Effect Of Chilling Temperature On The Digestibility Of Cassava Starch
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Introduction
1.1 Background of the Study
Cassava (Manihot esculenta, Crantz), also called, manioc, tapioca or yucca, is one of the most important food crops in the humid tropics, being particularly suited to conditions of low nutrient availability and able to survive drought. it is a dicotyledonous plant, belonging to the family Euphorbiaceae (Alves, 2002). It is a perennial shrub, 2 to 4 min height and is mainly propagated from stem cuttings.It is a widely grown crop in most countries in the tropical regions of Africa, Latin America and Asia; and ranks as one of the main crops in the tropical countries.
Cassava is grown over a range of climates and altitudes and on a wide variety of soils. Cassava is tolerant to drought and is productive in poor soil where other staple crops cannot grow (Bradbury and Holloway, 1988).
Among the starchy staples, cassava gives a carbohydrate production which is about 40% higher than rice and 25% more than maize, with the result that cassava is the cheapestsource of calories for both human nutrition and animal feeding. More thantwo-third of the total production of cassava is used as food for humans, with lesser amounts being used for animal feed and industrial purposes. Nigeria alone currently produces over 14 million tons annually, representing about 25% of sub-Saharan Africa’s output.
Although cassava is the third most important food source in the tropical world after rice and maize, and provides calories for over 160 million people of Africa, its food value is greatly compromised by the endogenous presence of cyanogenicglucosides.
The ability of the crop to survive during drought makes it one of the easiest crops that can be cultivated even when rainfall is not regular. It is reported that over 500million people around the world derive their daily carbohydrate intake from cassava (Udofia et al.,2010). There are two major issues in the utilization of cassava; first, cassava root is highly perishable and cannot be stored in fresh form for more than 3 days after harvesting. Physiological deterioration of the root occurs in 2 -3 days after harvesting follow by microbial deterioration in 3 –5 days (Akingbala et al.,2005).
However, the study tends to examine the effect of chilling temperature on the digestibility of cassava starch.
1.2 Statement of the Problem
Cassava starch has many food and industrial uses, which are linked to its functional properties. Although the basic properties of this starch are known, much research is required to complete our knowledge, especially as regards varietal differences in composition and functional properties. Cassava starch granules are round with a truncated end and a well-defined hilum. The granule size is between 5 and 35 μm. The starch has an A-type X-ray diffraction pattern, usually characteristic of cereals, and not the B type found in other root and tuber starches. The C-type spectrum, intermediate between A and B types, has also been reported. The nonglucosidic fraction of cassava starch is very low: the protein and lipid content is below 0.2%. There is thus no formation of an amylose complex with lipids in native starch. Amylose contents of 8–28% have been reported, but most values lie within the range of 16–18%. (SeeSTARCH | Structure, Properties, and Determination.). Hence, this study was conducted to investigate nurses’ knowledge and attitudes on benefits as well as barriers of the quality of patient record-keeping in two selected public health hospitals in Nigeria.
1.3 Objectives of the Study
The main objective of this study is to examine the effect of chilling temperature on the digestibility of cassava starch.
Specific objectives include;
- To determining the effect different temperature treatments have on digestibility of cassava tuber that is if there be any resistant sugar due to any particular temperature treatment and again how different temperature treatments affects the amount of glucose liberated.
- To examine some foods containing resistant starch, which is digested and absorbed slowly, may be useful in the control of diabetes and obesity, by reducing the increase in blood glucose levels after a meal.
1.4 Research Questions
- What is the effect different temperature treatments have on digestibility of cassava tuber that is if there be any resistant sugar due to any particular temperature treatment and again how different temperature treatments affects the amount of glucose liberated?
- What are the usefulness of some foods containing resistant starch, which is digested and absorbed slowly, may be useful in the control of diabetes and obesity, by reducing the increase in blood glucose levels after a meal?
1.5 Research Hypotheses
Hypothesis I
H0: There is no significant effect different temperature treatments have on digestibility of cassava tuber that is if there be any resistant sugar due to any particular temperature treatment and again how different temperature treatments affects the amount of glucose liberated
H1: There is a significant effect different temperature treatments have on digestibility of cassava tuber that is if there be any resistant sugar due to any particular temperature treatment and again how different temperature treatments affects the amount of glucose liberated
Hypothesis II
H0: There is no significant usefulness of some foods containing resistant starch, which is digested and absorbed slowly, may be useful in the control of diabetes and obesity, by reducing the increase in blood glucose levels after a meal
H1: There is a significant usefulness of some foods containing resistant starch, which is digested and absorbed slowly, may be useful in the control of diabetes and obesity, by reducing the increase in blood glucose levels after a meal
1.6 Significance of the Study
This study will be of immense benefit to other researchers who intend to know more on this study and can also be used by non-researchers to build more on their research work.
This study contributes to knowledge and could serve as a guide for other study.
1.7 Scope of the Study
This study is on the effect of chilling temperature on the digestibility of cassava starch
1.8 Limitations of the Study
The demanding schedule of respondents at work made it very difficult getting the respondents to participate in the survey. As a result, retrieving copies of questionnaire in timely fashion is very challenging. Also, the researcher is a student and therefore has limited time as well as resources in covering extensive literature available in conducting this research. Information provided by the researcher may not hold true for all institutions but is restricted to the selected organization used as a study in this research especially in the locality where this study is being conducted.
Financial constraint:
Insufficient fund tends to impede the efficiency of the researcher in sourcing for the relevant materials, literature or information and in the process of data collection (internet, questionnaire and interview).
Time constraint:
The researcher will simultaneously engage in this study with other academic work. This consequently will cut down on the time devoted for the research work.
Finally, the researcher is restricted only to the evidence provided by the participants in the research and therefore cannot determine the reliability and accuracy of the information provided.
1.9 Definition of Terms
Chilling Temperature:
A standard definition of chilling requirement (or chilling hours) is the number of hours that the temperature is within the range less than or equal to 45 degrees F and greater than or equal to 32 degrees F. Other definitions simply consider the number of hours less than or equal to 45 F.
Digestibility:
Digestibility refers to the amount of nutrient absorbed by the individual and is generally calculated as the amount of nutrient consumed minus the amount of nutrient retained in the feces.
Cassava Starch:
Cassava is a starch-tuber that can be eaten as a whole root or root chips, or grated to make flour for things like bread and crackers. It is also used for puddings or drinks made with tapioca pearls. Cassava is popular in many parts of Africa, Asia, and South American