http://bio.fsu.edu/~bsc2011l/ Click on Course Documents, then Lab Documents Look at each lab (1 or more phyla) and the images posted. This presentation is also available: Click on Course Documents, then Lab Documents & select IV Coordinator s Lab Review Presentations

Lab Review Monday, Oct. 17, 2005 CON 239 What is it? Sign-up for one session only. Note times. Limit = 24/26 students per session Come and go as you need during that time.

Midterm Review Sessions Session 1 Session 2 Session 3 Session 4 Session 5 Session 6 Session 7 Session 8 Session 9 Session 10 8:30-9:45a.m. 9:45-11:00a.m. 11:00-12:15p.m. 12:15-1:30p.m. 1:30-2:45p.m. 2:45-4:00p.m. 4:00-5:15p.m. 5:15-6:30p.m. 6:30-7:45p.m. 7:45-9:00p.m.

Practical Exam: Wednesday, Oct 18, 2005 CON 239 Again - be careful of times! The exam schedule is different from that for the reviews. Students are responsible for taking note of the sessions they signed up for and keeping to this schedule! The actual exam lasts less than 40 minutes. We have a built in buffer at the end for business, but we will start them on time! Limit = 24/26 students per session. Noted on the sign-up sheet

Exam Sessions 3 TAs will be proctoring! Talk Exam End Session 1 8:30 8:45 9:30a.m. Session 2 9:45 10:00 10:45a.m. Session 3 11:00 11:15 12:00noon. Lunch 12noon 1:00p.m. Session 4 1:00 1:15 2:00p.m. Session 5 2:15 2:30 3:15p.m. Session 6 3:30 3:45 4:30p.m. Session 7 4:45 5:00 5:45p.m. Session 8 6:00 6:15 7:00p.m. Session 9 7:15 7:30 8:15p.m. Session 10 8:30 8:45 9:30p.m.

Special Needs Students Students needing special assistance (e.g. extra time) must sign up for the LAST review & LAST exam session. They must have their signed documentation on file with the coordinator prior to entry into either.

Exam - Grade / Question Distribution 15% OF YOUR OVERALL GRADE ~1/3 Taxonomy & identification ~1/3 Structure & function ~1/3 Comparisons between phyla

Exam - Point / Time Distribution 25 stations - 2 questions per station 50 questions total - 1 point per question Round 1-60 SECONDS (I min.) per station = 25 minutes for round 1 Round 2-30 SECONDS (1/2 min.) per station = 12.5 minutes for round 2 Total exam time given = 37.5 minutes - ¾ minute (45 seconds) per question!

Exam - Grading Policies Capitalize taxa Points WILL be deducted for not doing so. If you wish to use all capitals, make sure the first letter is most definitely TWICE as big as the rest. Spelling 1 letter will be over looked 2 letters - lose ½ point 3 letters - lose 1 point These rules only apply if 1 or 2 letters do not create another word that could mean that the student does not know the answer to the Q. Mesohyl (of Porifera) Mesophyll (of Plants)

Sign up for one exam! Exam - Rules! Arrive at least 10 minutes prior to your session talk time. If you are late you may not be let in! Bring only a couple of pencils and an eraser (Pencil enables you to change your response and leave only the part that you wish to be graded.) You may use a pen if you insist but it is not recommended! You will be given a pre-exam introduction re exam rules! No cheating! Keep eyes on your own paper (Turn caps around, pull hair away from face.) etc, etc Sign your sheet if you want your grades posted. If you choose not to sign it you will have to see the Coordinator in person to get your grade. Grade information will not be given out over the phone or by e-mail.

When you sign your response sheet your signature corresponds to two statements: 1 You understand and agree to abide by the Honor Code 2 You wish to have your grades posted by the last 4 digits of your ss# If you do not want your grades posted, you need to cross through this portion of the statement. I, Always Dowell / PRINT NAME SIGNATURE do hereby give a) my permission to post the grade to this test using the last 4 digits of my SS#. & Delete a) if it does not apply (i.e. strike through the entire line) b) my promise that I will hereby agree to uphold the Academic Honor Code during this exam.

