Dissection - How to Make the Most of It!
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A Note on Dissection in Biology and a Note on Supplies Required Return to Mr. Lazaroff's Biology DISSECTION I require all my students to be present and participate during dissection labs. This does not, however, mean that every student must physically dissect the specimens. I allow all of my students to choose their own dissection partners, as long as at least one of you is willing to do the physical dissection work. In doing it this way, I have found that it not only respects each student's comfort level, but that it also allows students who are uncomfortable to observe, diagram, and, above all, learn, all the while near a trusted student! NOTE: Students work in pairs; if there is an odd number of students (not to be confused with a number of odd students . . .), then there will be one group of three. I love animals, and I have two pets at home (one dog and one cat), and I got my start through studying animal behavior at the San Francisco Zoo. I find that my appreciation of, and respect for the animals, increases every year, as a result of the dissections. Your animals may get sick one day, and you will need to take them to the Vet. Veterinarians, who clearly love animals, must learn all about their patients, and dissection is a crucial aspect of their learning. Even if you don't have pets, you or someone you love will need to see a doctor someday, and an understanding of your body, which is in many ways very similar to the animals we dissect (Earthworm, Crayfish, & Frog), will be crucial to you. Students who dissect are more likely to understand their bodies, and will thus be better prepared when future medical issues arise. I want my classroom to be a place in which people feel comfortable, a place where people feel safe to return the next day. Given that some students are uncomfortable with dissection, it is mandatory that we show some respect toward our animal specimens. As such, anyone who purposefully mangles a specimen will fail that dissection . This also holds true for anyone who uses tools unsafely, or, in any way, contributes to another student's discomfort. In the past, I have never had to fail a student for breaking these rules, and I you are going to help me maintain that winning streak. Student have always learned a tremendous amount from the experience, and they have had a lot of fun as well. Remember, students who are uncomfortable may need more time to get used to the activity; let's all give each other the respect we all deserve! SUPPLIES FOR DISSECTION REQUIRED: (A) One Pair of Kitchen Gloves for dissection. The thicker rubber and the longer size is better protection for your hands and wrists. Write your name on each glove with a permanent marker. (B) One "Ziploc" or similar style plastic bag (for holding the gloves). Write your name on the bag with a permanent marker. (C) A pencil to leave in the classroom, to be used ONLY for dissection diagrams and notes! (That way you won't absent-mindedly put that pencil in your mouth outside of class!) (D) Your decision as to whom is in your group! OPTIONAL: (A) A small bottle of hand lotion. By applying hand lotion prior to dissection, you will be less likely to have any of the odors attach themselves to your hands. Fear not; we will, of course, wash our hands prior to leaving the classroom. The lotion, however, adds an extra barrier for your hands (i.e., hands . . . lotion . . . glove . . . specimen). (B) An old shirt. We will have aprons for you to use, but this, once again, is an extra layer of protection. http://shs.westport.k12.ct.us/mjvl/biology/dissect/dissection.htm Earthworm (Oithwoim?) Dissection Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com Return to Mr. Lazaroff's Biology Earthworm Crayfish Frog Final Lab Report It costs me never a stab nor squirm to tread by chance upon a worm. "Aha, my little dear," I say, "Your clan will pay me back one day." - from Thought for a Sunshiny Morning by Dorothy Parker Images purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com Virtual Earthworm Dissection Image borrowed from the Virtual Dissection website above By Day: Day 1 Day 2 By Topic/Region: External Anatomy Internal Anatomy Skeletal Lymphatic Integumentary Cardiovascular Muscular Endocrine Nervous Reproductive Respiratory Excretory Digestive S L I C M E N R R E D (SLIC Woims R RED?) NOTE: The Systems in Italics above have their functions taken up by other systems. You must create a series of labeled drawings that ilustrate the structures outlined below: Materials: 1. 2. 3. 4. 5. 6. 7. Safety Goggles Apron A pair of medium thickness rubber Kitchen gloves (with your name on each), as per the Class Rules A Ziploc-style bag (with your name on it) in which to keep your gloves, as per the Class Rules A PENCIL (keep this in your Ziploc-style bag aboce, due to the chemicals) An old small towel, as per the Class Rules OPTIONAL An old long-sleeve shirt (for use under our lab aprons), as per the Class Rules 8. Tool Tray with: (a) Forceps (your second-most valuable tool) (b) Pointed Scissors (use with care, or you might damage your specimen) (c) Rounded Scissors (use with the rounded end down) (d) Scalpal (to be used very sparingly) (e) Blunt Probe (your most valuable tool) (f) Pins (use only a few) (g) Bone Cutters (used the least, and only on the frog) 9. Dissection Tray 10. Plastic Dissection Tray Cover 11. Masking Tape & Pen (for labeling the tray cover) 12. Pencil & Paper (for making your diagrams) - NOTE: Pen will NOT be accepted! 13. Have I forgotten something . . . Oh, yes . . . an EARTHWORM! Day 1 Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com External Anatomy 1. Place the specimen prone (ventral surface down, dorsal surface upon the dissecting tray. (To what phylum does it belong? What is your evidence for that?) 2. Note the difference in coloration. Why is the dorsal surface of the skin darker? 3. Find the anterior and posterior ends and the clittellum (the wider portion, which is closer to the anterior surface). 4. Count the number of segments. (How many are there in front of the clittelum? In the clitellum? Behind the clitellum?) 5. Using the Dissecting Microscope, place the tray on the stage, and draw: (a) the mouth (What do they eat? What does the soft texture of the mouth say about their diet?) (b) the anus (What type of digestive system does it have, One-Way, or Two-Way?) (c) the setae, which are the dark projections on each section (How many setae are there on each section? What purpose do the setae serve?) (d) the sperm duct opening (Which segment is it on?) (e) the oviduct opening (Which segment is it on? Given the existence of both, what type of creature is it? Given the location of both, is the creature likely to self-fertilize? What type of fertilization does it practice, internal or external?) 6. CLEAN-UP CLEAN-UP CLEAN-UP CLEAN-UP CLEAN-UP CLEAN-UP 7. Wipe off the dissecting microscope stage with a slightly moist paper towel (if necessary) and dry it thoroughly. 8. Cover your entire specimen with a wet (not just moist) paper towel. 