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An Experiment on the Plant Hormone Ethylene
Posted Date:
Total Responses: 0
Posted By: CONFIDENCE IS THE COMPANION OF SUCCESS Member Level: Diamond Points/Cash: 8
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Objective
The goal of this experiment is to measure the ripening of unripe fruit induced by the plant hormone ethylene, by monitoring starch levels using an iodine solution.
Introduction
In general, plant tissues communicate using classes of compounds called hormones. These hormones are defined as substances produced in one location that have an effect on target cells in a non-adjacent location. In plants, germination, growth, development, reproduction, and environmental response are all coordinated through hormones. Although most of the main plant hormones are transported in the vascular system of the plant, one class of hormones is transferred in gaseous phase. This class includes the plant hormone ethylene.
Ethylene is manufactured and released by rapidly growing tissues (i.e., meristems) in roots, senescing flowers, and ripening fruit. For example, the darkened spots on a ripe banana release great amounts of ethylene. Ethylene has many effects on plants including being responsible for the stunting of plants in high winds or when repeatedly touched. In addition, ethylene promotes fruit ripening. Like many hormones, it does so at very low concentrations. Apple growers take advantage of this by picking fruit when it is not ripe, holding it in enclosed conditions without ethylene, and exposing it to ethylene right before taking it to market. This process is why we have newly ripened apples grown in temperate North America even in the spring and summer (apples ripen in the fall).
During the process of ripening, apples convert stored starch into sugar. In apples and many other commercial fruit, the sweet portion of the fruit evolved as a reward for animal seed dispersers. When seeds are ripe and ready for dispersal, the fruit converts stored starch, which does not taste sweet, into sugar. The hormone ethylene initiates the metabolic pathways that lead to this conversion.
Terms, Concepts and Questions to Start Background Research
* hormone
* ethylene
Questions
* What role do plant hormones play in fruit ripening?
* What events trigger the production of ethylene?
* What physical and chemical changes occur as a fruit ripens?
* How does an iodine stain indicate the difference between ripe and unripe fruit?
Materials and Equipment
To do this project you will need the following materials and equipment:
* 8 sealable plastic bags, large enough to hold an apple and a banana,
* 4 ripe bananas,
* 8 unripe unripe pears or 8 unripe apples, notes:
o Choose apples that are in the early stages of ripening, these may be obtained at a grocery store or an orchard.
o You may also use varieties of crab apples or other local ornamental apples that are in the early stages of ripening.
o Store-bought apples may already be too ripe to conduct a ripening experiment.
o Pears are usually sold with the expectation that they will ripen after purchase, so they may be the best store-bought choice for this project.
* chemicals for iodine stain solution, notes:
o These chemicals are not available for purchase by individuals. You will have to order them through your school, so plan ahead.
o Both solutions are available from Carolina Biological Supply, Inc..
o 2% potassium iodide (KI) solution (catalog number 88-3871),
o 2% iodine (I) solution (catalog number 86-9091).
* 500 mL graduated cylinder,
* 1 liter (or larger) brown glass or plastic bottle for iodine stain solution,
* glass or plastic funnel,
* shallow glass or plastic tray at least 5 cm (approx. 2") deep,
* plastic straws,
* knife and cutting board for cutting apples/pears.
Experimental Procedure
1. If you are unsure whether your pears (or apples) are really unripe, follow the procedure in steps 7–9 to test one before conducting your experiment.
2. Label the bags:
* Bags #1–4: Control,
* Bags #5–8: Test
3. In each of the Control bags, place one unripe pear (or apple) and seal the bag.
4. In each of the Test bags, place one banana and one unripe pear (or apple) and seal the bag.
5. Place the bags together, and observe changes to fruit each day. Record your observations in your lab notebook.
6. After 2–3 days, use the procedure in steps 7–9 to test the pears (or apples) for the presence of starch.
7. Make the following iodine stain solution:
Safety note: Use appropriate care when handling the iodine solutions.
* Read and follow safety warnings in the Material Safety Data Sheet (MSDS) accompanying each chemical.
* Wear protective gloves, eyewear, and a lab coat when handling these chemicals.
* Do not use metal containers for storing or measuring these solutions. Iodine is corrosive to metals.
* The solutions will stain skin and clothing.
1. Use the graduated cylinder to measure 455 mL of the 2% potassium iodide (KI) solution. Carefully pour into the 1 L bottle.
2. Use the graduated cylinder to measure 120 mL of the 2% iodine (I) solution. Carefully pour into the 1L bottle.
3. Add water to make 1 L (about 425 mL).
4. Cap bottle securely and invert several times to mix.
5. The solution will keep for long periods of time in a tightly covered brown glass bottle.
8. Stain the fruit:
1. CAUTION: Be careful with this solution. It will stain your skin and clothing if spilled. Wear protective gloves, eye wear, and a lab coat when handling the staining solution. Read and follow the safety note, above (step 7).
2. Pour the iodine stain solution into the glass or plastic tray to a depth of 0.5 cm.
3. Cut the pear (apple) in half (in cross section). Place the cut face of the fruit into the stain. You may want to prevent the cut surface from adhering to the tray bottom by propping it using glass rods or plastic straws.
4. Let the fruit soak in the stain for one minute.
5. Take the fruit out and rinse the face with water. (Rinse away from the staining tray so that the rinse water does not dilute the stain.)
6. Note: the staining solution can be poured back into its storage container and used again for a future experiment. Use a funnel and pour carefully!
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Project Feedbacks
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| Author: Rukhsar | Member Level: Bronze | Revenue Score:  | The goal of this experiment is to measure the ripening of unripe fruit induced by the plant hormone ethylene, by monitoring starch levels using an iodine solution.
Introduction
In general, plant tissues communicate using classes of compounds called hormones. These hormones are defined as substances produced in one location that have an effect on target cells in a non-adjacent location. In plants, germination, growth, development, reproduction, and environmental response are all coordinated through hormones. Although most of the main plant hormones are transported in the vascular system of the plant, one class of hormones is transferred in gaseous phase. This class includes the plant hormone ethylene.
Ethylene is manufactured and released by rapidly growing tissues (i.e., meristems) in roots, senescing flowers, and ripening fruit. For example, the darkened spots on a ripe banana release great amounts of ethylene. Ethylene has many effects on plants including being responsible for the stunting of plants in high winds or when repeatedly touched. In addition, ethylene promotes fruit ripening. Like many hormones, it does so at very low concentrations. Apple growers take advantage of this by picking fruit when it is not ripe, holding it in enclosed conditions without ethylene, and exposing it to ethylene right before taking it to market. This process is why we have newly ripened apples grown in temperate North America even in the spring and summer (apples ripen in the fall).
During the process of ripening, apples convert stored starch into sugar. In apples and many other commercial fruit, the sweet portion of the fruit evolved as a reward for animal seed dispersers. When seeds are ripe and ready for dispersal, the fruit converts stored starch, which does not taste sweet, into sugar. The hormone ethylene initiates the metabolic pathways that lead to this conversion.
Terms, Concepts and Questions to Start Background Research
hormone
ethylene
Questions
What role do plant hormones play in fruit ripening?
What events trigger the production of ethylene?
What physical and chemical changes occur as a fruit ripens?
How does an iodine stain indicate the difference between ripe and unripe fruit?
Bibliography
This project is based on an online lab exercise by Steven K. Rice, and was used by permission:
Rice, S.K., 2001. "One Bad Apple: Synchrony in Ripening Fruit," Botanical Society of America [accessed January 22, 2007] http://mcintosh.botany.org/bsa/misc/mcintosh/badapple.html.