Student flow around the lab 41, 42 WINDOWS SINK & AQUARIUMS 49, 50 1,2 DOOR

Note - the following slides may look different from what you saw in lab!!! These images are to be used in conjunction with your lab drawings, your notes & the lab manual.

DON T FORGET STUDY the MICROSCOPE - USAGE & PARTS!!! *Compound vs. Dissection *How to illuminate an opaque vs. transparent object *Magnification formula (M=OO) etc.

KINGDOM ANIMALIA PHYLUM Porifera PHYLUM Cnidaria PHYLUM Platyhelminthes PHYLUM Nemertina PHYLUM Nematoda PHYLUM Rotifera PHYLUM Annelida PHYLUM Arthropoda (SUPHYLA Trilobitmorpha, Crustacea & Chelicerata.) These are the phyla that you will be tested on for the midterm practical

PHYLUM PORIFERA CELLULAR level of body organization Middle layer = MESOHYL Acellular matrix - location of spicules, spongin & archeocytes Diagnostic cell type: CHOANOCYTE the flagellated collar cell

The Three TYPES of Sponges Asconoid = smallest Syconoid = middle-sized Leuconoid = Largest

PHYLUM Porifera TYPE Asconoid Too small to dissect in lab, you could only look at a whole specimen (as above) or prepared slides.

PHYLUM Porifera TYPE? This sponge looks white in the jar, but most of our slide specimens have been stained green so they look like green cacti! This is the smallest and simplest sponge type. Too small to dissect.

PHYLUM Porifera TYPE Asconoid BSU Basic Sponge Unit It s choanocytes are located in the spongocoel. Note the buds (asexual reproduction) and many oscula (plural of osculum). What are gemmules?

PHYLUM Porifera TYPE? Name this hole? What is this?

PHYLUM Porifera TYPE Asconoid Note: Spicules at the neck of the osculum Terms you need to know: spicules, spongocoel, osculum & bud. Compare to fig 1.3-A in your lab manuals.

Incurrent Pores (Ostia), Porocytes and Prosopyles The PROSPYLE is the pore leading into the area of choanocytes It is always formed by one cell, the porocyte. Incurrent pores or ostia are the openings through which water first enters a sponge. These can be formed by one or more cells

Asconoid Sponges The incurrent pore/ostium brings water directly into contact with the choanocytes lining the spongocoel. The incurrent pore/ostium in this case is the same as the prosopyle and consists of 1 cell, the porocyte.

Syconoid Sponges The ostia are generally made of several cells and bring water into the incurrent canal. Water leaves this area to enter the radial canal (area of choanocytes) via the prosopyle (a porocyte cell)

Note the prominent spicules PHYLUM Porifera TYPE Syconoid The choanocytes are located in the radial canals. These are the middle-sized sponges

O S I R Ostium P I S l.s. & l.s. c.s. views I PHYLUM Porifera Syconoid TYPE I R Osculum (O) Spongocoel (S) Incurrent canal (I) Radial canals (R) Choanocytes (C) Water enters via the ostium - > l - > via the Prosopyle (P) (a porocyte cell type) - > radial canal - > Apopyle - > S - > O R

Choanocytes are located where?

PHYLUM Porifera TYPE Leuconoid These are examples of the most complex sponge type. The choanocytes are located in the many flagellated chambers. Any large sponge is most likely a leuconoid - type sponge.

Leuconoid Sponges The ostia (several cells) allow water to enter incurrent canals. Water leaves these to enter the flagellated chambers (area of choanocytes) via the prosopyles (porocytes)

Sponge Reproduction Sponges are monoecious ASEXUAL Marine Budding Fragmentation Regeneration Freshwater sponges Gemmules + 3 methods above SEXUAL Male & female gametes are formed. Archeocytes become eggs Choanocytes filter sperm out of the water Fertilization is involved. Planktonic larvae or mini flagellated colonies are released to colonize new areas.

PHYLUM CNIDARIA TISSUE level of body organization Middle layer = MESOGLEA = Acellular matrix (Just jelly!) Diagnostic cell type = CNIDOCYTE It contains the Nematocyst organelle

Cnidocyte vs. Nematocyst A B C A =? B =?? C =?

