Kingdom Animalia Multicellular eukaryote heterotrophic Phylum Annelida body made of many segments separated by a septum Two body openings and a closed circulatory system Ex Earthworms marine worms leeches etc ID: 593127
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Earthworm DissectionSlide2
Kingdom Animalia
: Multicellular eukaryote, heterotrophic
Phylum Annelida: body made of many segments separated by a septum. Two body openings and a closed circulatory system. Ex. Earthworms, marine worms, leeches etc.
Class Oligochaeta: lack appendages and very few bristles. The can be terrestrial or found in fresh water
Classification of EarthwormSlide3
Objectives:
1. Understand all major earthworm systems for maintaining homeostasis.2. Correctly dissect an earthworm and accurately identify various earthworm organs and systems. Understand how the earthworm fits into the world.
Master (85%) both the dissection quiz (in class) and the online guide quiz (UTIPS).Slide4
All living things must
maintain a relatively stable internal environment to survive. The term used to describe this is "homeostasis." Living things carry out different essential functions in order to accomplish this task.
Multicellular organisms have “systems” that work together to maintain this stable environment. For example when you run your body is placed under sever stress. Various systems will start to work overtime keeping your body alive. Your heart starts beating faster and your breathing increases. Your body is trying to deliver oxygen and take away carbon dioxide (respiratory waste) form working muscles etc. Your skin starts to sweat reducing the excess body heat created by the activity. Without your body systems working together your systems will fail and death would ensue. There are many more system accommodations that occur as you run or engage your body in different activities.
Multicellular organisms maintain homeostasis differently. Compare the differences between warmblooded and cold blooded organisms. To adjust body temperature insects or reptiles will move their body to a location that will ether warm or cool their body depending on their needs.Below are a few examples of various systems found in multicellular organisms.
Digestive /FeedingResponse /NervousMovement
Circulatory
Respiratory
Reproductive
Excretion
Single celled organisms do not have systems because they are only made of one cell. Thus each cell must carry out all of these functions without relying on tissues, organs and organ systems (ex. bacteria, yeast, and most
protists
).Slide5
Feeding
(digestive), Earthworms have a fleshy projection on the anterior end called the prostomium. This structure covers the mouth. The mouth leads into a muscular pharynx that pumps food into a storage organ called the crop. Just posterior to the crop is a thick-walled, highly muscularized gizzard. Small rocks (grit) in the gizzard help to grind food before it is moves into the intestine where the nutrients from the food is absorbed. After absorption solid waste is eliminated through the anus. The solid waste of earthworms are called castings. Worm castings are highly sought after because of their concentrations of nitrogen, phosphorus, potassium, micronutrients and beneficial bacteria. Worm feces is a fantastic fertilizer and very expensive. Earthworms also help to till / mix the soil as they burrow through the ground. As a result they leave a network of tiny holes and spaces that help water and air get to plant roots. These spaces are critical niches for bacteria to colonize and decompose organic debris as well as fix nitrogen (nitrogen fixation).
The intestine extends from the posterior end of the gizzard and continues until it reaches the anus.
Slide6
Respiration
, (respiratory system)
Earthworms secrete a thin surface film of mucus to keep them moist so oxygen and carbon dioxide can diffuse through the body wall. Worms do not have lungs or gills like some organisms. Remember that living things accomplish each of the tasks necessary to maintain homeostasis differently. All living things MUST have a way to deal with these requirements. It is your quest to make sure you can describe and explain how different living things meet these requirements. Slide7
Circulation,
(circulatory) Earthworms have five simple hearts located just anterior to the crop and posterior to the pharynx. These are very simple hearts / vessels that pump blood throughout the earthworm. Earthworm blood is red because it has hemoglobin. Remember that hemoglobin is a protein that binds oxygen. There are two relatively large blood vessels that run along the top (dorsal) and along the bottom (ventral). There are small vessels that connect the two. You will not be able to see these without a microscope. The earthworms circulatory system is considered to be a closed system because the blood circulates within a network of vessels. An open system has spaces or cavities filled with blood that surrounds body organs. The blood in these cavities is picked up by vessels and circulated throughout the organism. Don’t forget that earthworms have a
closed circulatory system.
HeartsSlide8
Excretion
(excretory system) Solid waste passing though the intestine is eliminated through the posterior opening called the anus. Cellular waste is excreted in a different way. Remember all cells excrete cellular waste (nitrogenous). When waste products accumulate inside body tissues they become toxic and must be removed or the creature will die. To eliminate cellular waste metanephridia remove toxins keeping the cellular landscape free of excess garbage. The metanephridia are connected to openings called
nephridiopores. The cellular waste is excreted from these openings. Slide9
Response
(nervous)
The earthworm, as well as most annelids, have a well developed nervous system consisting of a brain and many nerve cords. You can see from this image that the ventral nerve cord is connected to the brain. See if you can see ganglia. Slide10
Movement
(skeletal and muscular)
Earthworms alternately contract their longitudinal (shortens
) and circular (elongates) muscles to move.Slide11
Reproduction
, (reproductive system) Although earthworms are monecious, they undergo cross-fertilization during copulation. During copulation sperm cells are released from the seminal vesicles and stored in the seminal receptacles of the opposite earthworm. The clitellum slides over the anterior segments and picks up eggs from the oviducts in the 14th segment and sperm as it slides over the anterior end of the worm to form the egg cocoon. Slide12
Watch my dissection video and go through this PowerPoint before you come to class and participate in the dissection.
