Potential Role of African Fermented Indigenous Vegetables in Maternal and Child Nutrition in Sub-Saharan Africa

Hunger and malnutrition continue to affect Africa especially the vulnerable children and women in reproductive age. However, Africa has indigenous foods and associated traditional technologies that can contribute to alleviation of hunger, malnutrition, and communicable and noncommunicable diseases. The importance of African indigenous vegetables is undeniable, only that they are season-linked and considered as “food for poor” despite their high nutritional contents. The utilization of African indigenous vegetables (AIVs) is hindered by postharvest losses and antinutrients affecting the bioavailability of nutrients. In Africa, fermentation is among the oldest food processing technologies with long history of safe use. Apart from extending shelf life and improving food organoleptic properties, fermentation of African indigenous vegetables (AIVs) is known to improve food nutritional values such as proteins, minerals, vitamins, and other beneficial phytochemicals. It can also increase bioavailability of various vitamins, minerals, and phytochemicals and increase synthesis of vital blood pressure regulators thus protecting against cardiovascular diseases and cancer and further helping fight certain malnutrition deficiencies. Some lactic acid bacteria (LAB) involved in food fermentation are known to produce exopolysaccharides with cholesterol-lowering, immunomodulator, antioxidant, and anticancer properties. Fermented foods (vegetables) are superior in quality and safety since most microorganisms involved in fermentation are good starter cultures that can inhibit the growth of foodborne pathogens and detoxify harmful compounds in foods. Thus, fermented foods can boost growth and well-being in children and women due to their higher nutritional contents. Therefore, fermentation of AIVs can contribute to the attainment of food and nutrition security especially among women and children who rely on these vegetables as a staple source of micronutrients and income. These benefits have a positive impact on the implementation of the second sustainable development goals and African Union agenda 2063. This review is aimed at shedding light on the potential of African fermented indigenous vegetables in combating maternal and child malnutrition in Sub-Sahara Africa.


Introduction
Currently, the world population is estimated at 7.8 billion with a projection of 9.8 billion in 2050 [1]. Further prediction shows that more than half of the world population will be living in Africa in 2050, with 2 in 5 being children [2].
The high population growth will put stress on food production which is even weak leaving many Africans food insecure especially for nourishing women and children who remain vulnerable and mostly found in rural areas where food is not sufficiently available or economic constraints preventing them from accessing sufficient nutrients [3]. Maternal and child malnutrition is a heavy burden on the health. It is therefore necessary to urgently act to ensure food and nutrition security [4].
To implement the second sustainable development goal (SDG 2) which stresses on the global access to safe, nutritious, and sufficient food and African Union Agenda 2063, Africa needs to do everything possible to provide sufficient and nutritious food to its growing population [2,5,6].
Particularly, regarding micronutrients, there is still a huge gap to fill; for example, Africa ranks number two in vitamin A deficiency [4,7]. Around 60% of arable land is in Africa; unfortunately, more than a quarter of underfed people are found on this continent due to low agricultural and postharvest processing development among other causes [8]. In Sub-Sahara Africa (SSA), around 42% of children have symptoms of stunting which is the most noticeable form of malnutrition while women of reproductive age have shown a high prevalence of anemia [9].
AIVs are vegetables that originated or got established in Africa for many generations, and their leaves, young shoots, flowers, fruits, seeds, stems, tubers, or roots are consumed as vegetables [10,11]. However, these vegetables also have the highest level of antinutrients especially polyphenols [12].
Since AIVs are adapted to the local climate and are readily available during the rainy season, they could contribute to the nutrient intake among the vulnerable people [13]. Therefore, there is need to process them with the purpose of keeping or increasing their nutrients, organoleptic properties, and storability [14,15].
Among postharvest technologies, fermentation ranks among the oldest and most efficient because it requires less energy and materials while nutritionally enriching the food, increasing shelf life, reducing antinutrients, and increasing organoleptic properties [16,17]. In Africa, fermentation is done at the household level and without uniformity of the products [3].
However, both fermented foods and indigenous vegetables have remained the foods of the poor which find almost no more place in the households' food preparations when lifestyle becomes better [18]. Fermented indigenous vegetables could play a potential role in ensuring food security in Africa [10,11,19], thus contributing to the alleviation of maternal and child low nutrient-related problems, hence safeguarding the whole family.