Insert: A Cnidocyte (C) cell containing a Nematocyst - organelle not yet triggered. E E G M G Cnidarians are DIPLOBLASTIC (2 tissue layers) C = Epidermis (E) & A = Gastrodermis (G) with B = Mesoglea in between the two

Phylum Cnidaria Close-up of Nematocysts Specialized cells called cnidocytes contain nematocysts. These are used for anchorage, defense and capture of prey.

Cnidarian Life Cycles Hydrozoa Polyp dominant Medusa does exist (Hydra is cute but odd!) Remember the fire coral! Scyphozoa Medusa dominant Polyp does exist Anthozoa Polyp only

Do you know the difference between a bud and a gonad?

PHYLUM Cnidaria class Hydrozoa Cnidocyte-bearing tentacles, mouth, GVC & bud (branch = asexual reproduction) [fig 2.2]

PHYLUM Cnidaria CLASS Hydrozoa Polyp with gonads for sexual reproduction & close-up view of the gonads [fig 2.2] (bumps)

Which structure is used for what?

PHYLUM Cnidaria CLASS Hydrozoa Obelia colony slide with close-up of the some of the polyps or zooids. Note polymorphism - gastrozooids (with feeding tentacles) & gonozooids for reproduction [fig 2.3-6]

It floats like like boat and Stings like a bee It s squishy and ghoulish And dangerous to me. So what is it? Clue - Hydrozoan

PHYLUM Cnidaria CLASS Hydrozoa Portuguese Man-O-War is an excellent example of polymorphism. It is a colony of many individuals again = zooids modified for different tasks (feeding, floating, reproduction, etc.)

This next specimen is on almost EVERY practical exam!

PHYLUM Cnidaria CLASS Hydrozoa Calcium-carbonate skeletons of a fire coral. This is a hydrozoan (not an anthozoan corals) because it has both a POLYP stage (dominant = above) & a MEDUSA stage in its life cycle.

PHYLUM Cnidaria CLASS Hydrozoa S Ventral view of a Hydrozoan Medusa [fig 2.3-7] Note Long knobby tentacles with batteries of nematocysts along them. (S) Statocysts are for balance

Please pass the jelly! What class am I talking about? Clue It s NOT Polander All-fruit

A Scyphozoan = A jelly! Statocysts can be at the base of the tentacles or in between them.

HYLUM Cnidaria LASS Scyphozoa 3 examples of jellyfish. Note the large amount of mesoglea present in this class. MEDUSA is dominant in Scyphozoans, but polyp stage is also present at some point during their life cycle.

You need to know the order of the following life-cycle structures.. Again they appear in almost every exam.

P S St Life cycle (fig 2.6) P A S St E A E P Planula A Actinula (No slide) S Scyphistoma St Strobila E Ephyra A Adult PHYLUM Cnidaria CLASS Scyphozoa

PHYLUM Cnidaria CLASS Scyphozoa Close-up of planula stage [fig 2.6-B] Bilateral motile larval stage able to move away from parent to settle in a new area.

PHYLUM Cnidaria CLASS Scyphozoa Close-up of scyphistoma stage [fig 2.6-D]

PHYLUM Cnidaria CLASS Scyphozoa Close-up of strobila stage. Buds form from asexual reproduction [fig 2.6-E]

PHYLUM Cnidaria CLASS Scyphozoa Close-up of ephyra larva [fig 2.6-F]

PHYLUM Cnidaria CLASS Anthozoa Calcium-carbonate skeletons of various corals, sea fans & sea whips. All = Anthozoa: ONLY the POLYP stage is present.

PHYLUM Cnidaria CLASS Anthozoa Note that ONLY the POLYP stage is present. In their life cycle Remember you saw them fight in slow motion in the Shapes of Life video???? Some Anthozoa grow as individual polyps such as this Sea anemone. [fig 2.7]

PHYLUM Cnidaria CLASS Anthozoa Other Anthozoa grow as colonies of polyps. Examples of this include sea pansies (shown here,) sea fans, sea whips, sea pens and of course corals. Remember, ONLY the POLYP stage is present in the Anthozoa class of cnidarians.

