Quality Aspects of Rice Based Fermented Beverage

Background: Cereal grains are one of the richest sources of important dietary fibers, proteins, vitamins, minerals, antioxidants, and other phytochemicals. However, flat flavor and poor sensorial properties make them less preferable to be consumed as raw. Fermentation improves the functional properties, texture, flavor, aroma, and restricts the growth of pathogens in the final product. Cereal based fermented drink has advantages over milk-based fermented food for vegans and people with milk allergies or lactose intolerance. Methods: In the present study, to obtain a fermented beverage, a cereal mix was formulated using wheat flour, rice flour, and germinated barley flour in a 4.5:4.5:1 ratio and fermented with curd for 24 hrs. Proximate analysis, microbial analysis, and sensory analysis were done to evaluate the quality and shelf life of the fermented drink. Results: Titratable acidity as lactic acid and protein content, was found 0.23% to 0.41% and 4.80% to 5.12% respectively. The fermented drink contained 9.83-10.12mg calcium, 9.29-9.38mg Iron, 7.36-7.49mg Sodium, and 7.13-7.88 mg magnesium per 100 gm. Sensory analysis showed overall acceptability of product till 10 days of storage. The product was found microbiologically safe, as no pathogens, mold, and fungi were observed. Conclusion and Objective: The present study focused on developing health-promoting cereal-based fermented beverage using rice flour, germinated barley, and other food adjuncts. The sensory, quality aspects, and microbial analysis for the above product were found acceptable among the consumers.


Introduction
Fermentation is an anaerobic metabolic process of microorganisms which is one of the foremost ancient ways to preserve food. In addition to that, it is also a natural way to enhance the nutritive value and also the appearance of the food while destroying the detrimental elements of food [1]. The use of fermented food is a long tradition, and a large number of fermented food products are consumed throughout the world. Types of fermented foods produced in a particular region depending on the availability of raw material in that region and microorganisms used for fermenting them. For instance, Kefir is a fermented drink made from milk and Mushroom. Kavas is a traditional fermented beverage of Russia made up of Rye flour and malt, Kumyss is prepared in Russia and Turkey from sour and fermented milk. India is also known for the consumption of a variety of fermented food and different types of fermented foods and beverages also prepared in a different region of India [2,3]. They are produced using various manufacturing techniques [4]. In modern times, changes in lifestyle and dynamic dietary pattern have led to the increasing supersede of diseases like type 2 diabetes, coronary cardiovascular disease, cancers, periodontal diseases, and obesity. Therefore, consumers' demand for health-improving functional food has increased tremendously in the last few years. Now a day's food is not only looked at as a way for satiety but also as a mean for supplementation for disease prevention and control. Hence, wholesome foods are required to meet the public requirement of healthy food. There are many kinds of fermented beverages are available in the market, which are mostly milk or fruits based fermented drinks. These beverages provide many health benefits and serve as a good source of vitamins and minerals that contribute to the overall strength of our body. Fruit-wine is one of the fruit beverages which is undistilled alcoholic beverages typically made up of grapes or alternatives fruits. Milk-based fermented products have anti-microbial, anti-mutagenic, anticarcinogenic, and anti-hypertensive properties [5][6][7]. Although dairy products are good for health, but lactose intolerance and cholesterol content are associated with them. Hence, to overcome these demerits, non-dairy cereal-based beverages/foods could be the best alternative to fruits or milk-based fermented dinks. Cereal based fermented beverages are preferred over other fermented beverages because cereals like rice and barley are the richest source of dietary fibers, and minerals, fermentation improves their other nutritional properties and enrich them in essential amino acids and vitamins that are lacking in non-fermented cereals [8,9]. Barley is also endowed with β-glucan and is known for strong antioxidant, anti-inflammatory, and cholesterol-lowering abilities [10,11].
In India, cereals are preferred most in the form of breakfast while some of them are used as main foods in the diet. Microbial fermentation enhances the nutritional value of cereals and grains, it solubilizes the phytate complex and reduces 40-60% antinutrients (phytates, tannin, polyphenol) contents thus improves the nutrient availability and increases the essential amino acids, lysine, methionine, and tryptophan content, total soluble solids, and non-protein nitrogen contents [12][13][14]. Fermentation has also been shown to enhance the flavor, mineral bioavailability, vitamin contents, and antioxidant properties of various cereals [15][16][17]. During fermentation, micro-organism also produces many bioactive and antimicrobial compounds [7]. Fermented beverages prepared from different types of cereals (wheat, barley, and rice) are well known in different parts of the world but least available in India. They are comparatively cheap as compared to other milk and fruit-based beverages. However, exhibit much higher health benefits than other fermented beverages, presently available on market. Therefore, the present study is planned to develop healthpromoting cereal-based fermented beverage using rice flour, germinated barley, and other food adjuncts. The sensory, quality aspects, and microbial analysis for the above product was also carried out.

