days of interval and followed by addition of the fresh milk to fill Gorfa. This process continuous until the Gorfa is filled with hard curd). The result of survey indicated that, to obtain the hard card which is ititu it takes about 15 days.
A total of thirty-five ititu samples of fifteen days old ititu were collected from the pastoral households and laboratory-made to investigate the physicochemical properties and microbial quality of ititu. Thirty ititu samples from pastoral households and five ititu samples from laboratory-made were collected. ititu samples were prepared in the laboratory by simulating the traditional methods except for Pasteurization of raw milk and the addition of stature culture for fermentation (acidification). A total of five raw cow milk samples were collected from Yabello Research Pastoral and Dry Land Agricultural Research Center’s (YPDARC) dairy farm with proper hygiene from milking up to arrival to a laboratory of YPDARC for laboratory-made ititu. During collection, approximately 250 ml ititu sample was taken from the container into sterile glass bottles. The milk samples taken from the different containers at a market (from the sellers) were pooled in sterilized containers and thoroughly mixed and then, placed into sterile glass bottles. Then the samples were labeled and transported in icebox the same day to the Dairy Laboratory of Hawassa University where its physicochemical properties and microbial quality were analyzed.
Titratable acidity (TA) of the ititu samples was determined according to the method of the Association of Official Analytical Chemists [
T A % = N / 1 0 N a o H ( m l ) × ( 0 . 0 9 ) W e i g h t o f s a m p p l e × 1 0 0
The pH of the ititu samples was determined in the laboratory using a digital pH-meter based on the procedure described by O’Connor (1995). The pH meter was calibrated using buffers of pH 7.0 and 4.0 each time before the pH of ititu samples was measured. pH was measured by dipping the electrode of the pH meter into each representative sample (250 ml) upon arrival of the samples at a laboratory. Cleaning of the tip of the electrode with distilled water was employed between the testing of each sample.
The total solids content of the ititu was determined by oven drying at 105˚C overnight. Moisture and the total solid content were determined according to [
T S = w e i g h t s a m p l e C w t − w e i g h t s a m p l e d r y O v e n c r u c i b l e w e i g h t × 1 0 0
were, Cwt = crucible weight
The total protein content of the ititu samples was determined by the Kjeldahl method [
% N = ( V b − V s ) H C l c o n s u m e d × N H C l × 1 . 4 0 0 7 S a m p l e w e i g h t × 1 0 0
%CP = %N × 6.38 where,
%N = percentage nitrogen by weight;
Vs = volume of HCl used for titration of sample;
Vb = volume of HCl used for titration of the blank;
% CP = percentage of crude protein.
The fat content of ititu was determined according to the Official Methods of Analysis [
The ash content ititu was determined by incinerating 5 g in a muffle furnace at 550˚C for 6 h. After cooling in desiccators for a period of 45 minutes, the % of total ash content was calculated on a dry basis according to Official Methods of Analysis [
A s h = w e i g h t R e s i d u e w e i g h t S a m p l e w e i g h t R e s i d u e × 1 0 0
For total plate count, appropriate decimal dilutions were prepared that result in a total number of colonies on a plate between 30 and 300 [
N = ∑ CN ( 1 × n 1 ) + ( 0.1 × n 2 ) × d
where,
N = Number of colonies per ml of milk sample
∑C = Sum of all colonies on plates counted
n1 = Number of plates used in lowest dilution counted
n2 = Number of plates used in highest dilution counted
d = dilution factor of the lowest dilution used.
One ml of ititu sample was dispensed into sterile test tubes containing 9 ml of 0.1% peptone water and thoroughly mixed using whirl mixer. Subsequent serial decimal dilutions were prepared in a similar manner using 0.1% peptone water. Duplicate appropriate decimal dilutions were surface plated on Violet Red Bile Agar (VRBA) and incubated at 45˚C for 24 hours. After complete incubations, typically dark red colonies on uncrowned plates were considered as coliforms for colony counts. This was followed by a confirmatory test by transferring five colonies from each plate to tubes of 2% Brilliant Green Lactose Bile Broth (BGLBB). Gas production after 24 h of incubation at 32˚C was considered sufficient evidence of the presence of coliforms [
For yeast and mould count, ititu samples were serially diluted in peptone water and volumes of 1 ml of appropriate dilutions were plated in duplicate Petri dishes by the pour plate technique using Potato Dextrose Agar (PDA) (Oxoid, Pvt. Ltd. MU 096: Uk). Colonies were counted after incubation at 25˚C for 5 days [
1) Staphylococcus aureus
Presumptive colonies of Staphylococcus aureus were selected and subcultured on nutrient agar and incubated aerobically at 37˚C for 24 - 48 h. After this incubation on nutrient agar, bacteria were identified according to their Gram reaction, morphology and the catalase test. S. aureus was identified by the tube coagulase test (4 h), hemolysis (blood sheep as substrate), pigment production (golden yellow), mannitol and maltose fermentation. Samples were considered as positive for S. aureus when at least one colony was identified as S. aureus.
