Isolation identification and characterization of fungi associated with the spoilage of corn
Table Of Contents
- CHAPTER ONE1.0 Introduction1.1 Statement of the problem1.2 Aims/Objective of the Study1.3 Limitation of the Study1.4 Significance of the StudyCHAPTER TWO2.0 Literature Review2.1 Maize as Sweet Corn2.2 Types of Sugary Corn and Their Qualities2.
- 2.1White Corn2.
- 2.2Yellow Corn2.
- 2.3Bi-Coloured Corn2.
- 2.4Mlti-coloured corn2.
- 2.5Black Corn2.3 Sugery Extender and Super Sweet Type of Corn2.
- 3.1Yellow Corn2.
- 3.2White Corn2.
- 3.3Bio-Coloured Corn2.4 Uses of Maize2.
- 4.1Human Food2.
- 4.2Table 1: Nutritional Values of Maize2.
- 4.3Ornament2.
- 4.4Fodder2.
- 4.5Bio-Fuel2.5 Factors That can Enhance Corn Spoilage2.6 Some Diseases and Pests of CornCHAPTER THREE3.0 Materials and Methods3.1 Materials3.2 Methods3.
- 2.1Collection of Sample3.
- 2.2Sterilization of the Class Wears3.
- 2.3Preparation of Culture media3.
- 2.4Preparation of sample3.
- 2.5Plating Techniques3.3 Identification and Characterization of Isolate3.
- 3.1Culture Characteristics3.
- 3.2Colony Morphology3.
- 3.3Spore Staining3.
- 3.4Motility Test3.5 Biochemical Test3.
- 5.1Carbohydrate Assimilation Test3.
- 5.2Amino-Acid Assimilation Test3.
- 5.4Lipase Activity Test3.
- 3.5Fungi IdentificationCHAPTER FOUR4.0 Results4.1 Identification4.2 Enumeration of Isolate4.
- 2.1Table IV: frequency of Visible Colonies4.
- 2.2Figure I: Histogram of Isolate Frequency4.
- 2.3Figure II: Colony Plates of Fungi IsolatesCHAPTER FIVE5.0 DISCUSSION AND CONCLUSION5.1 Discussion5.2 Conclusion5.3 RecommendationReferencesAppendixLIST OF TABLEi. Cultural and Morphological Characteristics Identificationii. Spore Formation, Motility and Biochemical Identificationiii. Frequency of visible coloniesiv. Figure I: Histogram of Isolate Frequencyv. Figure II: Culture Plates of Fungi Isolates
Thesis Abstract
Fungi spoilage organisms are silently invading acidifying, fermenting, discoloring, and disintegrating microbes that render corn (zea mays) unpalatable and unsafe. Fungi spoilage is caused by two factors, (biotic) living which includes insects, birds, rodents and microorganisms and (non-biotic) non-living which includes temperature, humidity and time. Two samples of spoilt corn, red (treated) and white were taken from the store respectivly for investigation to ascertain the microorganism associated with the spoilage of the corn. Attention was focused on fungi. Different methods were used in the identification and five genera were isolated. Mucor spp occurred with a frequency of approximately 6%, Aspergillus spp 9%, Rhizopus spp 15%, Penicillium spp 33% and Fusarium spp. 36%. Fusarium spp was most frequent in occurrence in both samples.
Thesis Overview
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</p><p><strong>1.0 </strong><strong>INTRODUCTION</strong></p><p>What food is more synonymous with summon than freshly picked corn on the cob? Corn grows in “ears, each of which is covered in rows of kernels that are then protected by the silk-like threads called “corn silk” and encased in a husk. Corn is known scientifically as <em>Zea</em> <em>Mays</em>. This moniker reflects its traditional name, Maize, by which it was known to the Native Americans as well as many other cultures throughout the world. Although we often associate corn with the colour yellow, it actually comes in host of different varieties featuring an array of different colors, including red, pink, black, purple and blue. Although corn is now available in markets years round, it is the locally grown varieties that you can purchase during the summer months that not only tastes the best but are usually the least expensive (Pitt and Hocking,<em> et al., </em>2009).</p><p>From the time when primitive man began to cultivate crops and store food, spoilage fungi have demanded their tithe. Fuzzes, powders and slimes of white or black, green, orange, red and brown are signs of silently invading, acidifying, fermenting, discoloring and disintegrating microbes rending commodities unpalatable or unsafe (Pitt and Hocking 2002). Pitt and Hocking 2009, also stated that in a prophetic article warned of the danger from common spoilage fungi. Since 1960, a seemingly endless dream of pathogenic fungi discovered. On these ground alone, the statement “it is only a mould” is no longer acceptable to microbiologist, health inspectors or consumers. The demand for accurate identification and characterization of food spoilage fungi has become urgent.</p><p>This research work is focused on corn and its spoilage organisms. It set out to document current knowledge on the interaction of corn and fungi in the context of spoilage. Area covered are how the fungi is isolated using the suitable best media and identification of corn spoilage fungi. Mycologist develops preference and peculiarities of the type of fungi that are routinely grown. Media will affect colony morphology and color whether particular structures are formed or not, and may affect whether the fungus will be even in culture (Hunt <em>et al,</em> 2004).</p><p><strong>1.1 STATEMENT OF THE PROBLEM</strong></p><p>Corn (<em>Zea</em> <em>Mays</em>) is a grain grown by farmers in various parts of the world especially in Africa. Its spoilage most times limits its availability to consumers and causes economic waste to farmers. Corn is mostly spoiled by fungi. The identification and characterization of these spoilage organisms will go a long way to profer solution on matter how little to this problem of corn spoilage.</p><p><strong>1.2 </strong><strong>AIMS/OBJECTIVE OF THE STUDY</strong></p><p>To microbiologically evaluate and identify fungi involved in corn spoilage using maize as case study.</p><p><strong>1.3 </strong><strong>SIGNIFICANCE OF THE STUDY</strong></p><p>The study will help in the acquisition of the knowledge of fungi associated or involved in the spoilage of corn, factors that enhance spoilage of corn and the risk involved in the consumption of spoilt corn.</p>
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