Methods
This review is aimed at shedding light on the potential of AIVs and fermentation of AIVs in combating maternal and child malnutrition in sub-Saharan Africa (SSA).
For this review, 11 articles, review papers, and reports ranging from 2010 to 2020 about the nutritional status of women and children in SSA were used. 56 on AIVs, their agricultural production, and their nutritional impact were collected, but 14 of them were excluded due to their irrelevance to the review. A total of 11 review articles on AIV fermentation were used, but 2 were excluded because they were too old, while 19 research articles and review papers on African fermented products were used in this manuscript.

Maternal and Child
Nutrition and Health Status in Sub-Saharan Africa. Stunting of children under 5 years and anemia among women of reproductive age prevail at an unacceptable level in Africa especially SSA [4,20]. The low agricultural advances and natural and anthropological calamities have taken a lead in spreading hunger despite the second SDG and African Union Agenda 2063 which intends to eradicate hunger and undernutrition and ensure the provision of safe food to the people [3,21]. SSA remains the one region of the earth with the highest prevalence of stunting, low birth weight, and mental retardation in children and anemia in pregnant and nonpregnant women and even with the general population having high micronutrient deficiency [7,9].
In many communities of SSA, pregnant and lactating women are subjected to various food taboos which can result in malnutrition to them and their children [22]. Diarrhea remains among the most killer of children under the age of 5 especially in SSA [2,3,23]. Diarrhea can be due to low hygiene, but also malnutrition has a contribution in the frequent occurrence [16,24]. Iron deficiency in women of reproductive age remains high in SSA despite iron supplement interventions [25][26][27][28]. It is believed that iron deficiency contributes to complicated pregnancies and iron deficiency in children which are prevalent in this region [29][30][31].
Iron, zinc, folate, and vitamin A deficiencies remain a big public health threat in Africa as affected women tend to have children with the same problems and consequences accumulate in the families if nothing is done to correct the situation [25,32,33]. There is still a need to improve maternal nutrition for better pregnancy outcomes [26,28].
Even with all mitigation resolutions taken against micronutrient deficiency, in low-income countries (including SSA countries), 1.7% of deaths of children under the age of five are due to vitamin A deficiency [34]. Folate deficiency in pregnant and adolescent women is being combatted by food fortification and fermentation [31,35].
Anemia like other malnutrition-related complications in women of reproductive age leads to low pregnancy outcomes and even mortality while stunting prevails in Africa with twenty-five countries having a highly unacceptable level of stunting (>30%) [20,36]. This is because most women live in rural areas where they experience endless poverty, natural, and anthropological crises with all the responsibility to feed their children [3,37]. Also, hunger and undernutrition are most prevalent among women and children [3,37].
To alleviate the prevailing condition of micronutrient deficiency, many resolutions like food fortification and effective nutritional education need to be put in place [4]. However, AIV consumption and their good processing techniques are to be adopted among others for vulnerable households and the whole population to be able to meet their micronutrient needs [32]. Many AIVs were reported to contain micronutrients in sufficient amounts that they can alone help to attain the daily recommended intakes [10]. For instance, Moringa leaves can help to attain 80% of vitamin A daily requirements [30,38].

3.2.
Production and Diversity of AIVs in SSA. Indigenous vegetables are preferred over exotic ones as they are part of cultural heritage and medicinal or religious use [11,19]. Africa must reinforce its food sovereignty by considering its indigenous food as one way to attain food security [10]. 2 International Journal of Food Science Production of AIVs is correlated to the cultural background, climate, and relief. However, cowpea (Vigna unguiculata), okra (Abelmoschus esculentus), African eggplants (Solanum spp.), some species of leaf amaranth (Amaranthus spp.), spider plant (Cleome spp.), some species of nightshades (Solanum spp.), and pumpkins (Cucurbita spp.) are more common throughout the continent [39].
Even if vegetable and fruit consumption in Africa remains low or depends on their seasonality, AIVs contribute a lot to nutritional intake and income generation [28,40]. For instance, cowpea is rich in both β-carotene and iron, its production in Africa was estimated at around 6.7 metric tons in 2016, and many researches are ongoing to extend its shelf life and increase its overall acceptability [11,41].
The diversity of indigenous vegetables is highly influenced by the climatic conditions in Africa; however, some are common in many parts of Africa, like African nightshades, African kale, and cowpeas [12,15,24]. Table 1 shows different vegetables and regions of Africa where they are commonly found.
In Kenya, the production of cowpea has steadily increased in this decade while in Rwanda, cassava leaf production and consumption in many parts of the country are almost in all households [42].
Indigenous vegetables are very nutritious and easy to find but are very perishable and available in seasons [10,11,38]. There is an imperative need to find a way of processing these vegetables increasing or maintaining their nutritional value, shelf life, and organoleptic properties [8,43].
Fermentation is one of the promising technologies since it requires less sophisticated materials and energy [24,41,44,45].

