



Study with the several resources on Docsity
Earn points by helping other students or get them with a premium plan
Prepare for your exams
Study with the several resources on Docsity
Earn points to download
Earn points by helping other students or get them with a premium plan
Yeast produces ATP, ethanol, and carbon dioxide in the presence of carbohydrates. Mammals produce ATP and lactic acid. Some creatures can live off of the ATP ...
Typology: Exercises
1 / 5
This page cannot be seen from the preview
Don't miss anything!




Resources: Miller, K., Levine J. ( 2004 ). Biology. Boston, MA: Pearson Prentice Hall. Scott, R., Sullivan, W. Ecology of Fermented Food [Internet]. Human Ecology Review, Vol. 15, No. 1. 2008. Available from: http://www.humanecologyreview.org/pastissues/her151/scottandsullivan.p df Building on: All living things require energy. Energy is needed to grow, move, reproduce and to combat entropy. The ultimate source of energy on our planet is sunlight. Plants and other producers can take the energy of the sun and use photosynthesis to store that energy in the form of organic molecules like glucose. Cellular respiration and fermentation are needed to release the potential energy in those organic molecules and convert it into a useful form of energy capable of doing work, usually ATP. Cellular respiration requires oxygen and produces ATP, carbon dioxide and water. When oxygen is not present, cells can continue to break down glucose by means of fermentation. Fermentation produces ATP in much smaller amounts than cellular respiration and it also produces other organic compounds. The type of organic compounds that are the end products of fermentation depend on the type of cell that is fermenting, the enzymes that cell has available to catalyze the reactions, and the type of substance being fermented. Yeast produces ATP, ethanol, and carbon dioxide in the presence of carbohydrates. Mammals produce ATP and lactic acid. Some creatures can live off of the ATP produced by fermentation, and they are called anaerobes; while fermentation does not produce enough ATP to sustain life for many cells, they must rely on cellular respiration, and they are called aerobes. Although mammals can undergo fermentation, it cannot sustain them; so mammals are aerobes. Links to Chemistry: Bond energy Endothermic versus exothermic reactions Organic molecules Conservation of matter Conservation of energy Entropy Oxidation – Reduction reactions Gas laws Stoichiometry Links to Physics: Work Potential and kinetic energy Thermodynamics Efficiency
Phase changes Gas laws Stories: Fermentation brings up thoughts of beer and wine, but there are many other products on the market that are also fermented. Some are fermented by yeast or other fungi, and some are fermented by bacteria. Students may find it interesting to learn that the following items are the product of fermentation: Sauerkraut Pickles Tabasco (hot sauce) Salami Vinegar Soy sauce Cheese Yogurt Butter Fermentation has long been a good way to preserve food. Prior to refrigeration, it was a challenge to keep food fresh enough to support people through long winters. Mead is a honey-based fermentation product that was popular in Europe during the middle ages. Mead contained alcohol and surely had intoxicating qualities, but it was consumed by young and old alike. Mead provided nourishment and could be kept stored in large barrels, so it had high survival value. Materials for the Lab:
Introduction: Yeast carry out fermentation in the absence of oxygen. They convert the energy in the bonds of a carbohydrate to make ATP. They also produce CO 2 and ethanol. The rate of fermentation can be determined by measuring the amount of CO 2 produced in a class period. You will be setting up the yeast with three different carbohydrates. Hypothesis: Which type of carbohydrate, glucose, sucrose, or starch, do you think will product the greatest amount of fermentation over the class period? Why? Descriptive List: State the independent variable, the dependent variable, and two constants that are included in the lab Materials: