Name Section Lab 5 Photosynthesis, Respiration and Fermentation

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1 Name Section Lab 5 Photosynthesis, Respiration and Fermentation Plants are photosynthetic, which means that they produce their own food from atmospheric CO 2 using light energy from the sun. This process is a complex series of steps involving the conversion of light energy into chemical energy, which is then used to synthesize sugars from carbon dioxide. The equation below summarizes the photosynthetic process Light + CO 2 + H 2 O (CH 2 O) n + O 2 sugar Once produced, the sugars can then be used for the respiration that is required to support growth, maintenance and reproduction. Respiration is a process found in all organisms and, in the presence of oxygen, can be summarized by the equation (CH 2 O) n + O 2 CO 2 + H 2 O + energy Photosynthesis and respiration, on their surfaces, appear to be opposing reactions, but both have very different biochemical pathways and essential for a plant s metabolism. Photosynthesis takes place in the chloroplast to produce the sugars, starches and other carbohydrates for the plant s metabolic needs. Cellular respiration occurs in mitochondria where these carbohydrates are burned to produce chemical energy to do work at the cellular level. Animals also posses mitochondria in which cellular respiration takes place, however, unlike plants, they must eat organic molecules for their cellular respiration. Often their food source is plants. Some organisms respire in the absence of oxygen (anerobic respiration). Of particular importance to humans is the anaerobic breakdown of carbohydrates that lead to alcohol fermentation. The yeast, Saccharomyces cerevisae, (a unicellular fungus) is used in both bead making and alcohol brewing because of its capacity for alcohol fermentation. In this process, sugars are broken down anaerobically in the cytosol to produce energy. Although fermentation yields energy from breaking down sugars, it can do so only partially and is far less efficient than aerobic respiration, which completely processes sugar molecules. Alcohol and CO 2 are byproducts of fermentation. The equation summarizing fermentation is (CH 2 O) n C 2 H 5 OH + CO 2 + energy Ethanol In today s lab we will be studying and monitoring photosynthesis, respiration and fermentation. You will be setting up simple experiments to study the effects of light on photosynthesis in terrestrial and aquatic plants. You will also be measuring respiration in developing seeds as well as identifying the relative levels of respiration in the different structures of a seed. Finally you will be experimenting with fermentation by monitoring the production of CO 2 gas in actively growing yeast cultures.

2 1. Photosynthesis Gas Exchange and Carbon Exchange Rates In this demonstration you will study the rate at which light affects CO 2 exchange between plants and the atmosphere. Techniques in gas exchange monitor the concentration of CO 2 in an air stream before and after passing over a metabolizing plant. If a plant is photosynthesizing the CO 2 in the air stream will be lower after being exposed to the plant; if it is respiring the CO 2 concentration will be higher. The gas exchange apparatus monitors the rate of change in CO2 concentration and converts that into a carbon exchange rate (CER) on a leaf area basis (µmoles CO 2 sec -1 m -2 ). When CER is positive photosynthetic rates are greater than the respiration rates; when the CER is negative then respiration outpaces photosynthesis. Look at the gas exchange apparatus on display in lab today. Turn the lights on to see a response in gas exchange. Wait for a stable reading and record the value in the table below. Lower the light intensity and note the change in CER. Turn the lights off and wait for a stable rate in CER. Record your values in the table below. Species CER High light CER Low light CER Dark Photosynthesis and Respiration in Elodea In this exercise, you will use phenol red as an indicator to show whether CO 2 is being consumed or produced. In the presence of light, plants photosynthesize and at the same time they are also undergoing cell respiration. To demonstrate this, we will determine whether CO 2 is consumed or produced as Elodea is placed in either a light or dark environment. The change in CO 2 will be detected by the ph indicator phenol red. In a closed system, actively photosynthesizing plants will be consuming more CO 2 than they release from respiration resulting in a drawdown of CO 2 gas. Under dark conditions, plants will only release CO 2 resulting in a build up in CO 2. The ph of aquatic environments is greatly influenced by CO 2 concentrations; at high CO 2 concentrations the water becomes acidic and at low CO 2 water becomes more basic. Phenol red is yellow under acidic conditions (high CO 2 concentration), red under basic or alkaline conditions (low CO 2 ion concentration) and orange under neutral conditions. A change in CO 2 resulting from photosynthesis or respiration will result in a proportional change in ph and can be qualitatively monitored with color changes in a phenol red solution.