9. Using masking tape and a pen, write your name and your partner's name on one of the plastic specimen tray lids. 10. Place the lid snugly on the tray and place the trays neatly on the middle table in the back of the room. 11. Rinse off the tools and dry them thoroughly before returning them to the Image purchased by Mr. Lazaroff, by subscription, from tool tray. http://www.clipart.com NOTE: This clean up technique will be the same for all dissection days except the last day for each specimen, described below. Day 2 Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com Internal Anatomy 1. Place the specimen prone (ventral surface down, dorsal surface up)on the dissecting tray. 2. Using a scalpal, make a shallow medial incision only 1 cm long on the dorsal surface 1/3 of the way from the posterior end. 3. Given that scalpals cut downward, and scissors can be lifted to cut upwards, you will use scissors to cut all the way toward the anterior end. TAKE CARE NOT TO CUT INTO THE INTESTINE. (What do earthworms eat? Given that, what color would you expect the contents of the intestine to be?) o 4. Using dissection pins placed at a 45 angle from the tray, pin back the skin of the earthworm along the anterior third of the specimen. (To what body system does the skin belong? Given the earthworm's form of locomotion, what else are you pinnning back, and to what body system do they belong? Lastly, this system takes up the function of what other system?) NOTE: All subsequent diagrams need to use the dissecting microscope. 5. Identify and diagram the Nephridia (singular = Nephridium). (What is their function? What is the equivalent organ in humans, and to what body system does it belong? Is the fact that they are in pairs in the worm at all retained in our body?) Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com 6. Identify and diagram the Pharynx & Esophagus. (What is the one function of the two organs? How is their function similar in humans, and how is it different?) Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com 7. Identify and diagram the Gizzard & Crop. (Which of the two is harder? What does that say about its function?) 8. Identify and diagram the Doesal Blood Vessel and the 5 Aortic Arches. (What role do the arches play in the worm? What is the equivalent organ - be careful here - in humans, and to what body system does it belong? Why do humans have less than five?) Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com 9. Given that the earthworm's skin must be kept moist, and what organs that appear in humans appear to be missing in the earthworm, what body system's function is taken up here by the skin? 10. Identify and diagram the Seminal Vessicles and the Seminal Receptacles. (What is the function of each? What are the equivalent organs in humans, and to what body system do they belong?) Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com 11. Identify and diagram the Suprapharyngeal Ganglia. (What is its function? What is the equivalent organ in humans, and to what body system dos it belong? Has the bilateral appearance been retained in humans? If so or if not, what is it about the human organ that supports your statement? You will need to refer to specific structures in your answer Images purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com 12. Remove the intestine from the point where you started your incision. (It might help to gently cut the intestine at one end with the scalpal; be careful not to cut all the way through the worm.) On either the underside of the intestine, or on the bottom of the worm - depending on how gently you lifred up the intestine, you will find the Ventral Nerve Cord. Diagram it. (What is - be specific as to direction - its function? What is the equivalent organ in humans, and to what body system dos it belong? What aspect of this organ differentiates the earthworm from members of our phylum?) Note the two layers of muscle, Circular and Longitudinal, that make up the wall of the organism. It is the alternating contraction of these two layers that make it possible for the earthworm to propel itself through the soil. As these two layers pull against each other (i.e., acting as an anchor for the opposing contraction), what other body system's function is taken up my the muscles here? Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com 13. 14. 15. 16. CLEAN-UP CLEAN-UP CLEAN-UP CLEAN-UP CLEAN-UP CLEAN-UP Wipe off the dissecting microscope stage with a slightly moist paper towel (if necessary) and dry it thoroughly. Dispose of the worm, and any worm parts in the one trash can specified by the teacher. Rinse off the tools and dry them thoroughly before returning them to the tool tray. Rinse off the lid and and the tray and stack them as seen in the picture below. o Note: the trays need to be placed upside down at 90 angles to each other, with one edge of the bottom tray over the edge of the sink to allow all of the trays to air-dry! Image by Mr. Lazaroff NOTE: This clean up technique will be the same on the last day for each specimen. At the end of each regular dissection day prior to the last day for that specimen, you will be using the clean up technique described above. Clean up: Normal Day Clean Up Technique Last Day Clean Up Technique Drawings: 1. Use a PENCIL!! NOTE: Pen will NOT be accepted! 2. Make the drawings "larger than life" size, as the specimens are so small. 3. Draw the general shape (outline) and location of the organs, as the squiggles so many of you use to "shade" your drawings make your drawings sloppy and hard to interpret. 4. Include Labels on all drawings. Labels should start outside the drawing, and be connected to the structure by arrows with tips (===>). The Tip of the arow should be touching the structure. Be sure to include the magnification for any drawings done with the dissecting microscope. Hang on to the drawings; they will all be handed in later, together with some questions to answer. Day 2 Top Return to Mr. Lazaroff's Biology Day 1 Crayfish Dissection Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com Return to Mr. Lazaroff's Biology Earthworm Crayfish Frog Final Lab Report . . the term 'roaches of the sea' reflects the behavior of lobsters as omnivorous scavengers. Cockroaches will eat almost anything organic and so will lobsters . . . . . . So much for the delicious taste of lobster? - Taken from the Biology Department at the University of Massachusetts Amherst http://www.bio.umass.edu /biology/kunkel /cockroach_faq.html#Q11 Image at right purchased by Mr. Lazaroff, by subscription, from http://www.clipart.co Virtual Crayfish Dissection - Cornell Virtual Crayfish Dissection - Penn State Just for Fun . . . visit The Crayfish Corner Images borrowed from the virtual dissection websites above By Day: Day 1 Day 2 Day 3 By Topic/Region: External Anatomy Internal Anatomy\ Skeletal Lymphatic Integumentary Cardiovascular Muscular Endocrine Nervous Reproductive Respiratory Excretory Digestive S L I C M E N R R E D (SLIC Crayfish R RED?) NOTE: The System in Italics above have their functions taken up by other systems. Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com You must create a series of labeled drawings that ilustrate the structures outlined below: Day 1 I. Abdomen - Ventral View (Day 1) top Place the crayfish supine (ventral surface up) on the dissecting tray and DRAW the following: 1. Telson (What is the telson's function?) 2. Uropod (Describe the location of the uropods to the telson. How do the add to the telson's function?) 3. Anus (In which of the two structures above did you find the anus? 1 or 2 way digestive system?) 4. Swimmerets -numbered in pairs, 1-5 w/ the 5th one the most posterior (What is their function, and how is it different from the telson's function?) 5. Is your Crayfish a male or a female (Note the anterior-most swimmeret. In the male, its function is to guide the sperm toward the female during copulation; as such, it will be enlarged, and pointed anteriorly in the male. In the female there is no difference between the swimmerets)? (Describe the appearance of the crayfish's swimmerets in your answer.) 6. Walking Legs (How many are there? In terms of this feature alone, is this organism closer to an insect, or an arachnid?) 7. Chelipeds - some people like this meat the best . . . (What is their function?) Images purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com II. Head - Ventral View (Day 1-2) top 1. Mandibles - 2 - hard & white (What are they equivalent to in humans? How is their action - think direction of movement different from that of humans?) 2. Maxilla - softer w/ jagged edges (Given the difference in texture, how is their function different from that of the mandibles?) 3. Maxillapeds, or "mouth-feet" -3 pairs (What is their function? Why not use the Chelipeds?) 4. Green Gland Ducts - (From what organ do they open out? What is the equivalent organ in humans? What is the purpose of the duct? Is its location at all disturbing to you?) Images purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com II. Cephalothorax - Dorsal View (Day 1-2) top 1. Rostrum (What is cephalization? Given that, what organ would you expect to be inside the rostrum?) 2. Eyes (Does this organism have binocular vision - depth perception, why or why not?) Eye Images purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com 3. Carapace (What is the function of the carapace? What two body systems in humans perform equivalent funtions? The support function is in reference to one system in particular; given the external loaction of the carapace, explain the name of the type of system compared to our own, internal variety. The support function implies specifically the attachment of organs of what body system to the inside of the carapace? Day 2 Make a Dorsal Midline Incision from the posterior end of the thorax to the posterior end of the rostrum using the rounded scissors w/ the rounded end down! Open the carapace and pin it back. Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com III. Thorax - Dorsal View, Part I (Day 2) top 1. Heart & Ostia - the opening on the heart's superior surface (Is this a sign of an open or closed circulatory system? Differentiate between the two in your answer.) 2. Gills (What are they equivalent to in humans? To what body system do they belong? Why are the gills so feathery - i.e., how does this aid in their function?) 3. Cardiac Stomach -draw whole (There appear to be fibers attached to the outside of the stomach. What is their purpose in relation to the stomach and the esophagus?) IV. Thorax - Dorsal View, Part II (Day 2) top 1. Remove one gill and draw on high power (What is the red/pink material within each "finger" of each gill? How does this material relate to the function of the gill?) Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com 2. GENTLY remove one walking leg, and you will see that a gill is attached to each walking leg. (How is this important to the function of the gills? In your answer refer to the different requirements of the body during times of high physical activity, and how they are related to the gill-walking leg connection.) 3. Cut open the Cardiac Stomach and draw the Gastric Mill - reddish-browb lateral "teeth" - on high power (What is their function? What type of digestion involves the gastric mill? Do we accomplish that type of digestion in our own stomach?) Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com Day 3 V. Thorax - Dorsal View, Part III (Day 3) top Gently remove the Heart. 1. The Intestine (Given its location posterior to the stomach, what is its function? What function of the stomach is lacking in the intestine?) 2. The Hepatopancreas Gland (What two organs is this equivalent to in humans? What are some of the functions of this gland? How is its location important to its function?) 3. The Seminifierous Tubules or Ovaries (What is the function of each? To what body system do these belong? Which of the two does your spceimen contain? How is this related to the swimmerets?) Images purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com VI. Thorax - Dorsal View, Part IV (Day 3) top Gently remove the Cardiac Stomach. 1. Esophagus (Describe how it's position relative to the stomach is different from the worm and the human.) 2. Green Gland (What is/are the equivalent organ(s) in humans? Do/does the analagous organ(s) appear in pairs in humans? To what body system do the green glands belong? What organ in our equivalent body system is missing in the crayfish?) 3. Brain (Describe the appearance of the brain and the nerves in terms of the type of symmetry. There are nerves that are attached to the front and the back of the brain. Describe the function of both the anterior and the posterior nerve pairs.) VII. Abdomen - Dorsal View, Part I (Day 3) top Make a Dorsal Midline Incision from the anterior end of the abdomen to the posterior end of the abndomen using the rounded scissors w/ the rounded end down! Open the exoskeleton and pin it back. In order for a Crayfish to determine BALANCE, it must insert a grain of sand in one of it's appendages. Every time it molts and makes a new exoskeleton, it must get a new grain of sand! (In what part of the body is that function taken up by the human body?) Images purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com 1. Dorsal Blood Vessel (Is this vessel sending the blood to, or away from, the heart? What name would we give to that type of vessel in our body?) 2. Large Intestine (How is the location of this organ related to the name of this section of the body [it is NOT a tail]? What is the function of the large intestine? Given it's contents, is it wise, or unwise, to eat it when eating a lobster? Explain.) 3. Abdominal Flexor Muscles (How do muscles function, by shortening, lengthening, of both? Moving the abdominal flexor muscles will cause flexion, but what is flexion? How will the abdomen - it is NOT a tail - change shape during flexion? What direction will the crayfish move during flexion? Given the size and strength of the muscle, during what circumstances would the crayfish use this muscle over its walking legs?) VIII. Abdomen - Dorsal View, Part II (Day 3) top Gently remove the Abdominal Flexor Muscles. Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com 1. Ventral Blood Vessels (Given that there is no main ventral blood vessel, how does the blood return to the heart? Is this a sign of an open or closed circulatory system?) 2. Ventral Nerve Cord (To what phylum does the crayfish belong? How is the location of the nerve cord different from creatures in our own phylum? Name our own nerve cord. How is the protection of the nerve cord different in both phyla?) Drawings: 1. Use a PENCIL!! 2. Make the drawings "larger than life" size, as the specimens are so small. 3. Draw the general shape (outline) and location of the organs, as the squiggles so many of you use to "shade" your drawings make your drawings sloppy and hard to interpret. 4. Include Labels on all drawings. Labels should start outside the drawing, and be connected to the structure by arrows with tips (===>). The Tip of the arow should be touching the structure. Be sure to include the magnification for any drawings done with the dissecting microscope. Hang on to the drawings; they will all be handed in later, together with some questions to answer. Images purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com Day 1 Day 2 Day 3 top Return to Mr. Lazaroff's Biology Bullfrog Dissection Click Here to hear HOW MUCH IS THAT FROGGY IN THE WINDOW! Return to Mr. Lazaroff's Biology Earthworm Crayfish Frog Final Lab Report Click on the picture to hear me sing! (from the WB Website) Try These Online Frog Dissection Links: The Virtual The ONLINE Frog Dissection Frog Dissection: Kit: The Interactive Frog Dissection (2002): http://www-itg.lbl.gov /vfrog/ http://www.aa.psu.edu/ biology/frog/ See a MOVIE from the site above! http://curry.edschool.virginia. edu/go/frog/Frog2/ Cornell University's Frog Dissection Froguts.com The Interactive Frog Dissection (1994): DEMO only (Click the DEMO Link) http://www.froguts.com/ http://biog-101-104.bio. http://curry.edschool.Virginia. cornell.edu/Biog101_104 EDU/go/frog/menu.html /tutorials/frog.html BY DAY: Day 1 Day 2 Day 3 Day 4 Day 5 Day 6 BY TOPIC: External Anatomy Skin Removal Inside the Mouth Skeletal Lymphatic Integumentary Cardiovascular Muscular Endocrine Nervous Reproductive Respiratory Excretory Digestive SLIC MEN R RED (SLIC Frogs R RED?)\ You must create a series of labeled drawings that illustrate the structures outlined below: Day 1 top I. Head - Dorsal View (Day 1) top Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com 1. Eyes (What does their angle imply about depth perception? What can you say about the frog's niche by looking at its eyes?) More about the eyes. 2. Tympanum (What does the lack of pinna imply about hearing? What is the scientific term for the ear drum? Does the name "ear drum" make you think of the Grinch?) 3. External Nares (Which implies the existence of . . .? What is their function? The tube - between the external and __ nares - in mammals is much longer; what is accomplished in this longer tube? What is required on the inner surface of the tube to accomplish this?) Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com II. Body - Dorsal View (Day 1) top Skeletal System top SLIC MEN R RED 1. "Ribs" - it is not a ribcage! (What organs are within, and protected by, our ribcage?) NOTE: In reality, there are no ribs; these are merely the transverse processes of the vertebrae. Our ribs attach to the transverse process, and 7 of the 12 also attach directly to the sternum ["true" ribs], the next three attach indirectly ["false" ribs], and the last two do not attach to the sternum at all [also "false" ribs, but specifically "floating" ribs]. 2. Pelvis - note the width and height up the back (The shape is very different from ours. Comparing the shape of our species and theirs, explain how certain body characteristics - name them as well - account for this pelvic difference?) Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com 3. "Hand" (How many fingers? Looking at their arrangement, are the hands capable of much of a grip, or of detailed movement?) 4. Is your specimen a FEMALE or a MALE? Believe it or not, it is easier to tell by looking at the hands (See below)! Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com 5. Foot (How many toes? How are they different from the fingers? Which has more webbing, the hand or the foot? What does this say about their locomotion?) 6. Legs (What does their length and width imply about their use? In your answer, also make reference to the arms for comparisons sake.) By the way . . . . . . need a hand? Or a foot? Images purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com Click on the Skeleton to Enlarge and Print . . . (from the Virtual Frog Dissection Kit: http://www-itg.lbl.gov/vfrog/) III. Skin Removal - Ventral View (Day 1 & 2) top Integumentary System top SLIC MEN R RED Make a Ventral Midline Incision from the posterior end of the Abdomen to the Anterior end of the Thoracic Region using the rounded scissors with the rounded end down! Continue a Medial Incision, as above, along the Ventral surface of each limb as far as the wrists and ankles. Using the forceps to lift the Skin, take a scalpal and gently cut the fascia with the blade parallel to the muscle beneath. Remove the skin so as to leave the frog with a "hood," "gloves," and "socks." [sic] It should be possible to remove the skin "in one piece!" Pay Close Attention to the places on the body where the underside of the skin is much more firmly attached. Pay Close Attention to the Blood Vessels on the underside of the skin. DIAGRAM THE PATTERN OF THE BLOOD VESSELS, AND THE CONNECTION THROUGH THE MUSCLE TO THE SKIN! Day 2 top III. Skin Removal Continued- Ventral View (Day 2) top Continue as above . . . We will conclude this today so as to view the muscles beneath . . . Draw the following: 1. The pattern of blood vessels on the underside of the frog's skin. (What does this say about the nature of the skin? What function does the frog's skin have that ours lacks? How does that function impact upon the frog's choice of habitat? What is it about our skin, and our body as a whole, that makes it impossible for us to have the same skin function?) 2. The pattern of coloration on the dorsal surface of the skin. (What does this say about one of the functions of the skin? How, and why, is the coloration different on the ventral surface?) 3. The way the blood vessels, nerves, and lymphatics connect to the skin (i.e. passing through the muscle to get to the skin). (What are the nerves for? What are the lymphatics for?) 4. (Why was the skin so much more firmly attached, stronger connective tissue, in some areas - e.g., the elbows, knees, and hips? Think in terms or repetitive motion, and what would happen if the skin were not attached strongly in those places.) Day 3 top Muscular System top Ventral Dorsal Arm Leg . . . be able to describe how the body's position changes whenever the muscle contracts . . . SLIC MEN R RED IV. Muscles - Ventral View, Part I (Day 3) muscles top 1. Pectoralis (To what bones does it attach? Specifically, how does it move the body?) 2. Deltoid (To what bones does it attach? Specifically, how does it move the body?) 3. Rectus abdominus (To what bones does it attach? Specifically, how does it move the body?) 4. External oblique (To what bones does it attach? Specifically, how does it move the body?) 5. Submaxillary (To what bones does it attach? Specifically, how does it move the body?) V. Muscles - Dorsal View, Part I (Day 3) muscles top 1. Depressor mandibulae (To what bones does it attach? Specifically, how does it move the body?) 2. Deltoid (To what bones does it attach? Specifically, how does it move the body?) 3. Latissimus dorsi (To what bones does it attach? Specifically, how does it move the body?) 4. External oblique (To what bones does it attach? Specifically, how does it move the body?) 5. Common extensors of the back (Why aren't there any flexors along the spine?) (To what bones does it attach? Specifically, how does it move the body?) 6. Gluteus (Yes . . . it's what you think it is . . . and why is it so small in comparison to us . . . it's related to the muscle's function . . .?) (To what bones does it attach? Specifically, how does it move the body?) VI. Muscles - Arm (Day 3) muscles top 1. Common flexors (ventral) (To what bones does it attach? Specifically, how does it move the body?) 2. Common extensors (dorsal) (To what bones does it attach? Specifically, how does it move the body?) 3. Triceps brachii (dorsal) (To what bones does it attach? Specifically, how does it move the body?) VII. Muscles - Leg . . . to go! (Day 3) muscles top 1. Triceps femoris [. . . Quadriceps in humans . . .] (To what bones does it attach? Specifically, how does it move the body?) 2. Sartorius (ventral) (To what bones does it attach? Specifically, how does it move the body?) 3. Gracilis Major (ventral) (To what bones does it attach? Specifically, how does it move the body?) 4. Semimembranosus (dorsal) (To what bones does it attach? Specifically, how does it move the body?) 5. Gracilis Minor (dorsal) (To what bones does it attach? Specifically, how does it move the body?) 6. Biceps femoris (dorsal) (To what bones does it attach? Specifically, how does it move the body?) 7. Tibialis Anterior (To what bones does it attach? Specifically, how does it move the body?) 8. Gastrocnemius (To what bones does it attach? Specifically, how does it move the body?) 9. Peroneus (dorsal) (To what bones does it attach? Specifically, how does it move the body?) 10. Achilles Tendon (Not a muscle, of course) (To what bones does it attach? Specifically, how does it move the body?) Day 4 top VIII. Abdomen - Vental View, Part I (Day 3) top You will be making a Classic "I" Incision. 1. Make a Ventral Midline Incision through the abdominal muscles from the posterior end of the Abdomen to the Anterior end of the Thoracic Region using the rounded scissors with the rounded end down! 2. Continue with a Lateral Ventral Incision through the abdominal muscles from "armpit to armpit," and along the base of abdomen from "hip to hip." [sic] Using the forceps, open the abdomen by lifting the muscle flaps and pinning them against the dissection tray. The muscle flaps will thus appear as 2 "barn doors." Make a diagram of the abdomen as you see it. Be sure to label (indicate also what system each organ belongs to)and locate the following: 1. Heart (The liver is right below the heart in your frog. In our bodies, what is between the heart and the liver? To what body system does this division provide the most help? What function does this division perform? Given the lack of this division in the frog, what part of the frog's body performs this same function?) 2. Lungs (Why are they so much smaller, proportionately, than ours? Given the lack of a ribcage, how are the lungs protected - i.e., by what bones - in the frog?) Images purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com 3. Liver (How many lobes does it have? Explain why it is so big by referring to its functions.) 4. Stomach (What organ empties into the stomach? Into what organ does the stomach empty?) 5. Small Intestine (This implies the existence of ___? What is the first part of the small intestine called? What one basic function, among all of the digestive organs, is found only in the small intestine?) 6. Fat Bodies (What is their function? To what area, and to what type of tissue, are they attached? Given that humans don't have them, where do we put most of our fat?) 7. Any other organs you see (all of which will be discussed later) . . . IX. Abdomen - Vental View, Part II (Day 3 & 4) top Digestive System top SLIC MEN R RED Images purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com Liver - Draw the following: 1. Gall bladder (Why is the organ hollow? What, and don't say gall, does it contain? What is the function of that substance?) 2. Cystic duct (What two organs does it connect? What material transports along the tube? What type of organ is it, endocrine or exocrine? Be sure to define the two terms in your answer.) 3. Common bile duct (What three organs does it connect? Which of the three organs is the final organ - and hence the location of the substance's action - for the substance above?) Stomach 1. Make a Medial Incision along the stomach (DO NOT SEPARATE THE STOMACH FROM THE BODY!) and open it to view the inside. 2. Is your specimen "Packing a Lunch?" If so, can you identify it's "last meal?" Given the contents, what can you say about the animal's niche? Does this agree with or contradict what you said about the eyes? How does your answer relate to food webs?) 3. Diagram the Rugae - folds (What is the purpose of the rugae? To best answer this question, compare the stomach of a "full" vs. a "hungry" frog. Compare also the thickness of the walls in the full and empty stomach. What are the functions of the stomach? Given that, what type of tissue is in the stomach walls.) Small Intestine 1. Find the connective tissue between the loops of the small intestine - the Intestinal Mesentery (What is the function of the mesentery?) 2. Diagram the various structures within the mesentery (Blood vessels, lymphatics, and nerves: describe the function of each in terms of the small intestine - and relate it to the function of the small intestine!) Find my favorite organ . . . can you guess it? . . . the pancreas. Find also the pancreatic duct (a tube connecting the pancreas to the small intestine). (How is this tube related to one of the functions of the pancreas? What other function of the pancreas makes that organ my favorite organ? What other system does the pancreas connect two in fulfilling this latter function?) Large Intestine (Why is it so much shorter than the small intestine? - Hint . . . it is related to the organ's function!) Cloaca - Pay attention to where you see this organ again (What is its location, and how is this related to the final function of the large intestine?) Day 5 top X. Thoaracic Region - Ventral View (Day 5) top Cardiovascular System top Removing the Heart SLIC MEN R RED Make a ventral, midline incision up to the base of the neck, using the rounded scissors as usual. It may be a bit tough due to the sternum. Make a ventral diagonal incision from the armpit region to the end of the incision above,using the rounded scissors as usual. Remove all of the muscle and bone to reveal the heart and lungs. Draw the following: 1. Heart - 3 chambered a. Ventricle - there is only one (What sort of impact does this have on the function of the heart, compared to our four-chambred heart?) b. Left & Right - remember: it's always the patient's left - Atria - singular = atrium (Why are the atria so much smaller than the ventricle? HINT: Think in terms of the distance the pumped blood travels before it returns to the heart.) c. (What are the three circuits in the frog's circulation? Do we have the same 3 circuits, or do ours differ?) 2. Lungs (Note the size. They are, unlike our lungs, smaller in comparison to the size of the heart. Explain the reasons - there are two - for this size difference.) 