General information about plant hormones, including ethylene, can be found here:
BBSRC, date unknown. "Plant Hormones," material originally produced by the Biotechnology and Biological Sciences Research Council, UK, website hosted by Mendipweb [accessed January 22, 2007] http://www.plant-hormones.info.
Information on fruit ripening:
Koning, R. E., 1994 "Fruit Growth and Ripening," Plant Physiology, Biology Department, Eastern Connecticut State University [accessed January 22, 2007] http://plantphys.info/Plants_Human/fruitgrowripe.html.
Introduction to Plant Terms and Concepts:
Stern, Kingsley R. 2000. Introductory Plant Biology, 8th ed. Dubuque, IA: McGraw Hill.
Materials and Equipment
To do this project you will need the following materials and equipment:
8 sealable plastic bags, large enough to hold an apple and a banana,
4 ripe bananas,
8 unripe unripe pears or 8 unripe apples, notes:
Choose apples that are in the early stages of ripening, these may be obtained at a grocery store or an orchard.
You may also use varieties of crab apples or other local ornamental apples that are in the early stages of ripening.
Store-bought apples may already be too ripe to conduct a ripening experiment.
Pears are usually sold with the expectation that they will ripen after purchase, so they may be the best store-bought choice for this project.
chemicals for iodine stain solution, notes:
These chemicals are not available for purchase by individuals. You will have to order them through your school, so plan ahead.
Both solutions are available from Carolina Biological Supply, Inc..
2% potassium iodide (KI) solution (catalog number 88-3871),
2% iodine (I) solution (catalog number 86-9091).
500 mL graduated cylinder,
1 liter (or larger) brown glass or plastic bottle for iodine stain solution,
glass or plastic funnel,
shallow glass or plastic tray at least 5 cm (approx. 2") deep,
plastic straws,
knife and cutting board for cutting apples/pears.
Disclaimer: Science Buddies occasionally provides information (such as part numbers, supplier names, and supplier weblinks) to assist our users in locating specialty items for individual projects. The information is provided solely as a convenience to our users. We do our best to make sure that part numbers and descriptions are accurate when first listed. However, since part numbers do change as items are obsoleted or improved, please send us an email if you run across any parts that are no longer available. We also do our best to make sure that any listed supplier provides prompt, courteous service. Science Buddies receives no consideration, financial or otherwise, from suppliers for these listings. (The sole exception is any Amazon.com, Barnes&Noble.com, or any SEAN supplier link.) If you have any comments (positive or negative) related to purchases you've made for science fair projects from recommendations on our site, please let us know. Write to us at scibuddy@sciencebuddies.org.
Experimental Procedure
If you are unsure whether your pears (or apples) are really unripe, follow the procedure in steps 7–9 to test one before conducting your experiment.
Label the bags:
Bags #1–4: Control,
Bags #5–8: Test
In each of the Control bags, place one unripe pear (or apple) and seal the bag.
In each of the Test bags, place one banana and one unripe pear (or apple) and seal the bag.
Place the bags together, and observe changes to fruit each day. Record your observations in your lab notebook.
After 2–3 days, use the procedure in steps 7–9 to test the pears (or apples) for the presence of starch.
Make the following iodine stain solution: Safety note: Use appropriate care when handling the iodine solutions.
Read and follow safety warnings in the Material Safety Data Sheet (MSDS) accompanying each chemical.
Wear protective gloves, eyewear, and a lab coat when handling these chemicals.
Do not use metal containers for storing or measuring these solutions. Iodine is corrosive to metals.
The solutions will stain skin and clothing.
Use the graduated cylinder to measure 455 mL of the 2% potassium iodide (KI) solution. Carefully pour into the 1 L bottle.
Use the graduated cylinder to measure 120 mL of the 2% iodine (I) solution. Carefully pour into the 1L bottle.
Add water to make 1 L (about 425 mL).
Cap bottle securely and invert several times to mix.
The solution will keep for long periods of time in a tightly covered brown glass bottle.
