Suitability of Roselle- Hibiscus sabdariffa L . as Raw Material for Soft Drink Production

drink production. It further highlights the nutrition, pharmacology, and limitations of the plant for soft drink production.


Introduction
Soft drinks refer to nearly all beverages that do not contain a significant amount of alcohol; they are typically carbonated water that do not contain up to 0.5% of alcohol of the total volume of the drink. According to O'Meara (2007), soft drinks are not so soft because the consumption of the drink has been linked to various ailments that include diabetes, stroke, and obesity. e drinks contain phosphoric acid, malic acid, citric acid, and tartaric acid, which corrode the surface of teeth and cause many dental problems and osteoporosis [1]. ese shortcomings can be avoided by taking naturally blended fruit juice or beverages such as roselle drink. Foods and beverages that originated from plants have been reported to be free from saturated fats, sugars, and salts and therefore prevent the build-up of some chronic disease conditions [2]. Roselle drink has been gaining popularity globally as a refreshing medicinal drink. Calyces of Hibiscus sabdariffa, commonly called roselle, are the major raw material for the drink.
Many parts of roselle such as leaves, seeds, flower, and roots are consumed, but the red calyces are the most useful [3]. Roselle calyces are utilized in the production of many food products including beverages, jam, and sauces. Extract of boiled roselle leaves can also be used for beverage production although on rare occasion. Several studies had been carried out on the nutritional and medicinal functions of roselle calyces. Adegunloye et al. (1996) reported that 100 g of the calyces had 49 J energy, 84.5% water, 1.99 mg protein, 0.1 g fat, 12.3 g carbohydrate, 2.3 g fibre, 1.2 g ash, 1.72 mg calcium, 57 mg phosphorus, 2.9 mg iron, 300 µg vitamin A, and 14 mg vitamin C. Wong et al. (2002) found that roselle calyces contain a high amount of vitamins (especially vitamin C), carbohydrate, protein, antioxidants, and also minerals. In addition, the extracts of roselle have been reported to contain phytochemicals, vitamins, and several minerals [4].
Despite the increasing popularity of the drink as a result of its health and nutritional benefits, one of the barriers for its preparation in huge quantity is poor shelf life [5,6]. e calyces used for the preparation of the drink have been reported to be a major source of contamination as they housed many microbes which spoil foods particularly fungi and bacteria [7]. Other sources of contamination include the unhygienic states of other materials for preparation (such as water, sweeteners and preservatives), the equipment used, packaging materials, the place of preparation, the processors' unhygienic conditions, and poor storage [6]. ese sources are, however, reported to give lower contamination when compared with the contamination from calyces [7,8]. Nwachukwu et al. (2007) reported that Staphylococcus aureus, Escherichia coli, and Pseudomonas aeruginosa are some of the microbes that are mostly found in the drink. e fungi spoil the drink by exuding mycotoxins that are detrimental to human health. is paper reviews the suitability of roselle calyces for the production of soft drink.

Uses of Roselle in Different Parts of the World.
Almost all parts of the plants are used for food preparation. e calyces are, however, the most useful [3]. e plant has been used in folk medicines, as a colouring agent, and for beverage or tea preparation. e calyces have been used to produce "Cranberry" in Florida, for liqueurs preparation in Europe for soft drink production in West Africa. In the United States, regulations allow the use of calyces extracts to manufacture alcoholic beverages [9]. e increased rate of consuming the drink is because of its nutrient and medicinal values, as it is cost-effective [10], readily available, and easy to prepare, and also because of its good taste, aroma, and colour. ese are inherent features of the plant. At present, millions of people from different social and economic levels in West Africa consume the drink [11] and the drink has become a popular global refreshing drink. Due to the high consumption of the drink, its sale has become a means of livelihood by many women in West Africa.