3. Trachea (What is the function of the rings of cartilage? Why does no other tube - digestive, vascular, etc. - need these rings? The trachea divides into two structures called ____; these structures go into the ____?) Using the probe, gently remove the connective tissue surrounding the vessels above the heart. Then draw the following: 1. Pericardium (What is its function? HINT: it is related to the type of membrane of which it is made, and the specific fluid that the membrane makes.) 2. Conus Arteriosus (To what chamber does it attach? To what circuit(s) does this vessel provide blood? What is the oxygen concetration of the blood - high, medium, or low? What is the color of the blood?) 3. Coronary Artery (What is the oxygen concetration of the blood - high, medium, or low? What is the color of the blood? To what circuit(s) does this vessel provide blood?) 4. Systemic Arch (What is the oxygen concetration of the blood - high, medium, or low? What is the color of the blood? To what circuit(s) does this vessel provide blood?) 5. Pulmocutaneous Arch - to the lungs (What is the oxygen concetration of the blood - high, medium, or low? What is the color of the blood? To what circuit(s) does this vessel provide blood?) 6. Pulmonary Artery - as above, but entering the lungs (What is the oxygen concetration of the blood - high, medium, or low? What is the color of the blood? To what circuit(s) does this vessel provide blood?) 7. Pulmonary Veins - as above, but leaving the lungs (What is the oxygen concetration of the blood - high, medium, or low? What is the color of the blood? To what circuit(s) does this vessel provide blood?) 8. Sinus Venosus (What is the oxygen concetration of the blood - high, medium, or low? What is the color of the blood? To what circuit(s) does this vessel provide blood?) Images purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com Inside the Mouth top SLIC MEN R RED Images purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com; animation by Mr. Lazaroff. Using the rounded scissors, cut open the corners of the mouth and pin the mouth open. Draw the following: 1. Maxillary Teeth (Given the name, on what portion of the mouth are they found? What is their function?) 2. Vomerine Teeth (On what portion of the mouth are they found? What is their function?) 3. Internal Nares (Into what portion of the mouth do they open? Into what portion of the mouth do ours open? Given that the brain is above, and behind, the eyes, what other function, besides breathing, do the nares have?) Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com; animation by Mr. Lazaroff. 4. Underside of the Eyes a. push gently upward from below and the eyes "bug out!" b. more about the eyes. c. (You were able to push the eyes up; the frogs are able to push them down into the oral cavity. What purpose does this serve? What body system does this aid? 5. Glottis a. place a blunt probe down this and you will see it move into the trachea! (What is its function? To what body system does it belong?) 6. Esophagus a. place a blunt probe down this and you will see it move into the esophagus! (What is its function? To what body system does it belong?) 7. Eustachean tube a. place a blunt probe up this and you will see it move the tympanum! (What function does this tube provide? How does the function of this tube relate to the effectiveness of swallowing in relieving ear pressure during airplane flights?) Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com; animation by Mr. Lazaroff. Day 6 top XI. Thoaracic Region - Ventral View, Part II (Day 6) top Remove the heart by cutting the blood vessels above it and removing it from the chest. Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com; animation by Mr. Lazaroff. 1. Place it flat on your dissecting tray with the ventral surface up. 2. Make a cut parallel to the tray through the heart. Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com; animation by Mr. Lazaroff. 3. Open up the heart and draw the inside under the dissecting microscope and label the three chambers. (Why are 4 chambers better? How can a frog survive with only 3 [i.e. how are they different from us?]?) Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com; animation by Mr. Lazaroff. Draw the chest with the heart removed and label the trachea, the bronchi, and the lungs. Respiratory System SLIC MEN R RED top Place a probe down the glottis to see it emerge in the trachea. Now remove a lung by cutting the trachea right before it branches to the two bronchi. 1. Place it flat on your dissecting tray with the ventral surface up. 2. Make a cut parallel to the tray through the lung. 3. Open up the lung and draw the inside under the dissecting microscope and label the bronchioles. (What are all the tubes within the heart? Other than being proportionately larger, how do you think our lungs are different?) Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com Draw the esophagus and show the connection to the top of the stomach. Place a probe down the opening to the esophagus - the glottis - to see it emerge in the esophagus. Using the scissors, cut the most anterior end of the esophagus and the most posterior end of the large intestine. Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com 1. Gently remove the digestive tract from the body, making sure not to danage the spleen or the testes - for those with a male frog - where it is connected to the mesentery. 2. Gently cut all the mesentery from between the loops of the small intestine. 3. Stretch out the entire digestive tract and measure its length in centimeters. Now measure the frog's body length in centimeters from the tip of the jaw to the bottom of the groin - "head to rump". Express the ratio as a GI - gastro-intestinal - tract to Body ratio (i.e. x : 1). (Would you expect an herbivore to have a similr, larger, or smaller ratio? Explain.) Cut open a section of the small intestine and draw the inside under the dissecting microscope. (How is it different from the inside of the stomach? How can you explain those differences [i.e. in terms of the functions of the small intestine]?) Lymphatic System top SLIC MEN R RED The lymphatic system not only drains fluid in lymphatics, but it also fight infection in organs such as the tonsils and the spleen. (Why does a person infected with mononucleosis run the risk of having her/his spleen rupture?) Reproductive System top SLIC MEN R RED Reproductive organs: 1. FEMALE: Draw the oviducts and where they connect to the posterior end of the abdomen. (Why do they connect there? To what structure do they connmect?) a. Compare a female frog with small, beige and black oviducts, to a female frog with large black and white oviducts. Explain the difference. Through what structure are the eggs laid?) 2. MALE: Draw the testes and the vestigial oviducts. (Why are there vestigial oviducts? How is this related to Jurassic park? Where do the testes connect? Through what structure are the sperm released?) a. Cut open one of the testes and draw it under the dissecting microscope. (Why does a reproductively fertile male have such small and simple testes? HINT: refer to the gametes.) Images purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com Excretory System top SLIC MEN R RED Draw the kidneys. NOTE: the kidneys are BEHIND the abdominal wall!!! Cut open the connective tissue so you can see the actual surface of the kidneys. 