Nutritional Value and Challenges Facing
Consumption of AIVs in SSA 3.3.1. Nutritional and Phytochemical Composition of AIVs. AIVs are potential sources of various fibers, vitamins and minerals needed for healthy living. In many cases, AIVs are reported to be higher in micronutrients, proteins, and phytochemicals than the most exotic vegetables [33,39,50]. Table 2 illustrates the nutritional potential of some AIVs.
Some indigenous vegetables have a significantly recorded high protein, lipids, and mineral and vitamin content [12]. Like Moringa oleifera leaves have 6.6 mg/g of crude proteins and 1.5 mg/g of crude lipids, respectively, while Amaranthus cruentus has 5.3 mg/g and 3.0 mg/g of crude proteins and lipids, respectively [49].
Some AIVs are entitled to be the best in terms of micronutrient content, like in the case of Morchella esculenta which contains 1970 mg retinol equivalents/100 g of edible portion and 311 mg/100 g vitamin C while Chenopodium album has almost 6 mg/100 g iron, 18.5 mg/100 g zinc, 226 mg/100 g calcium, and 211 mg/100 g magnesium [15].
Most of AIVs have a high level of antioxidants, and they contribute significantly to antioxidant intake [56].
Solanum scabrum and Abelmoschus caillei are reported to contain 38.18 mg/g and 20.48 mg/g of proteins per edible portion, respectively, while Solanum aethiopicum has 624.54 μg/g and 39.74 μg/g of carotenoids and iron, respectively, which means that even a small portion of some indigenous vegetables like Moringa or black nightshade can give the body a significant amount of some nutrients like vitamin A [46,49].
African cowpea leaves whether preserved or fresh are reported to have 0.25-36.55 mg β-carotene and 0.17-75.00 mg of iron 100 g dry weight, respectively [57]. Even if feeding on one type of vegetable cannot provide all the essential nutrients the body needs, diversifying the diet can help achieve a healthy life [5,15].
Moreover, AIVs are known to contain remarkably high levels of phytochemicals in a wide range [56]. The phytochemicals in AIVs are attributed to health benefits and medicinal or religious use in different communities [57]. Phytochemicals are believed to prevent chronic diseases and metabolism disorders [53]. [58] reported the total extractable phenolic content in A. dubius to be 5:16 ± 0:12 mg/g DW and in C. gynandra to be 3:94 ± 0:09 mg/g DW while total flavonoid concentration in A. dubius to be 3:89 ± 0:28 mg/g DW, in C. gynandra to be 2:19 ± 0:11 mg/g DW, and in C. maxima to be 1:55 ± 0:04 mg/g dry weight. Though some antinutrients (like saponin, phytates, and tannins) are found in AIVs, their wide range of dietary phytochemicals is more complex from phenolic compounds, flavonoids, carotenoids, and glucosinolates [58,59] This phytochemical renders AIVs excellent free radical scavengers, such as Nasturtium aquatica, Urtica dioica, and Xanthosoma mafaffa [54].