Stain the fruit:
CAUTION: Be careful with this solution. It will stain your skin and clothing if spilled. Wear protective gloves, eyewear, and a lab coat when handling the staining solution. Read and follow the safety note, above (step 7).
Pour the iodine stain solution into the glass or plastic tray to a depth of 0.5 cm.
Cut the pear (apple) in half (in cross section). Place the cut face of the fruit into the stain. You may want to prevent the cut surface from adhering to the tray bottom by propping it using glass rods or plastic straws.
Let the fruit soak in the stain for one minute.
Take the fruit out and rinse the face with water. (Rinse away from the staining tray so that the rinse water does not dilute the stain.)
Note: the stainining solution can be poured back into its storage container and used again for a future experiment. Use a funnel and pour carefully!
Quantify the staining:
Determine a numeric ripeness score by comparing your apples with the Ripeness Chart, below:
McIntosh apple starch test guide
The goal of this experiment is to measure the ripening of unripe fruit induced by the plant hormone ethylene, by monitoring starch levels using an iodine solution.
Introduction
In general, plant tissues communicate using classes of compounds called hormones. These hormones are defined as substances produced in one location that have an effect on target cells in a non-adjacent location. In plants, germination, growth, development, reproduction, and environmental response are all coordinated through hormones. Although most of the main plant hormones are transported in the vascular system of the plant, one class of hormones is transferred in gaseous phase. This class includes the plant hormone ethylene.
Ethylene is manufactured and released by rapidly growing tissues (i.e., meristems) in roots, senescing flowers, and ripening fruit. For example, the darkened spots on a ripe banana release great amounts of ethylene. Ethylene has many effects on plants including being responsible for the stunting of plants in high winds or when repeatedly touched. In addition, ethylene promotes fruit ripening. Like many hormones, it does so at very low concentrations. Apple growers take advantage of this by picking fruit when it is not ripe, holding it in enclosed conditions without ethylene, and exposing it to ethylene right before taking it to market. This process is why we have newly ripened apples grown in temperate North America even in the spring and summer (apples ripen in the fall).
During the process of ripening, apples convert stored starch into sugar. In apples and many other commercial fruit, the sweet portion of the fruit evolved as a reward for animal seed dispersers. When seeds are ripe and ready for dispersal, the fruit converts stored starch, which does not taste sweet, into sugar. The hormone ethylene initiates the metabolic pathways that lead to this conversion.
Terms, Concepts and Questions to Start Background Research
hormone
ethylene
Questions
What role do plant hormones play in fruit ripening?
What events trigger the production of ethylene?
What physical and chemical changes occur as a fruit ripens?
How does an iodine stain indicate the difference between ripe and unripe fruit?
Bibliography
This project is based on an online lab exercise by Steven K. Rice, and was used by permission:
Rice, S.K., 2001. "One Bad Apple: Synchrony in Ripening Fruit," Botanical Society of America [accessed January 22, 2007] http://mcintosh.botany.org/bsa/misc/mcintosh/badapple.html.
General information about plant hormones, including ethylene, can be found here:
BBSRC, date unknown. "Plant Hormones," material originally produced by the Biotechnology and Biological Sciences Research Council, UK, website hosted by Mendipweb [accessed January 22, 2007] http://www.plant-hormones.info.
Information on fruit ripening:
Koning, R. E., 1994 "Fruit Growth and Ripening," Plant Physiology, Biology Department, Eastern Connecticut State University [accessed January 22, 2007] http://plantphys.info/Plants_Human/fruitgrowripe.html.
Introduction to Plant Terms and Concepts:
Stern, Kingsley R. 2000. Introductory Plant Biology, 8th ed. Dubuque, IA: McGraw Hill.
Materials and Equipment
To do this project you will need the following materials and equipment:
8 sealable plastic bags, large enough to hold an apple and a banana,
4 ripe bananas,
8 unripe unripe pears or 8 unripe apples, notes:
Choose apples that are in the early stages of ripening, these may be obtained at a grocery store or an orchard.
