Name Class Date Skills Practice Lab Earthworm Dissection Among the most familiar invertebrate animals are the earthworms, members of the phylum Annelida. The word annelida means “ringed” and refers to a series of rings, or segments, that make up the bodies of the members of this phylum. Internally, septa, or dividing walls, are located between the segments. There may be more than 100 segments in an adult earthworm. One system of the earthworm that cannot be observed in the lab is the respiratory system. The earthworm has no gills or lungs. Gases are exchanged between the circulatory system and the environment through the moist skin. In this lab, you will dissect an earthworm in order to examine the observable external and internal structures of earthworm anatomy. OBJECTIVES Name the organs that make up various systems of the earthworm. Show the correct procedure for dissection of an earthworm. Relate the earthworm’s structures to its behavior for survival. MATERIALS • • • • • • • • • • • • • • • dissecting pins dissection tray forceps gloves hand lens lab apron paper towel preserved earthworm safety goggles scalpel scissors teasing needle twist tie water plastic storage bag Procedure 1. Put on safety goggles, gloves, and a lab apron. 2. Place a paper towel in the bottom of a dissection tray, and moisten it with water. Place an earthworm on the towel. Identify the dorsal side, which is the worm’s rounded top, and the ventral side, which is its flattened bottom. Turn the worm ventral side up, as shown in Figure 1. Copyright © by Holt, Rinehart and Winston. All rights reserved. Holt Program BioSources Title Lab Program 97 Skills Practice Chapter Labs Title Name Class Date Earthworm Dissection continued FIGURE 1 VENTRAL VIEW OF EARTHWORM Mouth Segment Setae Septum Female genital pore Sperm groove Clitellum 1 Prostomium 9 11 15 Openings of seminal receptacles Male genital pore 26 32 3. Use a hand lens as you observe all parts of the worm, externally and internally. Find the anterior end by locating the prostomium, which is a fleshy lobe that extends over the mouth. The other end of the worm’s body is the posterior end, where the anus is located. 4. Look for the worm’s setae, which are the tiny bristlelike spines located on every segment except the first and last one. 5. Review the following information about the clitellum. The clitellum is a swelling of the body found in sexually mature worms and is active in the formation of an egg capsule, or cocoon. Eggs are produced in the ovaries and pass out of the body through female genital pores. Sperm are produced in the testes and pass out through tiny male genital pores. During mating, sperm from one worm travel along the sperm grooves to the seminal receptacles of another worm. Fertilization of the eggs takes place outside the body as the cocoon moves forward over the body, picking up the eggs of one worm and the sperm of its mate. 6. Locate the clitellum, which extends from segment 33 to segment 37. Refer to Figure 1 to locate and identify the external parts of the earthworm’s reproductive system. 7. Find the pair of sperm grooves that extend from the clitellum to about segment 15, where one pair of male genital pores is located. Look also for one pair of female genital pores on segment 14. There is another pair of male genital pores on about segment 26. Try to find the two pairs of openings of the seminal receptacles on segment 10. Note: These openings are not easy to see. 8. Turn the earthworm dorsal side up. Add water to the tray so that the earthworm remains moist. Using a scalpel and scissors, make a shallow incision in the dorsal side of the clitellum at segment 33. CAUTION: Scalpels and scissors are very sharp. Report any cuts to your teacher. 9. Using the forceps and scalpel, spread the incision open, little by little. Separate each septum from the central tube by using a teasing needle, and pin down each loosened bit of skin. Continue the incision forward to segment 1. Copyright © by Holt, Rinehart and Winston. All rights reserved. Holt Program BioSources Title Lab Program 98 Skills Practice Chapter Labs Title Name Class Date Earthworm Dissection continued 10. Review the following information about the circulatory system. The pumping organs of the circulatory system are five aortic arches, sometimes called hearts. Circulatory fluids travel from the arches through the ventral blood vessel to capillary beds in the body. The fluids then collect in the dorsal blood vessel and re-enter the aortic arches. 11. Use Figure 2 to locate and identify the five pairs of aortic arches. Then find the dorsal blood vessel. Look for smaller blood vessels that branch from the dorsal blood vessel. FIGURE 2 DORSAL VIEW OF DISSECTED EARTHWORM Esophagus Crop Dorsal blood vessel Clitellum Pharynx Hearts Gizzard Intestine 12. Review the following information about the digestive tract. The earthworm takes in a mixture of soil and organic matter through its mouth, which is the beginning of the digestive tract. The mixture enters the pharynx, which is located in segments 1–6. The esophagus, in segments 6–13, acts as a passageway between the pharynx and the crop. The crop stores food temporarily. The mixture that the earthworm ingests is ground up in the gizzard. In the intestine, which extends over two-thirds of the body length, digestion and absorption take place. Soil particles and undigested organic matter pass out of the worm through the rectum and anus. 13. Locate the digestive tract, which lies below the dorsal blood vessel. Refer to Figure 2 to locate the pharynx, esophagus, crop, gizzard, and intestine. 14. Review the following information about the nervous system. The nervous system consists of the ventral nerve cord, which travels the length of the worm on the ventral side, and a series of ganglia, which are masses of tissue containing many nerve cells. The nerve collar surrounds the pharynx and consists of ganglia above and below the pharynx. Nervous impulses are responsible for movement and responses to stimuli. Each segment contains an enlargement, or ganglion, along the ventral nerve cord. Copyright © by Holt, Rinehart and Winston. All rights reserved. Holt Program BioSources Title Lab Program 99 Skills Practice Chapter Labs Title Name Class Date Earthworm Dissection continued 15. To find organs of the nervous system, gently push aside the digestive system and circulatory system organs. Use Figure 3 to locate the ventral nerve cord. Trace the nerve cord forward to the nerve collar, which circles the pharynx. Find one pair of ganglia under the pharynx and another pair of ganglia above the pharynx. The ganglia above the pharynx serve as the brain of the earthworm. FIGURE 3 EARTHWORM NERVOUS SYSTEM Nephridia Ventral nerve cord Ganglion Nerve collar Ganglion Pharynx Ventral blood vessel Esophagus Hearts Crop Gizzard Dorsal blood vessel 16. Use Figure 3 to locate some nephridia, which are found in pairs in each body segment. There are two in every segment. These tiny, white fibers on the dorsal body wall carry out excretory functions. 17. Use Figure 4 to locate and identify a pair of ovaries in segment 13. Look for two pairs of tiny testes in segments 10 and 11. To find these organs, you will again have to push aside some parts already dissected. FIGURE 4 EARTHWORM REPRODUCTIVE SYSTEMS Segment 3 4 5 6 7 8 9 10 11 12 13 14 15 Crop Pharynx Prostomium Mouth Septum Esophagus Ovary Testes Copyright © by Holt, Rinehart and Winston. All rights reserved. Holt Program BioSources Title Lab Program 100 Skills Practice Chapter Labs Title Name Class Date Earthworm Dissection continued 18. Dispose of your materials according to your teacher’s instructions. 19. Clean up your work area, and wash your hands before leaving the lab. Analysis 1. Identifying Relationships What is the name of the pumping organs of an earthworm? 2. Describing Events Trace the parts of the digestive tract through which food passes. 3. Identifying Relationships Which parts of the earthworm serve as its brain? How are these parts connected to the rest of the body? 4. Analyzing Data Which of the parts of the earthworm’s body that you saw are included in the excretory system? 5. Examining Data How can you find out whether an earthworm eats soil? Conclusions 1. Interpreting Information Among the earthworm’s structural adaptations are its setae. How do you think the earthworm’s setae make it well adapted to its habitat? 2. Drawing Conclusions How is the earthworm’s digestive system adapted for extracting relatively small amounts of food from large amounts of ingested soil? Copyright © by Holt, Rinehart and Winston. All rights reserved. Holt Program BioSources Title Lab Program 101 Skills Practice Chapter Labs Title Name Class Date Earthworm Dissection continued Extension Building Models On a separate sheet of paper, draw and label the parts of the earthworm you observed, and color code the systems. Use green for the reproductive system, yellow for the digestive system, blue for the excretory system, and red for the nervous system. Copyright © by Holt, Rinehart and Winston. All rights reserved. Holt Program BioSources Title Lab Program 102 Skills Practice Chapter Labs Title TEACHER RESOURCE PAGE Skills Practice Lab Earthworm Dissection Teacher Notes TIME REQUIRED Two 45-minute periods SKILLS ACQUIRED Identifying and recognizing patterns Inferring Interpreting Measuring Organizing and analyzing data RATINGS Teacher Prep–4 Student Setup–3 Concept Level–3 Cleanup–3 Easy 1 2 3 4 Hard THE SCIENTIFIC METHOD Make Observations Students observe the external and internal structures of earthworm anatomy. Analyze the Results Analysis questions 2–5 require students to analyze their results. Draw Conclusions Conclusions question 2 asks student to draw conclusions from their data. Form a Hypothesis Analysis question 5 and Conclusions questions 1 and 2 ask students to form a hypothesis based on their results. MATERIALS Materials for this lab can be ordered from WARD’S. Use the Lab Materials QuickList Software on the One-Stop Planner CD-ROM for catalog numbers and to create a customized list of materials for this lab. Do not use live earthworms for this lab. They cannot be humanely dissected. SAFETY CAUTIONS • Discuss all safety symbols and the caution statement with students. • Instruct students on the correct, careful handling of all dissecting instruments, especially the scalpel. Do not allow students to use razor blades. • Prolonged contact with WARDSafe, which should be used to store the specimens, may be irritating to skin and eyes and may cause allergic reaction in hypersensitive individuals. Discontinue use if redness or swelling occurs. In case of contact, flush with water, including under eyelids, for 15 minutes. Contact physician if irritation or redness persists. May be toxic if swallowed. If conscious, drink 8–10 oz (240–300 mL) water to dilute material. Induce vomiting. Get prompt medical attention. Copyright © by Holt, Rinehart and Winston. All rights reserved. Holt Program BioSources Title Lab Program 125 Skills Practice Chapter Labs Title TEACHER RESOURCE PAGE Earthworm Dissection continued • Do not use specimens preserved with formaldehyde. DISPOSAL Wrap the remains of dissected earthworms in newspaper, place them in a plastic bag, and tie the bag securely. Inform the school custodian of the bag’s contents, and hand it over personally for its safe disposal. TECHNIQUES TO DEMONSTRATE Emphasize to students that dissection is not “cutting and slicing.” Rather, it is making careful incisions to expose parts, and then using a probe to separate organs from their coverings. Point out that the intent of dissection is to carefully unwrap the animal’s structures without causing any damage. Demonstrate to students the correct techniques for dissection. Emphasize that the scalpel is sharp so that incisions can be controlled. Have students use scalpels cautiously so that internal organs are not destroyed before they can be observed. Students might have difficulty observing a dissection demonstration. Use an opaque projector or an instructional video or software if students have difficulty observing an actual dissection. If a video or software is used, allow students to refer to it as needed throughout the dissection. TIPS AND TRICKS This lab works best in group of two to four students. Between lab periods, cover each specimen pinned to the dissection tray with a paper towel dampened with water or WARDSafe. Store the specimen in a plastic bag that is tied securely. Use a felt-tip marker to write students’ names directly on the dissection trays or plastic bags. If you do not wish to have students perform this dissection, or if some students object to dissection, alternative methods of studying these structures are available. These include models, filmstrips, videotapes, and computer simulations. Allow students who have difficulty with scientific terminology to use their observations to infer the functions of the parts of the earthworm. Have students sketch each part for which they can infer a function. Check students’ sketches and the functions they identify for accuracy. You can also pair these students with students who have little difficulty with the terminology. For the Extensions item, students will find that the most prominent features are the full length of the dorsal blood vessel and the intestine, which ends with the anus. Less prominent but present are pairs of nephridia, which are found in every segment. Copyright © by Holt, Rinehart and Winston. All rights reserved. Holt Program BioSources Title Lab Program 126 Skills Practice Chapter Labs Title TEACHER RESOURCE PAGE Name Class Date Skills Practice Lab Earthworm Dissection Among the most familiar invertebrate animals are the earthworms, members of the phylum Annelida. The word annelida means “ringed” and refers to a series of rings, or segments, that make up the bodies of the members of this phylum. Internally, septa, or dividing walls, are located between the segments. There may be more than 100 segments in an adult earthworm. One system of the earthworm that cannot be observed in the lab is the respiratory system. The earthworm has no gills or lungs. Gases are exchanged between the circulatory system and the environment through the moist skin. In this lab, you will dissect an earthworm in order to examine the observable external and internal structures of earthworm anatomy. OBJECTIVES Name the organs that make up various systems of the earthworm. Show the correct procedure for dissection of an earthworm. Relate the earthworm’s structures to its behavior for survival. MATERIALS • • • • • • • • dissecting pins dissection tray forceps gloves hand lens lab apron paper towel • • • • • • • preserved earthworm safety goggles scalpel scissors teasing needle twist tie water plastic storage bag Procedure 1. Put on safety goggles, gloves, and a lab apron. 2. Place a paper towel in the bottom of a dissection tray, and moisten it with water. Place an earthworm on the towel. Identify the dorsal side, which is the worm’s rounded top, and the ventral side, which is its flattened bottom. Turn the worm ventral side up, as shown in Figure 1. Copyright © by Holt, Rinehart and Winston. All rights reserved. Holt Program BioSources Title Lab Program 127 Skills Practice Chapter Labs Title TEACHER RESOURCE PAGE Name Class Date Earthworm Dissection continued FIGURE 1 VENTRAL VIEW OF EARTHWORM Mouth Segment Setae Septum Female genital pore Sperm groove Clitellum 1 Prostomium 9 11 15 Openings of seminal receptacles Male genital pore 26 32 3. Use a hand lens as you observe all parts of the worm, externally and internally. Find the anterior end by locating the prostomium, which is a fleshy lobe that extends over the mouth. The other end of the worm’s body is the posterior end, where the anus is located. 4. Look for the worm’s setae, which are the tiny bristlelike spines located on every segment except the first and last one. 5. Review the following information about the clitellum. The clitellum is a swelling of the body found in sexually mature worms and is active in the formation of an egg capsule, or cocoon. Eggs are produced in the ovaries and pass out of the body through female genital pores. Sperm are produced in the testes and pass out through tiny male genital pores. During mating, sperm from one worm travel along the sperm grooves to the seminal receptacles of another worm. Fertilization of the eggs takes place outside the body as the cocoon moves forward over the body, picking up the eggs of one worm and the sperm of its mate. 6. Locate the clitellum, which extends from segment 33 to segment 37. Refer to Figure 1 to locate and identify the external parts of the earthworm’s reproductive system. 7. Find the pair of sperm grooves that extend from the clitellum to about segment 15, where one pair of male genital pores is located. Look also for one pair of female genital pores on segment 14. There is another pair of male genital pores on about segment 26. Try to find the two pairs of openings of the seminal receptacles on segment 10. Note: These openings are not easy to see. 8. Turn the earthworm dorsal side up. Add water to the tray so that the earthworm remains moist. Using a scalpel and scissors, make a shallow incision in the dorsal side of the clitellum at segment 33. CAUTION: Scalpels and scissors are very sharp. Report any cuts to your teacher. 9. Using the forceps and scalpel, spread the incision open, little by little. Separate each septum from the central tube by using a teasing needle, and pin down each loosened bit of skin. Continue the incision forward to segment 1. Copyright © by Holt, Rinehart and Winston. All rights reserved. Holt Program BioSources Title Lab Program 128 Skills Practice Chapter Labs Title TEACHER RESOURCE PAGE Name Class Date Earthworm Dissection continued 10. Review the following information about the circulatory system. The pumping organs of the circulatory system are five aortic arches, sometimes called hearts. Circulatory fluids travel from the arches through the ventral blood vessel to capillary beds in the body. The fluids then collect in the dorsal blood vessel and re-enter the aortic arches. 11. Use Figure 2 to locate and identify the five pairs of aortic arches. Then find the dorsal blood vessel. Look for smaller blood vessels that branch from the dorsal blood vessel. FIGURE 2 DORSAL VIEW OF DISSECTED EARTHWORM Esophagus Crop Dorsal blood vessel Clitellum Pharynx Hearts Gizzard Intestine 12. Review the following information about the digestive tract. The earthworm takes in a mixture of soil and organic matter through its mouth, which is the beginning of the digestive tract. The mixture enters the pharynx, which is located in segments 1–6. The esophagus, in segments 6–13, acts as a passageway between the pharynx and the crop. The crop stores food temporarily. The mixture that the earthworm ingests is ground up in the gizzard. In the intestine, which extends over two-thirds of the body length, digestion and absorption take place. Soil particles and undigested organic matter pass out of the worm through the rectum and anus. 13. Locate the digestive tract, which lies below the dorsal blood vessel. Refer to Figure 2 to locate the pharynx, esophagus, crop, gizzard, and intestine. 