Benefits of AIVs in Maternal and Child Nutrition.
The importance of AIVs on the food security in SSA was reported by [9,39]. It is expected that the promotion of agriculture and consumption of AIVs will help in fighting hunger in both rural and urban households [32,60].
To fight children's malnutrition, there is a need for food system which avails safe, affordable, nutritious, and sustainable food [55]. This promise is held by different food systems and foods including AIVs.
The AIVs are available and can be preserved to be used in lean season, and their nutritional and phytochemical content is so excellent that they can help maternal and child nutrition meet if promoted and processed [28,41,58]. Table 2 gives an insight into some nutritionally rich AIVs. Since many AIVs are reported to contain a tremendous amount of vitamins, minerals, and some other nutrients like proteins, lipids, and dietary fibers, they can help in malnutrition mitigation of women and children in SSA [28,39].
The high vitamin A content in AIVs can help to alleviate death or other metabolic complications related to vitamin A deficiency [7,11,47]. Anemia due to iron or folate can be mitigated by increased consumption of AIVs [7,10]. Also, metabolic disorders or lifestyle diseases can be prevented by the healthy phytochemicals found in AIVs allowing maternal and child health to be protected [58].
Moreover, meeting nutritional requirements can help the family especially maternal and child health, protecting 3 International Journal of Food Science  [19,38]. Mainly, women are involved in farming and selling vegetables to raise their financial ability thus helping them to get more buying power to afford even other commodities [12].
Farming and other activities related to the indigenous vegetable can employ women or give them income which increases their purchasing power, especially the ability to buy more foods to meet the nutritional requirement [24,51]. Ref. [12,39] noted the tremendous economic importance of AIVs in the communities where they were exploited commercially.
Since these vegetables are associated with customs and traditional cultures, their agriculture and consumption can help in maintaining traditions [53,57]. AIVs require less agricultural inputs and can be collected from the wild, which can be helpful towards ensuring that adequate access to food by everyone at home [30]. Also, it is worth noting that AIVs are prepared in a variety of ways even in one community, thus allowing them to consume enough nutrients from available AIVs even during distress time [30]. Engaging in AIV agricultural business has the potential of increasing income generation to women resulting in their empowerment [19,49]. This women empowerment and economic growth are strongly related to better child nutrition [46].  [10,13,52]. This decline can be associated with the fact that they are considered to be for the poor man, and the agricultural shift towards exotic vegetables has lowered their cultivation leaving them to be used only during distress times even if their potential to help achieve the daily nutritional requirements remains known [30,47,61]. [46] noted that there is lack of nutritional awareness of the AIVs and that it is needed to disseminate the importance of AIVs in addressing malnutrition and hunger.
Some of the factors associated with low consumption of AIVs include high antinutrient content, their complicated preparation methods, high perishability and seasonality, and loss of indigenous knowledge trickle down to subsequent generations [57,[61][62][63]. For example, postharvest losses of cowpea in East Africa are estimated at around 30-40% of the production; this can be one of the challenges which are hindering the consumption of these AIVs [56].

Fermentation of Vegetables.
Fermentation is partial oxidation of carbohydrates into ethanol or organic acids and CO 2 , carried by lactic acid bacteria (LAB), yeasts, and some mold species, it is among the oldest human technologies, and its knowledge is a legacy of generation to generation [8,[64][65][66].
Fermentation of vegetables is mainly lactic acid fermentation and alkaline fermentation (which involves degradation of proteins and polysaccharides into smaller readily absorbed molecules) [44,65]. In Africa, vegetables are lactic acid-fermented to produce plant proteins and condiments [67]. Table 3 gives an example of known fermented AIVs in Africa. Traditional fermentation knowledge coupled with advanced food technologies is promising a better future of providing safe and healthy foods to the world's growing population [22].
From a global perspective, fermented foods are inherent components of diets as they usually have characteristic properties like flavor, aroma, appearance, or consistency which increase their appeal [22,68].
Fermented vegetable products are still attracting more research because of their relatively longer shelf life, nutritional benefits, and safety [13,68,69]. Fermented foods are associated with several social and cultural aspects of different human communities due to their high nutritional value [43,67].
Fermentation has been associated with preservation, detoxification, and creation of desirable organoleptic properties [43,70]. Some of the health benefits of fermented foods include increased bioavailability of vitamin B 2 (riboflavin), vitamin B 9 (folate), vitamin B 12 , and vitamin K. In addition, increased synthesis of melatonin and Gaba regulates blood pressure and protects against cardiovascular disease and cancer. The produced exopolysaccharides have cholesterollowering, immunomodulator, antioxidant, and anticancer properties and a variety of bioactive peptides that possess antihypertensive, anticancer, anti-inflammatory, antidiabetic, antimicrobial, antiadipogenic, antimutagenic, antithrombotic, and antiatherogenic properties [22,63].