Hibiscus sabdariffa and Its Suitability for Soft Drink
Production. Hibiscus sabdariffa generally known as roselle belongs to the family Malvaceae. e word "roselle" was formed from a girl's name of French origin, which was formed from two words: "rous" meaning red and "elle" meaning she (https://nameberry.com/babyname/Roselle). Roselle is a popular plant in folk medicines, paint manufacture, and beverage production [12]. Roselle calyx is the major raw material used in the production of a beverage called cranberry (Florida), bissap (Egypt, Senegal), and zobo or zoborodo (Nigeria). e nutritional composition of fresh calyces of the plant differs from different studies, probably due to different varieties/genotype, plant environments, and harvesting conditions. Ismail et al. (2008) reported that 100 g of the calyces gave protein (1.9 g), fat (0.1 g), carbohydrates (12.3 g), and fibre (2.3 g). e calyces are a good source of ascorbic acid (14 mg), iron (57 mg), and β-carotene (300 µg).
is plant is rich in antioxidants [13]. Wong et al. (2002) found roselle to contain high contents of vitamins, protein, carbohydrate, and vitamin C. Furthermore, Babalola et al. (2001) listed the following as nutritional constituents of 100 g fresh calyces: fats 2.61 g, fibre 12.0 g, ash 6.9 g, cal-ciun12.63 mg, protein 1.145 g, phosphorus 2732 mg, iron 8.98 mg, carotene 0.029 mg, niacin 3.765 mg, thiamine 0.117 mg, ascorbic acid 1.7 mg, and riboflavin 0.277 mg. Many reports confirmed that the calyx is loaded with a high content of calcium, niacin, riboflavin, iron, and vitamin C (9× stronger than an orange) [14]. e United State Department of Agriculture reported that 100 g of calyces contain 11.31 g of carbohydrate, 0.64 g of fat, and 0.96 g of protein.
Similarly, roselle has been reported to contain biological active chemical substances that have curative properties. Eggernsperger et al. (1996) reported that the major bioactive constituents of the calyces that have a pharmacological function are flavonoids, organic acids, anthocyanin, and polysaccharides. e phytochemicals in roselle calyces according to [4] contained flavonoids 20.08%, tannins 17.00%, saponins 0.96%, phenols 1.10%, alkaloids 2.14%, and glycosides 0.132%, which must have given it its pharmacological properties. Extract of calyces has been reported to reduce the viscosity of the blood; it also has antimicrobial, diuretic, febrifugal, antihypertensive, and antihelminthic properties [15,16].
Similarly, earlier studies demonstrated that roselle calyces contain high contents of anthocyanin and phenolic compounds. Anthocyanins are a group of plant pigments that are responsible for the attractive colours of many fruits and flowers including calyces of red roselle [17]. Six anthocyanins are common in fruits and vegetables; these are pelargonidin, cyanidin, delphinidin, malvidin, peonidin, and petunidin [18]. Anthocyanins are important quality indicators in plants. Research reports have shown that anthocyanin has many medicinal benefits, among which are antioxidant [19,20], anticarcinogenic [21], antimicrobial [22], anti-inflammatory [20,23], cardioprotective [20,24], and hepatoprotective [25] properties. To provide support to our body defence mechanism, our diet must contain a sufficient amount of nutrients and antioxidants. Incorporation of antioxidant-rich foods in our daily diet boosts our immune system and it is safer and cheaper than commercially available antioxidants. Accumulation of free radicals in the body leads to oxidative stress, which is linked to several diseases in the body and can even cause death [26,27]. Antioxidants are compounds, which inhibit the rate of oxidation of molecules in the body through the