EFFECT OF POTASH ON MICROBIAL ACTIVITY ON COOKED BROWN BEANS ABSTRACT This work was on the effect of potash on microbial activity on cooked brown beans. Two samples: A and B for Beans cooked with potash and without potash respectively were used. Pour plate techniques and Biochemical tests were carried out to isolate and confirmed the presence of Microccus luteus and Entrobacter aerogens in the samples. The average count of bacterial isolate in sample A was 1.7x103 cfu/ml while that of sample B was 5.82x103cfu/ml Due to microbial growth inhibition caused by the presence of potash in sample A, the bacteria count was found to be less than the bacterial count in sample B. Cluster of spores of fungal growth identified were Fusarium spp, Penicillium melinii and Mucor spp. In sample A, the average count of fungal isolates was 6spores/ml and 2spores/ml for sample B . Due to microbial growth inhibition caused by the presence of potash in sample B, the fungal count was found to be less than the fungal count in sample A. The result proved that potash is a good food preservative against microbes. TABLE OF CONTENT CHAPTER ONE 1.0 Introduction 1.1 Background of the Study 1.2 Statement of the Problem 1.3 Objective of the Study 1.4 Significance of the Study 1.5 Limitation of the Study CHAPTER TWO 2.0 Literature Review 2.1 Nutritional Value of Beans 2.2 Sources of Microbial Contamination of Cooked Beans 2.3 Activities of Microbes on Cooked Beans 2.4 Health Implications of Microbial Contamination of Beans 2.5 Potash and its Chemical Composition 2.6 Potash as a Food Preservative CHAPTER THREE 3.0 Materials and Method 3.1 Materials 3.2 Collection of Samples 3.3 Sterilization of Materials 3.4 Preparation of Culture Media 3.5 Sample Preparation 3.6 Serial Dilution 3.7 Identification and Characterization of Isolated Organism 3.8 Gram Staining 3.9 Isolation of Fungal 3.10 Biochemical Test 3.11 Effect of Potash on Microbial Activity on Cooked Brown Beans CHAPTER FOUR 4.0 Results CHAPTER FIVE 5.0 Discussion, Conclusion and Recommendation 5.1 Discussion 5.2 Conclusion 5.3 Recommendation References Appendix LIST OF TABLES Table 1: Morphological characteristic Gram Reaction on Isolates Table 2: Biochemical Test on each Isolate Table 3: Total plate count of Bacteria Isolated from Cooked Beans Table 4: Isolation and Identification of Fungi from cooked Beans with Potash Table 5: Total plate count of Fungi Isolated from Cooked Brown Beans CHAPTER ONE INTRODUCTION Background to the Study Ready-to-eat food is not a nominated food or class of food within Standard. This Product group is defined as: Food that is ordinarily consumed in the same state as that in which it is sold and does not Include nuts in the shell and whole, raw fruits and vegetables that are intended for hulling, peeling or washing by the consumer (NSW, 2009). Although it is extremely difficult to pinpoint the precise beginning of human awareness of the presence and role of microorganisms in foods, the available evidence indicates that this knowledge preceded the establishment of bacteriology or microbiology as a science (Jay et al. 2005). Some ready-to-eat foods also are regarded as ‘potentially hazardous’. Such foods can support the growth of pathogenic (food poisoning) bacteria and must be kept at certain temperatures to minimize the growth of any pathogens that may be present in the food or to prevent the formation of toxins in the food (NSW, 2009) There is a wide variety of ready-to-eat foods. Examples include, but are not limited to, Sandwiches, kebabs, sushi, takeaway foods and bakery products (NSW, 2009). Ready-to-eat foods usually include a number of ingredients which may or may not be cooked. Due to the variety of ready-to-eat foods, the interpretation of microbiological results obtained from testing must account for the method of processing and the individual components of the food (NSW, 2009). To assist with interpreting the microbiological analyses of such foods as part of our monitoring and surveillance program (i.e. surveys), the NSW Food Authority uses criteria that are based on interpretive guides published by the United Kingdom’s Health Protection Agency and by Food Standards of Australia, New Zealand (FSANZ, 2001; NSW, 2009) Because human food sources are of plant and animal origin, it is important to understand the biological principles of the microbial biota associated with plants and animals in their natural habitats and respective roles (Jay et al., 2005). Although it sometimes appears that microorganisms are trying to ruin our food sources by infecting and destroying plants and animals, including humans, this is by no means their primary role in nature (Jay et al., 2005). In our present view of life on this planet, the primary function of microorganisms in nature is self-perpetuation. The microbial spoilage of foods may be viewed simply as an attempt by the food biota to carry out what appears to be their primary role in nature (Jay et al., 2005). Food borne illness is defined as diseases, usually either infectious or toxic in nature, caused by agents that enter the body though the ingestion of food (WHO, 2007). Governments all over the world are intensifying their efforts to improve food safety in response to an increasing number of food safety problems and rising consumer concerns (WHO, 2007). “Food borne illnesses account for about one of every 100 U.S. hospitalizations and one of every 500 deaths” (Buzby et al., 2001). Food borne diseases are known to contribute to both human morbidity and mortality as well as to health care costs (Campbell et al., 1998). Most food-related illnesses have historically been attributed to one of five major groups of pathogenic bacteria (Mboto et al., 2012). These five groups are Salmonella, Shigella, Clostridium botulinum, Clostridium perfringens, Bacillus cereus, and Staphylococcus aureus. These have been joined by the emerging pathogens such as Yersinia enterocolitica, Escherichia coli, Listeria monocytogens, and Campylobacter jejuni (Mboto et al., 2012). Statement of Problem Antioxidants are agents that fight diseases that feed the nature of food to promote the health of body cells and