Procurement of Raw Materials
The ingredients that were used for the formulation of fermented beverages, Wheat, Rice, and Barley (Wheat and rice are used in raw form whereas barley was germinated), were procured from the local grocery market in Mysore, Karnataka. The obtained raw material was stored at room temperature, in airtight containers.

Preparation of Mother Culture
Wheat and rice were pulverized and passed through 60 mesh.
The lower fraction was taken for further product development.
Barley was soaked and germinated and then dried. The dried germinated barley was then pulverized and passed through 60 mesh sieves. All the above ingredients (wheat, rice, and barley) were weighed, and curd culture (in a known amount) was added, followed by sugar. This mixture was kept in an Incubator at 35 °C for 24 hours (Image 1).

Formulation of Beverage
The raw material viz wheat flour, rice flour, and germinated barley flour, were taken in a ratio of 4.5:4.5:1. A known amount of water (50 ml) was added, and the mixture was then heated on a hot plate (70-80 °C) for 10 min, cooled. A known amount of sugar (10 gm) and mother culture (1 ml) was added. This drink was then kept for fermenting at 37 °C for 24 hours. Then, the next day beverage was bottled and stored under refrigeration (Image 2). resolution [19].

Microbial Analysis of the Beverage
Pour plate method was employed for microbiological analyses of the drink. One ml of sample was drawn every day for up to 7 days and evaluated for the presence of bacteria and molds. Serial

Sensory Analysis
Quantitative Descriptive Analysis (QDA) is used for profiling the samples. A suitable core card with selective sensory attributes was used for this. The sensory quality of the product was judged by10semitrained panelist using a 9-points Hedonic scale. The mean value for each attribute was calculated after panel judgment. All samples were acceptable and there was no perceptible off odor or off-taste in the sample. These were graphically depicted as "sensory profile".

Statistical Analysis
The experiments were done in triplicates, and the average values were reported. Paired t-test was carried out for the Initial and final set of data, after carrying out the normality plots for the entire set of data.

Results and Discussion
The

Proximate Composition of the Beverage
The moisture content of the sample drink ranged from 70.4 0-70.18 %, for 10 days. The paired t-test was carried out for the initial and final moisture content after 10 days of storage, wherein t (2) = 0.439, p=0.704, hence no significant difference was found between the moisture content initially and after storage of 10 days. An overall decrease of 0.22 % of moisture was observed over a period of 10 days (Table1). According to Karki, et al. [20] 2016, the moisture content in a Nepali alcoholic drink, was reported to be around 76-80%. The mean fat percentage of the sample was calculated as 0.113% to 0.100 % over 10 days period. Once again, no significant difference was observed in the fat content as reflected by t value, t (2)= 0.918,p=0.456. The overall fat decrease over a period of 10 days was found to be 0.01%. According to Obadina, et al. [21] the fat content decreased from 2.87% to 0.87% in a fermented soya drink nono. A decrease in the fat content of soymilk was found with the increase in fermentation time, this might be associated with the increased lipolytic enzyme contents during fermentation which degraded fat components (triacylglycerol) into fatty acid and glycerol. The mean protein percentage of the sample was increased from 4.80% to 5.12 %, over a period of 10 days. The overall increase in protein was around 0.32%, with a 95% confidence interval for the difference between the means of 0.10-0.53, which was found to be significant as reflected by t value, t (2) = 6.48, p=0.02. The increase in protein contents may be reasoned due to some anabolic processes leading to polymer build-up or due to microbial cell proliferatio These findings were supported by Obadina, et al. [21] where protein concentration was estimated to increase from 2.69% to 5.09% after fermentation. The mean ash content of the drink was 0.37-0.42% over a period of 10 days. An overall increase of 0.05% in ash value was observed, however, there was a significant difference between the initial and final ash content, as reflected by t value, t (2)= .87, p=0.202. Shirley and Parsons [22,23] reported that change in ash contents may be linked to the change in protein kcal, however, it was not found to be significant, t(2)=3.33, p=0.079.