Fermentation of Vegetables in Africa.
In Africa, fermentation of vegetables is mainly lactic acid fermentation and alkaline fermentation (which involves degradation of proteins and polysaccharides into smaller readily absorbed molecules) [11,65]. Fermentation of AIVs is mainly to improve the sensory properties and extend the shelf life [71]. Table 3 gives examples of known fermented AIVs in Africa. [71,72] observed that since most of the fermented vegetables and condiments in SSA are used in sauce preparations, they provide proteins and vitamins in addition to flavoring the sauces.
Traditional fermentation knowledge coupled with advanced food technologies is promising a better future to feed safe and healthy foods to the world's growing population as the awareness of fermented food's health benefits is sharply rising [22]. Although there is still less documentation of fermented AIVs, the processes and microorganisms involved. Researchers are striving to show the richness of these foods. [24] observed that fermented cowpea was high in nutrients and could last longer. Fermented African black nightshade was observed to contain more water-soluble vitamins than solar-dried or cooked counterparts [37].
Fermentation of AIVs is promising to continue to enrich African food systems. Africans know about fighting certain malnutrition conditions like vitamin deficiency using fermented products as fermentation increases bioavailability of micronutrient [13,18,73].

Benefits of Fermented AIVs.
Fermentation of AIVs can help in increasing nutritional value while detoxifying the toxic one [11]. Since many indigenous vegetables are seasonal, fermenting them can increase their shelf life, thus reducing postharvest losses and deficiency in lean season [22,74].
Microbiologically and chemically, fermentation ensures the safety of the food by overcompeting bad microorganisms by producing antimicrobial chemicals such as bacteriocins, organic acids, diacetyl, and CO 2 [22,63]. The lowering of the pH inhibits the growth of harmful microorganisms while the overall fermentation process results in the degradation of toxic phytochemicals into less harmful or healthy products [22,72]. Since fermentation is a less energy-consuming and less sophisticated technology, it can be made at the household level to local commercial scales [48,73,75].
Indigenous vegetables and indigenous fermented foods play a huge role in household food security and safety especially important for maternal and child nutrition [14,18,44]. Many indigenous vegetables are reported to have a high content of phytochemicals or nutrients which are bound by antinutrients; fermentation can avail the nutrients while detoxifying the food allowing consumers to absorb nutrients [11,64]. Even if AIVs are famous for their high content of minerals, their high content of antinutrients like phytates, tannins, and oxalates makes the minerals less biologically available [66]. 6 International Journal of Food Science Fermentation reactions can break the bonds between the minerals and the bound antinutrients, thus increasing their bioavailability [44]. An increase in free amino acids in fermented products has been observed which makes fermented products readily absorbable in the intestines [24]. Fermented vegetables like other indigenous foods play important role in the food security of communities as they increase palatability, shelf life, and safety [11,41,48,73]. Table 2 discusses some fermented indigenous vegetables in Africa and their uses in their respective region of origin.
During the investigation of the health benefits of fermented products, [22,44,76] underlined the health benefits of lactic acid fermentation products ranging from prevention of diarrhea through blood pressure lowering to anticancer properties of vitamins, minerals, and bioactive compounds produced during the process. Fermentation of different AIVs like the African locust beans degrades some proteins into smaller peptides hence increasing their digestibility [8,11,67,71].
AIVs are fermented to increase protection against gastrointestinal diseases, heart diseases, and diabetes. Mostly in SSA, fermented AIVs are associated with health benefits in addition to the nutrients, palatability, and shelf life [67]. Most of the children particularly during weaning fed on fermented foods ranging from sour milk, sour gruel, and porridges or sauces [76,77]. These foods have probiotic properties and higher nutritional content than their conventional relatives. They are believed to boost growth in children and well-being in the general population [40]. Locals appreciate these products because of their ability to fight both diarrhea and constipation, common complications in children [40,77]. These lactic acid-fermented products have an increased level of phenolic compounds [44,78].
The wide range of health benefits attributed to fermented products including the increased digestibility, reduced food intolerance and allergic reaction, or increased bioavailability of nutrients and bioactive compounds which have been noted [63,73]. It has been noted that the lowering of pH in fermented foods prevents the growth of harmful microorganisms and prevents them to produce their toxic compounds [71].
Increased shelf life of fermented products can help women to be sure of food security in their house even during lean seasons, thus helping them to ensure intake of essential nutrients and preventing under-nutrition-related diseases [33,66]. Also fermenting indigenous vegetables can be a source of income to women who are mainly the ones to take care of food provisions and preparations [14,18]. With a source of income, women can be able to buy even the food they do not grow, allowing them to meet necessary nutritional requirements and to meet the necessary hygiene needed for a healthy life [19,44,75].