1. Find and draw the ureters. (Where do they go? What do they carry? Why isn't there a #1 and a #2 in a frog?) 2. Remove a kidney and pllace it flat on your dissecting tray with the ventral surface up 3. Make a cut parallel to the tray through the kidney 4. Open up the kidney and draw the inside under the dissecting microscope and label the renal pelvis (the open area inside. (What collects there? What structures would you see with a more powerful microscope that do the actual work of the kidney? What is the function of the kidney?). Images purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com Endocrine System top SLIC MEN R RED On top of the other kidney - it's actually on both, but it will be easier to see with the kidney in position - is a pale organ. Renal means "kidney," and the prefix "ad-" means "on top of." This organ is thus . . . the adrenal gland. Draw it. (What is its function? To what body system does it belong? Given the rapid response, what body system must control the release of its contents?) Another endocrine organ is the pancreas. This function of the pancreas is unrelated to the digestive system. The hormones produced are not released into the small intestine; they are released directly into the bloodstream. (What are the two hormones? What do they do? NOTE: Given Mr. Lazaroff's chronic health condition, it would behoove you to know the answer to this!) Nervous System top Peripheral Nervous System Central Nervous System Sensory Organs: Eye Ear Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com SLIC MEN R RED Remove ALL of the remaining organs as well as the connective tissue along the back of the abdominal wall (this is known as then parietal surface). Draw the following: 1. The vertebrae. (What two basic functions do they perform? HINT: the two functions relate to separate body systems!) Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com 2. The Spinal Nerves. These travel laterally from either side of the spinal colomun between the vertebrae. (Where do the nerves go after they disappear inbetween the vertebrae? Where does this - Is it dorsal? Is it ventral? - structure go?) Images purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com Turn the frog onto its ventral surface, so that it's dorsal surface is up (this is known as prone, as in "being prone to fall flat on your face . . ." An organism on its back, as our frog has been for so long, is known as supine.). 1. Using the scalpal, cut through the bone holding the scalpal parallel to the skull. It is necessary to cut throught the bone in order to expose the brain. (What value is there to this brain-barrier? Is is related to the vertebrae in function? Which one evolved first: skull or spine?) 2. Note the two sides - dare we call them hemispheres? (Why are there two sides? Which side of the brain controls the left side of the body?) 3. Draw and label the following lobes (and be sure to describe the function of each): Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com Forebrain (what else is in the forebrain that is not listed below? And beneath that area? [HINT: the prefix hypo = "below." What other system is this area of the brain connected to?): 1. Olfactory bulbs (What is their function? Are ours proportionately larger, or smaller? What does this say about the importance of this part of the brain to our survival?) 2. Cerebrum (What is its function? Is ours proportionately larger, or smaller? What does this say about the importance of this part of the brain to our survival?) Midbrain: 1. Optic lobes (Connected to what sensory organ? What area of the brain is the other sensory organ discussed above connected to?) Hindbrain: 1. Cerebellum (What does this portion of the brain control? Why does ours need to be proportionately larger than that of the frog?) 2. Medulla oblongata (What basic body functions does this maintain? Why do we still have one?) Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com What structure continues out the back of the brain? (What is the foramen magnum? Where is the frog's foramen magnum? What does this say about the locomotion of the frog: quadruped or biped? Could you tell the form of locomotion without seeing the legs [i.e. from the skull alone?]? Explain.) (Which portion of the brain of those listed above has expanded the most in humans? Given the relative size of that structure in the frog, what does it say about the mental capacity of the frog? After comparing it to the Earthworm and the Crayfish, do you care to revise your answer?) Remove one of the eyes. (What is the name of the nerve that connects to the back of the eyeball? What travels along it?) Image purchased by Mr. Lazaroff, by subscription, from http://www.clipart.com 1. Make a cut from the front of the eye to the back, so that the eye is divided into top and bottom. Draw the inside of the eye under the dissecting microscope. (Is the eye solid? If so, why? If not, why not? What is the eye filled with, and why? What is the back of the eye called? What does it do? Is there any connection to the nerve? What is the lens like? What does it do?) Drawings: top 1. Use a PENCIL!! 2. Make the drawings "larger than life" size, as the specimens are so small. 3. Draw the general shape (outline) and location of the organs, as the squiggles so many of you use to "shade" your drawings make your drawings sloppy and hard to interpret. 4. Include Labels on all drawings. Labels should start outside the drawing, and be connected to the structure by arrows with tips (===>). The Tip of the arow should be touching the structure. Be sure to include the magnification for any drawings done with the dissecting microscope. Hang on to the drawings; they will all be handed in later, together with some questions to answer. Click Image to ENLARGE! Day 1 Day 2 Day 3 Day 4 Day 5 Day 6 top SLIC MEN R RED Return to Mr. Lazaroff's Biology The Final Lab on the Dissection of the Earthworm, Crayfish, and Frog! The Final Lab on the Dissection of the Following: Earthworm, Crayfish, & Frog Return to Mr. Lazaroff's Biology Due: On the day of the FINAL EXAM! That's right . . . there will be no more Bio LABS after this one. . . You need to find the Earthworm Dissection Page: http://shs.westport.k12.ct.us/mjvl/biology/dissect/earthworm.htm The PDF version below is the most printer-friendly with the images: http://shs.westport.k12.ct.us/mjvl/biology/dissect/earthworm_dissection.pdf and the Crayfish Dissection Page: http://shs.westport.k12.ct.us/mjvl/biology/dissect/crayfish.htm The PDF version below is the most printer-friendly with the images: http://shs.westport.k12.ct.us/mjvl/biology/dissect/crayfish_dissection.pdf and the Frog Dissection Page: http://shs.westport.k12.ct.us/mjvl/biology/dissect/frog.htm The PDF version below is the most printer-friendly with the images: http://shs.westport.k12.ct.us/mjvl/biology/dissect/bullfrog_dissection.pdf Throughout those three web pages there are questions. They are usually written after each of the specific structures you were to identify and draw. You have to search for the questions by reading the descriptions of the actual dissections; this will