Mineral Content of the Beverage
The mineral content of the sample was done by Atomic Absorption Spectrophotometer. Minerals are the main component of any fermented drink. The Cereal-Based Fermented Drink was rich in Calcium, Iron, Sodium, and magnesium. The fermented drink contained 9.83mg/100g calcium, 9.29mg/100g Iron, 7.36mg/100g Sodium, and 7.13mg/100g Magnesium, after 24 hrs of fermentation (Table 1). However, after 10 days of storage, the mineral content was found to be 10.12 mg/100 gm calcium, 9.38 mg/100 gm Iron,

Visual Properties of The Beverage
Colour of Beverage: The redness is maximum as it measured (55.98), followed by the brightness that is measured as (44.54) the yellowness is very less that is (2.31), whereas the darkness is measured as (16.36). The overall brightness and redness are higher as compared to yellowness and darkness ( Table 1). The

redness usually increases after fermentation thus in this sample
the redness is high followed by brightness, whereas yellowness slightly decreases after fermentation, which is reflected in the yellowness value for the beverage. Over a storage period of 10 days scale. The individual granules in the case of wheat were found to be polymorphic in shape and some were compact also. As regards the size, the most frequent were granules with a diameter4-6µm

Microbial Analysis of Beverage
The microbial quantification of samples was carried out on different culture medium for the total bacterial count, lactobacillus, yeast mold, and fungi count up to 7 days. Total bacterial count ranges from 5-10 X 10 4 CFU per ml, but no fungi and mold count were observed in the samples up to 7 days of incubation.

Shelf-Life Analysis
The samples were stored under the refrigerated condition for a period of 10 days. For analysing shelf life, samples were withdrawn daily and analysed for pH, Acidity, Alcohol, and TSS by Refractometer (

Sensory Analysis of Fermented Drink
Organoleptic valuation of a fermented drink made from cereal flour is given in (Table 1), ( Figure 5). The preliminary evaluation by the untrained panel showed on Day 1 that all the attributes viz color, taste, etc. Of sample were in ranged between 7.5 to 8.5 which is acceptable (Table 1). On the initial day of tasting the mean color value was 8.47, whereas on the last day (Day-10) it ranged between 7.76. There was a significant difference in the color value as reflected by t value, t (9) =2.88, p= 0.018. The sensory scores for taste had a mean value of 8.45, which decreased to 8.11. However, it was not found to be significant, t (9) = 2.038, p=0.072. The aroma had a mean sensory score of 7.8, which decreased to 7.6, at the end of 10 days period. The difference was found to be significant, t (9) =2.449, p=0.037. The mouthfeel and aftertaste had a mean sensory score of 7.85 and 8.65, initially and after a 10-day duration scores were 7.50 and 8.10 respectively. However, the difference was found to be significant in the case of aftertaste, t (9) =3.161, p=0.012, whereas in the case of mouthfeel it was found to be non-significant, t (9) = 1.769, p=0.111. The overall acceptability of fermented drink on the initial day was 8.20, which was found to decrease to 7.90 at the end of 10 days duration. However, the difference was not significant, t (9) = 1.964, p=0.081. The distribution of taste, mouthfeel, and overall acceptability scores revealed that fermented drink produced from cereal flours are in the acceptable range, over a period of 10 days.

Conclusion
India has a rich diversity of fermented foods, however, most of these food practices are regional and mostly confined within a specific community. The large diversity of Indian rice-based foods and beverages has the potential of being enriched resources for functional food development. This can be a new possibility to make an acceptable fermented product based mainly on rice and other food adjuncts' which are suitable substrates that can support high cell viability during cold storage. In addition, the developed beverage combines, interesting nutritional qualities, and probiotics.

Funding
Appropriate Funding was provided by the Institute, CSIR-

Author Contribution
SP conceived, supervised the work, and wrote the manuscript; KS carried out the experiments; MK carried out the microbial analysis and provided technical support.

Conflict of Interest
The authors declare there is no conflict of interest.