You may also use varieties of crab apples or other local ornamental apples that are in the early stages of ripening.
Store-bought apples may already be too ripe to conduct a ripening experiment.
Pears are usually sold with the expectation that they will ripen after purchase, so they may be the best store-bought choice for this project.
chemicals for iodine stain solution, notes:
These chemicals are not available for purchase by individuals. You will have to order them through your school, so plan ahead.
Both solutions are available from Carolina Biological Supply, Inc..
2% potassium iodide (KI) solution (catalog number 88-3871),
2% iodine (I) solution (catalog number 86-9091).
500 mL graduated cylinder,
1 liter (or larger) brown glass or plastic bottle for iodine stain solution,
glass or plastic funnel,
shallow glass or plastic tray at least 5 cm (approx. 2") deep,
plastic straws,
knife and cutting board for cutting apples/pears.
Disclaimer: Science Buddies occasionally provides information (such as part numbers, supplier names, and supplier weblinks) to assist our users in locating specialty items for individual projects. The information is provided solely as a convenience to our users. We do our best to make sure that part numbers and descriptions are accurate when first listed. However, since part numbers do change as items are obsoleted or improved, please send us an email if you run across any parts that are no longer available. We also do our best to make sure that any listed supplier provides prompt, courteous service. Science Buddies receives no consideration, financial or otherwise, from suppliers for these listings. (The sole exception is any Amazon.com, Barnes&Noble.com, or any SEAN supplier link.) If you have any comments (positive or negative) related to purchases you've made for science fair projects from recommendations on our site, please let us know. Write to us at scibuddy@sciencebuddies.org.
Experimental Procedure
If you are unsure whether your pears (or apples) are really unripe, follow the procedure in steps 7–9 to test one before conducting your experiment.
Label the bags:
Bags #1–4: Control,
Bags #5–8: Test
In each of the Control bags, place one unripe pear (or apple) and seal the bag.
In each of the Test bags, place one banana and one unripe pear (or apple) and seal the bag.
Place the bags together, and observe changes to fruit each day. Record your observations in your lab notebook.
After 2–3 days, use the procedure in steps 7–9 to test the pears (or apples) for the presence of starch.
Make the following iodine stain solution: Safety note: Use appropriate care when handling the iodine solutions.
Read and follow safety warnings in the Material Safety Data Sheet (MSDS) accompanying each chemical.
Wear protective gloves, eyewear, and a lab coat when handling these chemicals.
Do not use metal containers for storing or measuring these solutions. Iodine is corrosive to metals.
The solutions will stain skin and clothing.
Use the graduated cylinder to measure 455 mL of the 2% potassium iodide (KI) solution. Carefully pour into the 1 L bottle.
Use the graduated cylinder to measure 120 mL of the 2% iodine (I) solution. Carefully pour into the 1L bottle.
Add water to make 1 L (about 425 mL).
Cap bottle securely and invert several times to mix.
The solution will keep for long periods of time in a tightly covered brown glass bottle.
Stain the fruit:
CAUTION: Be careful with this solution. It will stain your skin and clothing if spilled. Wear protective gloves, eyewear, and a lab coat when handling the staining solution. Read and follow the safety note, above (step 7).
Pour the iodine stain solution into the glass or plastic tray to a depth of 0.5 cm.
Cut the pear (apple) in half (in cross section). Place the cut face of the fruit into the stain. You may want to prevent the cut surface from adhering to the tray bottom by propping it using glass rods or plastic straws.
Let the fruit soak in the stain for one minute.
Take the fruit out and rinse the face with water. (Rinse away from the staining tray so that the rinse water does not dilute the stain.)
Note: the stainining solution can be poured back into its storage container and used again for a future experiment. Use a funnel and pour carefully!
Quantify the staining:
Determine a numeric ripeness score by comparing your apples with the Ripeness Chart, below:
McIntosh apple starch test guide
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