obstruction of the multiplication of the chain reaction of free radicals. Natural antioxidants are better than the synthetic ones as they usually have nutraceutical properties [28]. Roselle is one of the plants that have been reported to contain various types of antioxidants in huge amount and, hence, possess high pharmacological properties [29]. e red calyces contain antioxidants including hibiscetine, gossypetin, and sabdaretine while cyanidin 3-sambubioside and delphinidin 3-sambubioside are the major anthocyanin present. Roselle calyces also have 4% citric acid, amino acid organic acids, and minerals. e plant is popular in folk medicine for its laxative, antibacterial, and diuretic properties and because of its high vitamin C content; it is used for the treatment of scurvy, cold, or flu [30]. is plant is commonly used in herbal medicines in Africa, India, and Mexico. Extracts of the leaves or calyces are traditionally used for their diuretic and hypotensive effects and also decreasing the viscosity of the blood and stimulating intestinal peristalsis [31]. It is also useful in the treatment of cardiac and nerve diseases, cancer, and liver toxicity. Apart from nutritional and medicinal qualities, important features of the plant that make it suitable for soft drink preparation include the following: (i) e plant has a good aroma, taste, flavour, and attractive colour (ii) Little quantity of the calyces is used to produce litres of soft drink (100 g of calyces is used to produce 4 or more litters of hibiscus tea) (iii) It is easy to prepare, and the production cost is low and materials and equipment for processing the drink are well available and cheap (iv) Its preparation does not require a high skill (v) Most importantly, the plant is safe to consume [32] (vi) It thrives in tropical and subtropical parts of the worlds and even in some temperate countries making it more available Furthermore, roselle drink (Sorrel, zoborodo) is a nonalcoholic nutritive beverage made from different parts of the plant, particularly the dried calyces [7,[33][34][35][36]. Roselle drink has become a household drink with daily consumption in many countries such as Egypt, Mexico, and Nigeria [37]. Most of these countries have specific names for the drink for examples, cranberry in Florida, Kumbang in Malaysia, Karcade in Sudan, bissap in Egypt and Senegal, and zobo or zoborodo in Nigeria. Because of health problems associated with alcoholic drinks, roselle drink has potential as a cheap substitute to red wines and alcoholic beverages in general [34]. e demand for the drink is mainly because of its nutritive value, aroma, flavour, and colour [36]. Researchers have found that roselle drink contains a significant amount of ascorbic acid in addition to 2. gave the nutritional composition of the drink made from dark red, bright red, and wine varieties to contain 0.0875, 0.0875, and 0.04375 ppm of protein, respectively, while vitamins were 7.5, 5.0, and 5.0 mgg −1 , respectively. e drink also contains vitamins, natural carbohydrates, protein, calcium, iron, etc. [38,39]. Similarly, the phytochemical analysis of the drink showed that it contains anthocyanin, glycosides, alkaloids, tannins, polyphenols and saponins, sterols, and phenols [40,41]. It also contains vitamin E, polyphenolic acids, and flavonoids, mainly anthocyanins [42]. Okoro (2003) reported that the drink contains about 15-30% organic acids like citric acid, tartaric acid, and malic acid; also, it contains acidic polysaccharides and flavonoid glycosides such as cyanidin and delphinine, which are effective in the treatment of several ailments. All these qualities were inherited from the calyces used for the preparation.