tissues (Warmer, 2012). Turner (2012) documented that plant antioxidants are phytochemicals used to control viruses, fungi and bacteria. They are essentially the chemical products that absorb harmful free radicals (oxidants) from the cells and tissues of the body (Blomhoff, 2012). These are compounds that protect other compounds in the body from the damaging effects of oxygen by reacting with oxygen (Packer and Cadenas, 2015). Jan-Obong (2011) stated that antioxidants are substances that counteract the effects of free radicals in the body and contribute to the prevention of a wide range of diseases. Antioxidants neutralize highly reactive and destructive compounds, called free radicals or bio-oxidants, whose production is actually a normal part of life and part of the equation of simply inhaling oxygen (Kendall, 2010). Normally, the body's natural defense system neutralizes the resulting free radicals and makes them harmless. Environmental influences on the body, such as ultraviolet radiation, pollution and alcohol, can interfere with the body's ability to neutralize free radicals. This allows them to damage the structure and function of the body's cells and there is good evidence that the damage contributes to aging and leads to a variety of diseases, such as cancer and heart disease (Nutrihealth, 2015). In Nigeria, bean is widely cultivated in Plateau State. It is called ‗kwakil longtong‘ in ‗Mwaghavul‘ language. Just like other bean, it is also called ‗wake‘ in‘ Hausa‘ language, and in ‗Igbo‘, it is called ‗fiofio‘. Since this dark red bean preserves its shape very well during cooking, it is a popular bean for slow-simmering dishes (Queiroz et al., 2012). Black-eyed beans are an important part of the daily diet and provide carbohydrates, proteins, fiber (FD) and many vitamins. The whole bean grain is also rich in vitamins, especially B vitamins, and good mineral sources, especially trace elements (Rehman and Shah 2014, Yin et al., 2012). Whole grains are also sources of many phytochemicals, including phenolic compounds, antioxidants and gamma-aminobutyric acid (GABA) (Miller et al., 2010). Beans are important sources of macronutrients, micronutrients and antioxidants with great potential for human and animal nutrition (Gloria et al., 2013). However, the consumption of red beans is limited by the longer cooking time (about three times that of peas) and the presence of several nutritional inhibitory factors that affect the consumption and bioavailability of nutrients (Bressani, 2013, Pusztai et al., 2014). This makes it necessary to study different processing methods to increase the nutrient potential by shortening the cooking time and reducing the nutrient load and anti-nutritional factors. Therefore, this study seeks assess determine the effect of potash on microbial activity on cooked beans. Aim of the Study The aim of this study is to determine the effect of potash on microbial activity on cooked beans.
EFFECT OF POTASH ON MICROBIAL ACTIVITY ON COOKED BROWN BEANS
CHAPTER ONE 1.0 INTRODUCTION 1.1 Background of the Study Proteins are essential nutrients for the human body (Hermann, 2002). They are one of the building block of the body tissue, and also serve as a fuel source. As a fuel, protein contain 4kcal 7kj) per gram, just like carbohydrates and unlike lipids, which contain 9kcal (37kj) per... Continue Reading
CHAPTER ONE 1.0 INTRODUCTION 1.1 Background of the Study Proteins are essential nutrients for the human body (Hermann, 2002). They are one of the building block of the body tissue, and also serve as a fuel source. As a fuel, protein contain 4kcal (17kj) per gram, just like carbohydrates and unlike lipids, which contain 9kcal (37kj) per gram. The... Continue Reading
ABSTRACTS This project was aimed at producing a fine high quality toilet soap at a low cost which will be of used to home and commercial purposes. The toilet soap produced has its major components caustic potash, palm kernel oil (pKo) caustic soda and soda ash. Other additives are perfume, coaming agent, sodium tripotiphosphate (STPP), colour,... Continue Reading
ABSTRACTS This project was aimed at producing a fine high quality toilet soap at a low cost which will be of used to home and commercial purposes. The toilet soap produced has its major components caustic potash, palm kernel oil... Continue Reading
Abstract According to the available literature, West African mothers usually breastfeed for 12 months. Many urban poor and rural women breastfeed for up to 18 to 24 months. These reports indicate that there is early supplementation with solid foods or early weaning. Although the majority of women start weaning their infants at the age of three to... Continue Reading
Abstract According to the available literature, West African mothers usually breastfeed for 12 months. Many urban poor and rural women breastfeed for up to 18 to 24 months. These reports indicate that there is early supplementation with solid foods or early weaning. Although the majority of women start weaning their infants at the age of three to... Continue Reading
PRODUCTION OF BLACK AND BROWN POLISH BROWN POLISH ABSTRACT This project is aimed at producing black and brown polish of good quality. For clearity, polish is a substance rubbed on the surface of materials to make them smooth and shiny. Polish has being of immense importance in protecting leather surfaces and enhancing their beauty. To produce a... Continue Reading
ABSTRACT This project is aimed at producing black and brown polish of good quality. For clearity, polish is a substance rubbed on the surface of materials to make them smooth and shiny. Polish has being of immense importance in protecting leather surfaces and enhancing their beauty. To produce a standard polish, hard waxes such as carnduba wax,... Continue Reading
. CHAPTER ONE 1.1 BACKGROUND OF THE STUDY Eggs (like other agricultural products) are perishable and consequently require proper and effective storage to reduce post harvest losses. Eggs are delicacies relished in both rural and urban areas with chicken eggs being the most popularly produced and consumed (Fasina et al ., 2012). Eggs are... Continue Reading