2) Listeria monocytogenes
For the detection of Listeria monocytogenes, well-mixed testing samples (25 ml) were homogenized in 225 ml of Listeria Enrichment Broth A and B and incubated for 24 h at 37˚C [
The results of physicochemical and microbial counts were first transformed to logarithmic values (log10) and these transformed values were analyzed using the General Linear Model (GLM) for least squares means in SAS 9.1 (SAS, 2009) using a fixed-effect model. The Least Significant Difference (LSD) test was used to separate the means and differences were considered significant at P < 0.05.
The following model was used for the analysis of physicochemical and microbial test of ititu;
Y i j = μ + β i + E i j
Yij = Individual observations for bacteriological quality and physicochemical properties of ititu (dependent Variable);
µ = Overall mean;
βi = ititu manufacturing types effect;
Eij = Random error.
Traditionally made and laboratory-made ititu (control) were analyzed for physicochemical properties (
| Variables | Traditional ititu | Laboratory made ititu |
|---|---|---|
| Total Solid (%) | 21.23 ± 1.48 | 21.58 ± 0.67 |
| Fat (%) | 9.85 ± 0.73 | 10.12 ± 0.62 |
| Protein (%) | 7.26 ± 0.41 | 7.31 ± 0.03 |
| Ash (%) | 0.84 ± 0.11 | 0.88 ± 0.18 |
| pH | 3.59 ± 0.04 | 3.55 ± 0.34 |
| Titratable Acidity (%) | 2.86 ± 0.18 | 2.92 ± 0.2 |
Values in the table are means ± SD of two replications; Values with the same letters in the raw are not statistically significant difference (P > 0.05).
The average total solid of traditional and laboratory-made ititu was 21.23% ± 1.48% and 21.58% ± 0.67%, respectively (
The highest value of fat percentage in both traditional and laboratory-made ititu in the current study was due to the difference in manufacturing procedure that continues the concentration of ititu was made by removing the whey component that comes due to syneresis.
The overall total bacterial counts (TBC) of traditional and laboratory-made ititu were 8.36 ± 1.29 and 4.17 ± 0.55 log10cfu/ml, respectively (
The mean coliform count (CC) of traditionally made ititu was 3.47 ± 0.51 log10cfu/ml; while no CC was detected for laboratory-made ititu (
| Microbial counts | Traditional ititu | Laboratory made ititu |
|---|---|---|
| Total bacteria (TBC) | 8.36 ± 1.29a | 4.17b ±0.55 |
| Coliform (CC) | 3.47 ± 0.51a | ND |
| Yeast and mold (YMC) | 8.06 ± 1.28a | 5.76 ±0.57b |
| Staphylococcus aureus | 3.79 ± 0.91a | ND |
| Listeria monocytogenes | 3.15 ± 0.17a | ND |
Superscripts in the same raw having different letters indicate a significant difference (P < 0.05) among the ititu samples; values in the table are means ± SD of two replications. ND= Not detected.
Difference (P < 0.05) between traditional and laboratory-made ititu samples might be due to the existence of coliform bacteria in milk and milk products which is an indicator of fecal contamination and unsanitary practices during production, processing, or storage for traditionally made ititu. The result of the present study for coliform counts of traditional ititu exceeds the acceptable limits of raw milk and milk product which was below ≤100 cfu/ml. This implies the traditional ititu was not safe for consumption while vice versa for laboratory-made ititu.