Health Benefits and Safety of Roselle Drink.
e drink has been reported to have antioxidant [43], antihypertensive [44], antihypolipidaemic [45], anticancer [46], antibacterial [47], hepatoprotective and antistress [48], antidiuretic [49], antispasmodic [50], and antidiarrheal [51] activities. Another study found that the drink affects metabolism, thereby preventing obesity and fat build-up in the liver. Roselle has generally been considered safe as a foodstuff; dosage of 1.5 g is recommended for daily consumption [52]. e safety profile of roselle is excellent, with no proven adverse reactions. Noteworthy, Hudson (2013) affirmed that, for reducing cholesterol level, studies recommend 1,000 mg dried herb 3 times daily; 1 cup of the drink two times daily, or 100 mg of standardized extract twice daily and also for hypertension 1 cup of the drink twice daily or dried powdered roselle extract providing 250 mg anthocyanin per day was recommended.

Preparation of Roselle Drink.
Roselle drink is prepared in several ways using varieties of ingredients, the dried calyces being the major ingredient for preparing the drink (Figures 1  and 2). All the methods result into the drink but with a little different taste (based on the sweeteners used such as sugar, honey, pineapple juice, sugar cane, and maple syrup) and flavour based on the spices used. Selection of preservatives and flavour for the drink depends on individuals. Some of these preservatives include garlic and ginger [8], lime [8,12,53], clove, cinnamon, and nutmeg, and pepper fruit [54]. More recently, other plant materials are added as a blend in the preparation of the drink to enhance the flavour and keeping qualities. e infusion of roselle calyces is usually sweetened with fruit juice, sugar cane, or granulated sugar or pineapple, depending on preference [12,35,53]. Straw berry is another additive used in the preparation of the drink [34]. Although the drink has different names all over the world, the flavour is very similar usually having a tangy flavour profile.
ere are two main methods of preparing the drinks: the steeping and boiling using different procedures. Generally, the steeping method is carried out by pouring boiled water into clean calyces inside a bowl and set aside for two to four hours. e juice is then separated from the calyces using sieve; fruit juice and sweeteners are then added based on preference. e drink can be taken hot or cold. e boiling method, on the other hand, is carried out by putting clean calyces with sliced fruits pineapple, oranges, and lime (with peel) (based on individuals) into a clean pot, covered with water, and boiled for five minutes, and then the desired spices were added such as cinnamon, garlic, and ginger. More water is added to the content and then left to boil for 30 minutes. e juice is then collected from the content using sieve and sweeteners added if desired. e drink is refrigerated afterwards and served chilled. en, preservatives (such as ginger, clove, and garlic) and sugar are added before cooling [7,53]. e resultant filtrate is then consumed as hot tea or taken like a refreshing drink when chilled [12]. Bolade et al. (2009) gave the following reports on hibiscus beverage preparation: the dried calyces/ water ratios used in the commercial practice were in the range of 1 : 57 to 1 : 71 (w/v), and the sweetness level of the beverage was in the range of 11.2 to 13.3°Brix; the appropriate dried calyces/water ratio for commercial roselle drink production was found to be 1 : 62 (w/v) while the extraction period was 30 minutes at a constant temperature of 100°± 2°C. e indices for assessing the quality of the drink were found to be taste, colour intensity, and sweetness level. Similarly, the International Organization for Standardization has specified procedures for producing the tea Ready to be saved hot or chilled Allow to cool for 20 sec and sieve Wash and add 250 ml of boiled water of good quality for 6 mins e content should be allowed to brew for six minutes in boiled water.
is will be allowed to cool for 20 sec and then sieved through a muslin cloth Additives such as sugar, pineapple, orange, strawberry, or sugarcane may be added for taste or flavour if desired Add ice cubes or refrigerate Figure 2: An international organization for standardization (ISO 3103) procedure for producing the tea from calyces. by means of infusing the calyces (Figure 2). "Shandy Sorrel" produced in Trinidad and Tobago is a combination of roselle drink and beer. e drink is one of the common beverages consumed in Mexico and Central America. In the Middle East and Sudan, "Karkade" calyces are steeped or boiled for about one hour. Mint leaves, menthol, fruit juice, and sweeteners are added to make the drink especially in social events. In West Africa, the refreshing drink is prepared by leaving the calyces in the water overnight or boiling for about an hour, sieving, and then adding juice and sweeteners for good taste.