actually help you to remember! YOU DO NOT NEED TO DO A FULL LAB REPORT!! Just include the following: (A) answers to all the questions, (B) your drawings, in the order you completed them, and (C) write a conclusion comparing the three animals we dissected in class . . . . . . In other words . . . what did you learn? How are the animals similar to us? How can you explain those similarities? How are they different? How can you explain those differences? Good Luck, Have Fun, and I'll See You at the FINAL! Return to Mr. Lazaroff's Biology http://shs.westport.k12.ct.us/mjvl/biology/dissect/dissectionlab.htm NSTA Conference Presentations (Present & Past) NSTA Conference Presentations http://shs.westport.k12.ct.us/mjvl/lazaroff/nsta.htm Michael Lazaroff Anatomy & Physiology, Forensics, Biology Staples High School 70 North Avenue, Westport, CT 06880 To Facilitate the Sharing of Materials from my NSTA Presentations, I have placed all the relevant files here. NOTE: I have been gradually changing the format of my handouts, which hopefully better reflects what it was like attending my presentations. Should you have any comments or suggestions, please feel free to share them here. 2011 - San Francisco - March 10th to March 13th, 2011 NOTE: All of these files were posted on the NSTA site How to Find a Specimen Quickly Under a Microscope Tired of helping frustrated students find microscope specimens? Here is a time-tested method that will have them finding and drawing, accurately, within seconds! Saturday, March 12 8:30–9:00 AM Marriott San Francisco Marquis, Golden Gate Salon C3 How to Find a Specimen Quickly Under a Microscope (Includes Links to web pages I built on how to use a microscope.) Dissection: How to Make the Most of It End your year with dissection. Learn strategies to create a safe environment, engage all your students, and eliminate the need for alternative assignments. Saturday, March 12 12:30–1:30 PM Marriott San Francisco Marquis, Sierra A Dissection - How to Make the Most of It! (Includes Links to all three dissection labs: Earthworm, Crayfish, & Bullfrog.) I am hoping to see you in San Francisco in 2011! 2010 - Philadelphia NOTE: All of these files were posted on the NSTA site, under NSTA Communities Bringing History, Art, and Literature into the Biology Classroom Make your teaching interdisciplinary. Bring in history, art, literature, and your course will come alive, and you will bring in students who previously hated science! History, Art, Literature & Biology Handout Teaching Evolution: Meeting the Challenge of S0-Called Iintelligent Design Rather than skirt the issue, meet it head on! How to use the problems with intelligent design to strengthen your teaching of evolution! Evolution Handout Evolution Powerpoint (This is a work in progress . . .) Exploring Body Systems Conceptually: How to Link Every Biology Unit to Human Body Systems Time for body systems? Every unit can be reinforced by linking to the structure and function of body systems, making dissection a true culminating activity. Body Systems Handout Body Systems Powerpoint (This will be available later.) The Dead T-Shirt Contest! Featured in the NSTA Blog, "CSI Philadelpha" http://nstacommunities.org/blog/2010/03/20/csi-philadelphia/ Participants will determine the cause, mechanism, and manner of death in an activity in which the students act as both victims and forensic pathologists. Dead T-Shirt Handout Dead T-Shirt Files Dead T-Shirt Activity Dead T-Shirt Answers (NOTE: You can use these to create your own versions of these shirts. Should you come up with your own designs, please share them, and I will be happy to post them here for others to use!) 2009 - New Orleans http://shs.westport.k12.ct.us/mjvl/lazaroff/nsta.htm NSTA Conference Presentations (Present & Past) The Ideal Mate Project: Authentic assessment in the construction and interpretation of Student’s own family pedigree! Students collect family phenotypes, construct their family’s pedigree (even the adopted), determine their genotypes, and use them to predict possible kids with their ideal mate! Ideal Mate Handout Frog’s Blood vs. Human Blood: Comparing RBC as a means to understand Cellular Respiration and SA/V Students compare RBC under the microscope and discover connections to SA/V, Cellular Respiration, Endothermic & Ectothermic metabolisms, and the evolution of body systems. Frog's Blood Handout The Dead T-Shirt Contest! See in the NSTA Blog from 2010, "CSI Philadelpha" - http://nstacommunities.org/blog/2010 /03/20/csi-philadelphia/ Participants will determine the cause, mechanism, and manner of death in an activity in which the students act as both victims and forensic pathologists. Dead T-Shirt Handout Dead T-Shirt Files Dead T-Shirt Activity Dead T-Shirt Answers (NOTE: You can use these to create your own versions of these shirts. Should you come up with your own designs, please share them, and I will be happy to post them here for others to use!) 2008 - Boston The Student Construction of Schematics to Illuminate Complex Anatomical Issues. Learn how to have students construct larger-than-life schematics of the body systems, illustrating anatomical connections & their physiological implications, and greatly increase your students' understanding. Schematic Instructions (This will be available later.) The Final Project (a.k.a. The Final Mandala) The Dead T-Shirt Contest! See in the NSTA Blog from 2010, "CSI Philadelpha" - http://nstacommunities.org/blog/2010 /03/20/csi-philadelphia/ Participants will determine the cause, mechanism, and manner of death in an activity in which the students act as both victims and forensic pathologists. Dead T-Shirt Handout Dead T-Shirt Files Dead T-Shirt Activity Dead T-Shirt Answers (NOTE: You can use these to create your own versions of these shirts. Should you come up with your own designs, please share them, and I will be happy to post them here for others to use!) It was a pleasure making presentations these past few years. If you have any questions regarding any of the items above, or any other items, or if you have items you want to share, please feel free to write or call, and I will do my best to contact you as soon as possible. Sincerely, - Michael J. V. Lazaroff Author of THE COMPLETE IDIOT'S GUIDE TO ANATOMY AND PHYSIOLOGY 1996 Access Excellence Fellow - http://www.accessexcellence.org Anatomy & Physiology Teacher, Forensics Teacher, Biology Teacher Staples High School 70 North Avenue Westport, CT 06880 Voice Mail: (203) 341-1415 School E Mail: Michael_Lazaroff@westport.k12.ct.us Personal E-mail: mjvlazaroff@gmail.com Web Pages (all designed, built, and maintained by myself): http://shs.westport.k12.ct.us/mjvl/lazaroff/lazaroff.htm (My Home Page) http://shs.westport.k12.ct.us/mjvl/anatomy/a&p-home.htm (My Anatomy Page) http://shs.westport.k12.ct.us/mjvl/biology/biohome.htm (My Biology Page) http://shs.westport.k12.ct.us/forensics/ (The Forensics Page, made with Mr. Rollison) http://shs.westport.k12.ct.us/mjvl/default.htm (Science Department Page) "It is not the strongest of the species that survive, nor the most intelligent, but the one most responsive to change." - Clarence Darrow (from the Scopes Trial, "The State of Tennessee vs. John Scopes," in 1925) http://shs.westport.k12.ct.us/mjvl/lazaroff/nsta.htm