14. Review the following information about the nervous system. The nervous system consists of the ventral nerve cord, which travels the length of the worm on the ventral side, and a series of ganglia, which are masses of tissue containing many nerve cells. The nerve collar surrounds the pharynx and consists of ganglia above and below the pharynx. Nervous impulses are responsible for movement and responses to stimuli. Each segment contains an enlargement, or ganglion, along the ventral nerve cord. Copyright © by Holt, Rinehart and Winston. All rights reserved. Holt Program BioSources Title Lab Program 129 Skills Practice Chapter Labs Title TEACHER RESOURCE PAGE Name Class Date Earthworm Dissection continued 15. To find organs of the nervous system, gently push aside the digestive system and circulatory system organs. Use Figure 3 to locate the ventral nerve cord. Trace the nerve cord forward to the nerve collar, which circles the pharynx. Find one pair of ganglia under the pharynx and another pair of ganglia above the pharynx. The ganglia above the pharynx serve as the brain of the earthworm. FIGURE 3 EARTHWORM NERVOUS SYSTEM Nephridia Ventral nerve cord Ganglion Nerve collar Ganglion Pharynx Ventral blood vessel Esophagus Hearts Crop Gizzard Dorsal blood vessel 16. Use Figure 3 to locate some nephridia, which are found in pairs in each body segment. There are two in every segment. These tiny, white fibers on the dorsal body wall carry out excretory functions. 17. Use Figure 4 to locate and identify a pair of ovaries in segment 13. Look for two pairs of tiny testes in segments 10 and 11. To find these organs, you will again have to push aside some parts already dissected. FIGURE 4 EARTHWORM REPRODUCTIVE SYSTEMS Segment 3 4 5 6 7 8 9 10 11 12 13 14 15 Crop Pharynx Prostomium Mouth Septum Esophagus Ovary Testes Copyright © by Holt, Rinehart and Winston. All rights reserved. Holt Program BioSources Title Lab Program 130 Skills Practice Chapter Labs Title TEACHER RESOURCE PAGE Name Class Date Earthworm Dissection continued 18. Dispose of your materials according to your teacher’s instructions. 19. Clean up your work area, and wash your hands before leaving the lab. Analysis 1. Identifying Relationships What is the name of the pumping organs of an earthworm? The pumping organs are called aortic arches. 2. Describing Events Trace the parts of the digestive tract through which food passes. Food passes from the mouth to the pharynx, esophagus, crop, gizzard, intestine, and then wastes leave through the anus. 3. Identifying Relationships Which parts of the earthworm serve as its brain? How are these parts connected to the rest of the body? The ganglia above the pharynx serve as the earthworm’s brain. They are connected to the rest of the body by way of the ventral nerve cord. 4. Analyzing Data Which of the parts of the earthworm’s body that you saw are included in the excretory system? The nephridia are included in the excretory system. 5. Examining Data How can you find out whether an earthworm eats soil? Cut into the intestine and expose the contents. Conclusions 1. Interpreting Information Among the earthworm’s structural adaptations are its setae. How do you think the earthworm’s setae make it well adapted to its habitat? The earthworm uses its setae to anchor itself in the soil during locomotion. 2. Drawing Conclusions How is the earthworm’s digestive system adapted for extracting relatively small amounts of food from large amounts of ingested soil? Digested food is absorbed in the intestine, which extends over two-thirds of the body length, thus affording a large surface area for absorption. Copyright © by Holt, Rinehart and Winston. All rights reserved. Holt Program BioSources Title Lab Program 131 Skills Practice Chapter Labs Title TEACHER RESOURCE PAGE Name Class Date Earthworm Dissection continued Extension Building Models On a separate sheet of paper, draw and label the parts of the earthworm you observed, and color code the systems. Use green for the reproductive system, yellow for the digestive system, blue for the excretory system, and red for the nervous system. Copyright © by Holt, Rinehart and Winston. All rights reserved. Holt Program BioSources Title Lab Program 132 Skills Practice Chapter Labs Title