Limitations of Roselle Juice as a Global
Drink. Despite its medicinal and nutritional values, the drink does not have good keeping quality because of contamination. Roselle drink is reported to contain enteropathogenic microorganisms up to 2.49 × 104 CFU/ml. is is hazardous to the consumers especially when a large volume of the drink is taken [55,56]. e drink is rich in phytonutrients and minerals which could give room for the multiplication of the microorganisms. e microbial diversity found in the drink is mainly bacteria and fungi. Although microorganisms in food are not always detrimental, in fact at a time, their growth may result in pleasant taste and texture [56]. However, microorganisms such as Pseudomonas aeruginosa, Staphylococcus aureus, Salmonella, E. coli, Vibrio cholerae, Bacillus, and Clostridium species if present could contaminate food and cause diseases to the consumers of the drink [56]. Some of the microorganisms commonly found in roselle drink areStaphylococcus aureus, Escherichia coli, and Pseudomonas aeruginosa [53]. Also, Ezeigbo et al. (2015) reported that the microbes that have been widely isolated from the drink sold in public places in Nigeria belong to the genera Streptococci, Staphylococci, Escherichia, Salmonella, Shigella, Enterobacter, Klebsiella, Serratia, Bacillus, Lactobacilli, Clostridium, Proteus, Pseudomonas Corynebacterium, Micrococcus, and Aeromonas (bacteria); Saccharomyces, Aspergillus, Penicillin, Fusarium, Candida, Rhizopus, Geotrichum, and Mucor (fungi). Different species of Aspergillus toxigenic fungi have been associated with the drink as reported [5,57]. Ilondu and Iloh (2007) found A. flavus and A. Niger in roselle drink. Aflatoxin produced by some Aspergillus species has been reported to be carcinogenic, teratogenic, and mutagenic to several species of experimental animals [58]. e aflatoxin is highly carcinogenic and can cause liver diseases [59]. Some of these microorganisms (e.g.,Bacillus spp.) can withstand high temperature; thus boiling cannot eliminate them. Aflatoxin is heat-stable with a melting point of 268 to 269°C [60]; thus subjecting it to high temperature does not reduce its effects. Also, most of the organisms can withstand refrigerating conditions particularly bacteria; thereby it becomes difficult to eliminate them using a cold treatment. us, the best bet is for the drink not to get contaminated at all. Food borne microbes may be pathogenic and/or reduce the quality of the drink in terms of colour, taste, aroma, and nutrition. Most of the fungal contaminants can spoil the drink and can introduce mycotoxins which are harmful to man. e occurrence of coliforms in the drink portends a potential risk to consumers; this is because coliforms in the drink exceeding the permissible recommended limit of zero (0) in ready-to-eat food are an indication of contamination [61]. Coliforms such as E. coli are known to cause varying degree of gastroenteritis depending on the strain. e presence of E. coli and E. aerogenes usually signifies the presence of fecal materials in the drinks and suggests the presence of other enteric pathogens [36]. Similarly, Bacillus has been isolated from roselle drink [7]. e spores of Bacillus spp. can withstand high temperatures during processing. Contrarily, some of the microbial species are mesophilic and thus can withstand very low temperatures and can cause spoilage even at refrigeration temperatures [7]. Hence, the refrigerated roselle drink often has high bacteria load.

Sources of Contamination of Roselle Drink.
ere are various sources of contamination of roselle drink; the main ones are the calyces used, the processing environment including the method of preparation, water and types of equipment used for the preparation of the drink, the packaging material, and conditions of preservation and storage as discussed below.

e Roselle Calyces Used.
e calyces have been reported to get infested with microorganisms through the seed stock used, local growing conditions, and postharvest handling especially during drying and storage and in the market. Studies confirm that the bulk of contamination of the drink is through the calyces used as a major raw material. e high content of water in fresh calyces predisposes the calyces to infection; even if the calyces are later dried some of the microorganisms remain. At the local market, roselle calyces are displayed in big containers (uncovered) or polyethene sheets for sale; these expose calyces to microbial contamination [62]. e presence of contaminants and toxigenic fungi from roselle drink is a function of contamination of the calyces used [7,63]. ese authors [7,63] reported that total bacteria counts, coliform counts, and total fungi counts were in the range of 5.0-13.0 × 103, 0.00 − < 102 /g, and 3.4-7.3 × 104 CFU/g, respectively, from dried H. sabdariffa calyces sold in a different market in Uyo, Akwa Ibom State, Nigeria. e microbial counts in the zobo drinks sold in the markets and hawked in streets ranged from 10 2 to 10 8 CFU/ ml. ese values depend on the type of flavour, preservatives used, and storage duration. For instance, bacteria counts of 8.1 × 104 CFU/ml, 1.21 × 105 CFU/ml, 2.6 × 105 CFU/ml, 3.2 × 105 CFU/ml, and 2.5 × 106 CFU/ml were for zobo drink prepared without sugar, with sugar, with no sugary spices, with sugary spices, and with sugary spices + pineapple flavour, respectively [64]. Majority of the microbes found in the samples caused spoilage. Also, B. subtilis, S. aureus, S. fecalis, L. brevis, P. putida, A. niger, A. flavus, S. cerevisiae, P. citrinus, R. oligosporus, C. krusei, and Mucor sp. are microbial isolates found in the dried roselle calyces sold in some market in Ogun State, Nigeria [5]. e associated bacteria were Bacillus subtilis, Bacillus sp., Enterococcus faecalis, Micrococcus sp., Klebsiella sp., and Staphylococcus