3 Procedure: Obtain a solution of phenol red (about 100 ml). The solution should be at a neutral ph (~7.0) and an orange color. Transfer the solution into 4 test tubes (they should be filled about 2/3 full with your orange solution). Place a cut piece of elodea (cut end up) into two of the four tubes. The other two test tubes will not have elodea and will serve as controls. One control will be placed in the light, and one set in the dark (see data table). All test tubes should be covered with parafilm to minimize reactions with the air. Record the colors of the solutions in the test tubes after 1-2 hours. Color (time) Elodea dark Elodea light just phenol red dark (control) just Phenol red light (control) Starting ( ) Ending ( ) Explain any color changes noted in the test tubes. Why were the two controls included? 2. Respiration In these exercises you will be studying the rate of respiration in germinating seeds or other plant parts (e.g. potato tissue). Respiration is the sum of three different metabolic processes: glycolysis, the Krebs cycle and the electron transport system. Glycolysis and the Krebs cycle together methodically breakdown carbohydrates to release the energy stored in their bonds (CO 2 release occurs during the Krebs cycle). These breakdown steps release electrons which are run through an electron transport system to drive the production of cellular energy molecules (ATP). In today s lab we will be looking at evidence in support of O 2 consumption during respiration and electron transport activity. Electron Transport during Respiration You will use a weak solution of a tetrazolium salt as an indicator of electron transport activity associated with cellular respiration. Tetrazolium salts are strong electron acceptors and will change from a colorless state to red after accepting an electron. Using soaked and boiled seed, you will qualitatively determine if and where respiration is occurring in the seed. The tetrazolium will act as an artificial electron acceptor resulting in any respiring tissue turning a red color. Tetrazolium tests are often used to test for

4 seed viability in a semi-quantitative manner. Seed turning dark red are very viable, those turning pink are only weakly viable and seed that show no red color are considered nonviable. Obtain 2 or three soaked and boiled seed (corn, bean and pea) Cut the seed in half lengthwise using a razor blade to expose the embryo (bean or pea, remove seed coat and carefully separate the cotyledons to expose the embryo. Remove one cotyledon and dispose of it (use the half with the embryo). Corn, cut seed lengthwise down the middle of the wider side of the kernel. Put seed into a small Petri dish and just cover with tetrazolium solution. Check for pink coloration after 20 minutes. Make a sketch of your results in the space below. Indicate any differences between treatments. Where on the seed do you see evidence for respiration? Why? Oxygen Consumption during Respiration (Scholander Respirometers) Oxygen is consumed during the process of cellular respiration when it is reduced to water at the end of the electron transport chain. Monitoring oxygen depletion is a common method for determining respiration rates in plants and animals. You will be using a simple manonmetric apparatus, called the Scholander Respirometer, to measure the rate of oxygen consumption in germinating pea seeds. To use the respirometer place a small amount of ascarite (a CO 2 scrubber) into the hanging tray in the sample chamber place enough peas into the chamber to fill it about 1/3 of the way place two or three drops of water in the compensating chamber

5 assemble the manometer block into the sample and compensating chambers (Take care not to spill manometer fluid or ascarite. Keep block upright) let respirometer equilibrate for 1 or 2 minutes before inserting the syringe, pull the plunger to the top of the cylinder and then insert on sample side of the manometer block plug the hole on the compensating chamber side of the manometer block with putty note time and position of manometer fluid on the sample side of the manometer block after the manometer fluid is displaced a centimeter or so, slowly inject some air with the syringe to bring the fluid back to the original starting point. record time and air volume needed to compensate the manometer fluid displacement in table below and calculate respiration rate # of peas time Syringe volume Respiration rate initial ending initial ending ml O 2 pea -1 hr -1 Scholander Respirometer syringe manometer block sample chamber w/ hanging tray compensating chamber

6 3. Fermentation in Yeast The yeast, Saccharomyces cerevisiae, performs alcohol fermentation when oxygen is unavailable. One of the products of alcohol fermentation is CO 2. The rate of CO 2 evolution can be used as an indication of the relative rate of fermentation of the yeast organisms. There are a number of ways to collect the CO 2 given off during fermentation, including respirometers, fermentation tubes or CO2 gas analyzers. Several factors can affect fermentation rate: concentration of yeast, concentration of the fuel molecules, type of fuel molecules, temperature, etc. In this exercise you will observe how the different sugars affect fermentation using fermentation tubes to collect CO 2 production. Materials Needed 3 50ml beakers 10% Sucrose solution 3 Fermentation Tubes 10% Maltose solution Ruler Yeast suspension fermentation tube Procedure Label the three beakers and the three fermentation tubes 1-3. Fill your 3 beakers following the instructions in the table below. Tube# Distilled Water Sucrose Solution Maltose Solution Yeast Solution 1 33 ml 0 0 ml 17 ml 2 13 ml 20 ml 0 ml 17 ml 3 13 ml 0 ml 20 ml 17 ml Mix the contents of your beakers thoroughly and transfer the solutions to your 3 fermentation tubes. Tilt the fermentation tubes so the tube portion of the fermentation tube is filled with your solution and no air. Place your fermentation tubes on the table top. As fermentation occurs, the CO 2 evolved will rise to the top of the fermentation tube, displacing the solution Measure the level of gas (in mm) in the fermentation tubes at 10-minute intervals for 30 or 40 minutes in the table below. treatment 10 min (mm) 20 min (mm) 30 min (mm) 40 min (mm) Control (#1) Sucrose (#2) Maltose (#3) Did you find any difference in the rate of fermentation between the two sugars tested? Explain your results.

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