Role of Lactic Acid Fermentation on Nutrition and
Health of Child and Women. Lactic acid fermentation is the most common type of vegetable fermentation due to its numerous attributes ranging from enhancing food safety, quality, and biopreservation and removing antinutrients, to improving the health of the consumer [67,70]. This fermentation produces lactic acid and bacteriocins among other products; these metabolites are useful in lowering the pH and suppressing the growth and toxin production of other 7 International Journal of Food Science microorganisms, particularly the pathogens and spoilage microorganisms; hence, the products of this process are microbiologically safe [26,66,69]. Lowering the pH of the product prevents microorganisms like Clostridium botulinum to produce their toxins in this case botulin [73]. Enhancing flavor and other organoleptic properties is a characteristic of lactic acid bacteria [68].
Lactic acid bacteria produce several compounds as byproducts of lactic acid fermentation in which vitamin B complex and K are among the secondary metabolites [63,79]. Complex biomolecules are degraded into many small and readily absorbable molecules during lactic acid fermentation, and it helps people with digestive complications like lactose intolerance and people with allergies [22]. Some lactic acid strains are believed to remove or reduce mycotoxins from fermented foods [26]. [44] suggested that lactic acid bacteria can digest proteins or other complex molecules like polysaccharides increasing the bioavailability of nutrients. Lactic acidfermented foods are nutritionally good and can contribute to the alleviation of hidden hunger [18,28,43]. Mostly, fermentation of AIVs intends to harness the higher proteins and other bioactive compounds [29]. It has been noted that up to 74% of Africans believe in good outcomes of feeding children from 6 months on fermented foods [77]. Fermented AIVs are liked as cheap sources of proteins, B complex, minerals, and more bioactive compounds [29] Lactic acid bacteria notably Lactobacillus fermentum, Lactococcus casei, L. plantarum, and L. reuteri are probiotics found in fermented foods. They are known to increase phenolic compounds while reducing oxalates and tannins [44,78]. LAB are known to regulate natural and acquired immune responses [69,79]. Thus, lactic acid-fermented foods give this advantage to the body.
In fermented AIVs like other fermented products, the nutritional content is higher than in other food preparation methods. Proteins, vitamins, minerals, and phytochemicals have been reported to be increased or at least conserved more than other food preparation techniques [17,24]. Fermented vegetables are known to prevent food poisoning and can help maintain the health of children and mothers [44].
The lactic acid bacteria involved in fermented products colonize the gastrointestinal tract of the host and help them to fight bad microbes by their antibacterial activities [69,79]. In weaning, children fed on fermented products which are believed to protect them from diarrhea and provide them with essential nutrients needed for growth [29,44,77].
Different products are made using LAB from sour milk and cheese through fermented vegetables to sour alcoholic drinks, and these diverse products have shaped the civilizations and are expected to continue helping human communities to strive [75,80]. Biopreservation and enhanced sensory properties insured by lactic acid fermentation of AIVs will allow food security to be met hence helping maternal and child nutrition in the SSA [44,69,75]. Some products are believed to relieve or prevent dental carries which are common in pregnant and breastfeeding women. There has been an observation of Lactobacillus and Bifidobacter-ium species (commonly found in African fermented products) helping with preventing dental caries [69,77].
As far as todays' trend in healthy foods remains, fermentation of AIVs will be a source of income that can help women's economic growth, which can help them achieve secured, safe, and sustainable nutrition in their households [35,40]. And ensuring the continuation of utilization AIVs and fermenting them will underline the food sovereignty and security of Africa [11].

Current and Future Challenges
To alleviate hunger in its all manifestations whether stunting, wasting, or mental retardation of African children and anemia and micronutrient deficiency in African women of reproductive age, indigenous foods and indigenous food technologies are among the promising sustainable treatments.
Currently, little is documented about indigenous vegetables and indigenous technologies especially fermentation of vegetables in Africa. There is lack of elaborate fermentation technology in Africa. Each region has its way of fermenting its products which makes it difficult to adopt the fermentation on a continent level. The diversity of fermentation processes is influenced by the end product desired characteristics, climate, and microorganisms involved.
With the loss of generation trickle-down of knowledge sharing, more is discussed about optimization of the process. Inconvenience and poor attitude towards AIVs and indigenous fermented products by urban dwellers or economically improved people remain a challenge for this development. Therefore, research is needed to shed light on indigenous foods and food technologies and their potential in combating rampant malnutrition, child, and maternal health problems in SSA. This will allow the African continent to realize her aspirations as envisaged in agenda 2063.

Data Availability
The reference data used to support the findings of this study are included within the article.

Conflicts of Interest
The authors declare that there is no conflict of interests.