Journal of Food Quality
aureus. e fungi isolates were Aspergillus flavus, A. terreus, A. glaucus, P. expansum, Fusarium oxysporum, and Cladosporium. Aspergillus glaucus was the dominant species among the six species. Odunfa (1998) reported that Staphylococcus aureus levels of 108/mL were considered potentially hazardous to consumers. e main fungi associated with roselle calyces were Aspergillus spp. is may be due to the presence of their spores in a large number in the atmosphere which can easily settle on the harvested calyces in the farm, during processing, or in the market. It has been made clear that most contamination of the drink was as a result of contamination of the calyces; this implies that some of the calyces presently offered for sale in our markets are not acceptable for the production of the drink for human consumption [63]. Although during processing the calyces are often subjected to high temperature, once the raw materials are contaminated, it becomes difficult to get rid of all microorganisms through boiling; for example, boiling aflatoxin does not reduce its potency [60].

Contamination during Preparation.
Water is another raw material for the preparation of the drink. e quality of water also determines the quality of the drink [65]. Clean and sterile water is good for a quality drink as poor water introduces some microbes that are dangerous to health. Other materials used such as sweeteners (sugar, sugar cane juice, and pineapple juice), preservative materials such as garlic, lime, ginger, and benzoic acid as well as equipment such as bowls, pots, and stirrer used during preparation are possible means of contamination. Risiquat (2013) reported that contamination may occur when the hot extract is left to cool, during the introduction of flavour and sweeteners and bottling. e place of preparation if not hygienic can be a source of contamination. In addition, the level of hygiene of the processor and the activities of the handlers such as cleaning children after defecating, cleaning mucus, sneezing, coughing, and excessive talking can be means of introducing toxigenic microbes into the drink. Akhigbemidu et al. (2015) affirmed that Streptococci spp. which are often found in the mouth enter the drink during preparations via talking.

Contamination during Packaging.
In developing countries, the drink is locally packaged by the use of polyethene sachet/films and plastic bottles. ese materials if already polluted can contaminate the drink. Majority of the processors of the drink in the developing countries are small-scale women and even some children who may not attach more importance to hygiene. Due to ignorance and poverty level of some processors, used bottles are reused for packaging; if such bottles were not thoroughly washed, it can cause contamination of the drink. Besides, some processors use mouth to blow air into polyethene sachets to open them; this is a means of introducing microorganisms into the drink. All other unhygienic activities like singing during packaging can cause contamination. Staphylococcus spp. and Pseudomonas spp. may occur in the drink due to handling and other utensils used after processing [7].

Contamination during Storage.
Conditions of a place of storage and duration of storage can also encourage contamination. If the storage environment is unhygienic or favourable for microbes' multiplication, contamination can occur. e values of microbial counts depend on the type of flavour, preservatives used, and storage duration [62]. Nevertheless, Risiquat (2013) found that the microbial population of the drink seldom exceeds acceptable/level and tolerant level for ready-to-eat food the day it is prepared.

Precaution for Roselle Drink Quality and Durability
1.11.1. Proper Handling. If calyces are produced, packaged, and sold in aseptic conditions, contamination of the drink will be minimal. Growers and processors of crops as well as market women should be educated on how to handle their crops especially roselle calyces to prevent contaminations.
us, harvesting must be carefully done to reduce contamination. Mohammed et al. (2012) reported that harvesting while raining can downgrade the quality of the calyces and lower the output. Calyces should be handled properly to avoid contact with the ground or filthy surfaces. Since calyces contamination has been cited as the major point of contamination [7,63], having sterile calyces will ensure high durability and better quality drink. Incidence of aflatoxin in dried calyces' samples can be avoided through proper handling, adequate storage facilities, and planting of Aspergillus spp. resistant varieties.