The mean yeast and mould count (YMC) of traditional and laboratory-made ititu were 8.06 ± 1.28 and 5.76 ± 0.57 log10cfu/ml (
1) Staphylococcus aureus
The mean count of S.aureus of traditionally made ititu was 3.79 ± 0.91 log10cfu/ml, while was not detected in the laboratory made ititu (
2) Listeria monocytogenes
The overall mean of Listeria monocytogenes count for traditional and laboratory-made ititu was 3.15 ± 0.17 log10cfu/ml and not detected (
1) Staphylococcus aureus
The overall prevalence of S.aureus for traditional and laboratory-made ititu sample was 33.33% (10/30) and 0% respectively (
| ititu types | Number of collected samples | Number of positive samples (n) (%) | |
|---|---|---|---|
| Staphylococcus aureus | Listeria monocytogenes | ||
| Traditional ititu | 30 | 10 (33.33) | 2 (6.67) |
| Laboratory made ititu | 5 | 0 (0) | 0 (0) |
poor in pre-milking washing udder, washing milking utensils with boiled water and quality water used for cleaning utensils in traditional fermented ititu. It also due to the fact that S. aureus appears in milk from cows affected with mastitis [
2) Listeria monocytogenes
In the present study of the 30 examined traditional made ititu samples, 2 (6.67%) were positive for the presence of Listeria monocytogenes;while no detected in laboratory-made ititu (
The result of all physicochemical parameters of traditional ititu was not significantly) different (P > 0.05) with laboratory-made ititu (control sample). ititu manufacturing was able to concentrate/increases the initial milk’s total solid nearly by two folds that will be a significant improvement of food from a nutritional point of view. The result of microbial quality showed that traditional production of ititu in the study area was not hygienic and safe for consumption while laboratory-made ititu was safe for consumption. In addition there is no significant difference (P > 0.5) among the three districts (which are traditional ititu) in terms of physicochemical parameters and microbial analysis. These results appear to suggest the following recommendation:
· The present study revealed that ititu made traditionally by pastoralists was found to be poor in quality and this was attributed to the poor hygienic conditions followed during handling and preparation of ititu. This calls the need for awareness creation and training of pastoralists to follow proper hygienic practices during milking and production of ititu and heating up to boiling of raw milk before used it to make ititu.
· The adoption of physicochemical properties of whey part of ititu, will need further study in the future.
· In the present study, lactic acid bacteria (LAB) responsible for the fermentation of cow milk and the production of ititu, not studied. Thus, identification and isolation of LAB responsible for ititu production deserves detailed study in the future
· In the present study, some pathogenic microorganisms like E. coli, Tuberculosis and Salmonella spp. were also not examined in the ititu production. So this calls for detailed study in the future.
The authors are grateful to Oromia Agricultural Research Institute (OARI) for financing this research project. Yabello Pastoral and Dryland Agriculture Research Center is highly appreciated for providing facilities to conduct the research.
“BGLBB” means “Brilliant Green Lactose Bile Broth”, “BPDO” means “Borana Zone Agricultural and Pastoral Development Office’’, “cAMP’’ means “Cyclic Adenocyne Monophosphate”, “CC” means “Coliform Count’’, “Cfu” means “Colony Forming Unit”, “EADD” means “East Africa Dairy Development”, “EMB” means “Eosin Methylene Blue”, “FA’’ means “Food and Agricultural Organization of United Nation”, “FCT” means “Federal Capital Territory”, “GLM” means “General Linear Model”, “IDF” means “International Dairy Federation”, “ILCA” means “International Livestock Center for Africa”, “ILRI” means “International Livestock Research Institute”, “LEB” means “Listeria Enrichment Broth”, “LMP” means “Livestock Master Plan”, “MFB” means “Modified Fraser Broth”, “MOA” means “Ministry of Agriculture”, “OARI” means “Oromia Agricultural Research Institute”, “PDA” means “Potato Dextrose Agar”, “TBC” means “Total Bacterial Count”, “VRLBA” means “Volatile Red Bile Agar”, “YMC” means “Yeast and Mold Count”, and “YPDARC” means Yabello Pastoral and Dryland Agriculture Research Center.
The authors declare no conflicts of interest regarding the publication of this paper.
Hussien, B., Hailu, Y. and Eshetu, M. (2021) Physicochemical Properties and Microbiological Quality of ititu (Traditionally Fermented Cow Milk) in Selected District of Borena Zone, Oromia Regional State, Ethiopia. Open Journal of Animal Sciences, 11, 125-138. https://doi.org/10.4236/ojas.2021.112010