Listen and follow ALL rules /safety procedures taught in class.
You will complete this dissection with your desk partner. Each student must get safety glasses from the UV box before starting the dissection. The safety glasses must be worn throughout the entire dissection.
Listen carefully and pay attention to classroom dissection demonstration. Student not listening or participating in a positive way will be asked to leave the lab and complete book work to receive points for the dissection.
Before You Start The DissectionSlide13
When finished with the dissection you will raise your hand and request a lab quiz. A lab aid or one of you teachers will come and give you and your partner an oral quiz. This is a team quiz, you both get the same score. We will point out various anatomical structures for you to identify. You will be asked 10 different questions (100 pts)
When finished with your quiz clean your area as instructed and start taking your earthworm dissection guide notes.
Take the earthworm guide quiz at home or at school
ONE time only. You may NOT retake quizzes. I strongly admonish you to take good notes to assist you while taking the guide quiz. Guide quizzes are found on UTIPS. I repeat….guide quizzes may only be taken ONE time. If you log on and exit you will receive a zero. If you prepare well (take notes, ask questions, study this PowerPoint and my dissection video) you will do well, if not……….Slide14
The next slides provide you with some still images of the different parts of the earthworm. It is important that you use these still images along with my dissection video in your preparation.
We hope you will enjoy learning about the systems living things use to maintain homeostasis. Slide15
Materials Needed To Perform Your Dissection
Pointer
Earthworm
Scalpel
Forceps
Dissecting PinsSlide16
Make sure you have a dissection guide on your desk. Look up on the white board and you will see a list of key anatomical structures you will be asked during your dissection quiz. You may refer to this list while being quizzed. You may not look at the dissection guide. Slide17
You or your partner will go get your dissection bag and carefully remove the earthworm. Secure your specimen bag and return the bag to the appropriate box. Double check and make sure both of you are wearing safety glasses.
I have a limited supply of latex gloves for those students who do not bring their own. Plan ahead and place your gloves in your biology binder / backpack. The biology schedule on the moodle gives you the dates for all dissections. Slide18
Place your earthworm on the dissection tray and go over the
external anatomy
.
Dorsal View
You can tell this is dorsal because it is darker in color and the prostomium points downward. The dorsal blood vessel gives the dorsal surface its color.
Ventral View
Ventrally the earthworm is not as dark.
Anterior
Posterior
Anterior
PosteriorSlide19
External Anatomy
Segments
Clitellum
Mouth
Prostomium
Anus
You can see my pointer is on one of the lines that separates the segments.
Seminal Receptacle
Seminal ReceptacleSlide20
The probe is touching the Prostomium
The probe is in the MouthSlide21
The setae are structures we cannot visualize on the earthworm you are dissecting. If you rub your fingers along the ventral surface it feels like sand paper. This sensation is a result of the little bristle like structures called setae. These bristles give them traction as they move through their tunnels and along the surface of the soil.
Slide22
Once you have gone over the external anatomy you are ready to take a look at the internal anatomy. Double check and make sure you have the worm dorsal side facing up. Notice how the scalpel is placed against the outside of the dissection tray. When the scalpel is not in use make sure the sharp edge of the blade is facing the metal. Slide23
Place image of starting the proceedure
Use your forceps to hold the worm and gently cut into the upper body wall. Be careful not to damage the internal organs just under the body wall. You are cutting through the muscles used for movement etc. Slide24
Once you have cut through the body wall you can carefully begin to pin down one side.Slide25
Here we are pinning the body wall. Slide26
Continue to cut and pin as you go. Cut and pin just past the clitellum.
Angle your pins so you have access to the internal organs.Slide27
Continue to cut and pin until you have both sides pined at an angle. Slide28
On the subsequent slides we will be looking closely at the internal parts of the earthwormSlide29
Look very careful and you can see two small white dots. These dots are the cerebral ganglion or brain of the earthworm.Slide30
pharynx
seminal receptacles
seminal vesicles Slide31
gizzard
Intestine
Anterior endSlide32
The probe is pointing to the crop.Slide33
The probe is under the esophagusSlide34
The probe is touching the dorsal blood vessel which runs
dorsally on top of the intestine.Slide35
All
five
hearts cannot be seen in this diagram because of tissue that is covering some of the arches. You can see at least two and the third you can see through the tissue.
hearts
seminal vesicles
Seminal receptacles
crop
gizzard
Dorsal blood vesselSlide36
ventral blood vessel
ventral nerve cordSlide37
Do not forget you must study both this PowerPoint and my worm dissection video before you come to class and complete the earthworm dissection.
Good luck on your dissection !Slide38
Works Sited
Mr. Glassford’s Image Gallery
Biology Text: Miller and Levine