Avoidance of Contamination during Preparation and
Packaging.
e drink should be prepared in hygienic environments and all materials and equipment used should be sterile. Activities that will cause contamination such as talking, sneezing, and scratching of the body should be avoided or minimized by the use of mouth and nose guard and overall dress to serve as a precaution. Also, to avoid contamination, the drink should be aseptically poured into sterilized polythene sachets and then sealed back using a thermoelectric sealing machine. Furthermore, thorough boiling should be encouraged to kill the heat susceptible microbes that may be in the drink. e drink is mainly prepared through boiling and steeping; however, steeping does not give much heat influence on the microbes in the drink. So steeping method of preparation should be discouraged.

Preservation.
e following preservation methods could be used to prevent or reduce contamination: Physical preservation: this is the preservation of materials or substance through pasteurization, freezing, and refrigeration. Pasteurization is done when the bottled drink is immersed in sterile water, heated to 70°C or more, and left for 20 minutes. Egbere et al. (2007) recommended a combination of pasteurization and sodium benzoate to extend the shelf life of the drink to forty days. Freezing and refrigeration are achieved by subjecting the microorganisms present in the drink to a very low temperature to make them inactive and prevent their multiplication. Nevertheless, these cannot affect microbes that thrive in freezing temperature. Besides, the electricity supply is not adequate in some developing countries. Chemical preservation: this is carried out by the use of chemical preservatives. Preservatives are chemical additives that are used to improve the keeping qualities of food products to prevent or reduce the microorganism growth and sustain the chemical quality of the food such as colour, taste, aroma, and texture [66]. Chemical preservatives commonly utilized in the preparation of the drink are acetic acid and sodium benzoate, although sorbate and propionate can also be used. Acetic acid has been reported to have a superior effect on bacteria than sodium benzoate and vice versa for fungi [8]. Doughari et al. (2007) reported that benzoic acid-treated samples sustained the taste until after 14 days of storage. e use of chemicals can reduce the qualities of the drink and can be harmful to consumers of the drink. Studies have shown that the use of synthetic chemical for food preservation could have adverse effects on human health. us, acetic acid produced from biomass through a microbial method such as oxidative fermentation was recommended as the best for food preservation [62]l this can be used to elongate the shelf life of this nutritious drink. Biological method of preservation: this refers to the use of plant extracts especially spices to preserve; those spices used include lime, ginger, garlic, pepper fruit, and kola nut. Natural spices have been commonly used as food additives and for improving flavour [67]. Lime can reduce the microbial load of the drink; this may be due to its acidic nature [53]. Acidic foods inhibit the survival of many pathogens but enhance the multiplication of acidic organisms, hence the domination of Bacillus spp., Lactobacillus spp., and S. cerevisiae in the drink [34]. e acidity of lime is organic and less corrosive to the alimentary canal [8]. Braide et al. (2012) further reported that lime was effective in suppressing microbial load than garlic, ginger, and glove even better than sodium benzoate. Although both ginger and garlic have antimicrobial effects, a mixture of ginger and garlic is more effective than when used separately [68,69]. Izah et al. (2015) found that the ability of natural preservatives to eliminate microorganisms is in the following order: lime > mixture of garlic and ginger > ginger > garlic > clove > kola nut > cinnamon > nutmeg. ese authors recommended the use of these natural preservatives to enhance the quality of the drink and to reduce spoilage.

Conclusion
Roselle is a suitable ingredient for soft drink production because all the desirable qualities of the drink in terms of nutrition, appearance, and medicinal qualities were inherited from the plant. Since the calyces have been discovered to be the major source of contamination of the drink that causes its low shelf life, all the precautions to ensure aseptic conditions of the calyces must be adopted. e plant production, calyces, and drink processing and marketing need to be overhauled and monitored to be fit for human consumption. us, if sterile calyces are used and the drink is prepared under the aseptic condition, there will be little or no contamination and the drink will have higher keeping quality and thus exhibit the perfect suitability of the plant. Although contamination can also occur through other routes as stated above, this is to a lesser extent. In addition, preservatives can be added to lengthen the shelf life of the drink, prevent microbial build-up, and improve the taste, flavour, and nutritional and medicinal value of the drink.

Data Availability
No data were used to support this study. All literature were cited accordingly.

Conflicts of Interest
e authors declare no conflicts of interest.