ACOELOMATES PHYLUM PLATYHELMINTHES & PHYLUM NEMERTINA

The ACOELOMATE Condition Ectoderm Mesoderm Endoderm Lumen of gut Any triploblastic organism which lacks a body cavity is said to be an acoelomate...

PLATYHELMINTHES Flatworms ORGAN grade of body organization TRIPLOBLASTIC MESENCHYME = Middle layer derived from mesoderm germ layer = space-filling packing tissue ACOELOMATE - Mesoderm obliterates the blastocoel in the embryo

PLATYHELMINTHES 3 main classes CLASS Turbellaria - Free-living flatworms CLASS Trematoda - Endoparasitic Flukes CLASS Cestoda - Endoparasitic Tapeworms

These next guys caused a laugh in the video (Ooh, yes their going to do it.. Yes, Yes, YES! Oh wow! That was great!) It was violent and yet the participants were quite beautiful What am I referring to?

Marine flatworms But what we saw in lab was a freshwater flatworm. It was brown and looked as if it were boss-eyed.

PHYLUM Platyhelminthes CLASS Turbellaria M PO P PO P M I Note extensible pharynx (P), pharyngeal opening (PO), mouth (M) & intestine (I) [fig 3.2-A]

PHYLUM Platyhelminthes CLASS Turbellaria Anterior Pharyngeal region Posterior cs through anterior of organism [fig 3.4] aka Batman s plane. Note No pharynx, only caeca

PHYLUM Platyhelminthes CLASS Turbellaria c.s. through pharyngeal region [fig 3.4] Note Pharynx, gastric caeca & Mesenchyme (Cilia!?) First of 2 Acoelomate c.s

PHYLUM Platyhelminthes CLASS Trematoda V A View of whole fluke organism. Note the two suckers. Anterior (A) one is for feeding, the ventral (V) one is for attachment

OS P C C PHYLUM Platyhelminthes CLASS Trematoda VS Anterior end of fluke. Note oral sucker (OS), pharynx (P), caeca (C) & ventral sucker (VS) (for attachment) [fig 3.5]

U E O C O PHYLUM Platyhelminthes CLASS Trematoda C T Note eggs E, ovaries O, shell gland, caeca C, uterus U and testes T [fig 3.5]

PHYLUM Platyhelminthes CLASS Cestoda Scolex (I) and maturing proglottids. The most reproductively mature sections are at the posterior end of the tapeworm. What are these sections called?

R S S PHYLUM Platyhelminthes CLASS Cestoda Scolex region. Note rostellum (R) (rings of hooks) & suckers (S) for attachment [fig 3.7-A]

Sperm in from partner Uterus & Shell Gland Sperm exit here to enter another partner s proglottid Speckled background = Testes Ovary PHYLUM Platyhelminthes CLASS Cestoda Uterus will swell with many outpockets as the eggs develop Mature proglottid w/ reproductive structures [fig 3.7-D]

Uterus has swollen with eggs - fertilized with a partner tapeworm s sperm PHYLUM Platyhelminthes CLASS Cestoda Gravid proglottid chock full o eggs [close-up of fig 3.7-E]

PHYLUM NEMERTINA (Acoelomate)

This is our 1st organism with a COMPLETE digestive tract - (i.e. it has an anus) PHYLUM Nemertina You did not see the specimen but had to fill out labels on a diagram in your lab manual showing a slide of a c.s. = 2 nd acoelomate c.s.

?? PHYLUM Nemertina c.s. through anterior end of a flatworm at a point behind the mouth.?

Rhynchocoel Proboscis Intestine Note proboscis in the rhynchocoel & the flattened intestine (outlined). [fig 4.3-B]

PSEUDOCOELOMATES PHYLUM NEMATODA PHYLUM ROTIFERA

The PSEUDOCOELOMATE Condition Ectoderm Mesoderm PSEUDOCOELOM Endoderm Lumen of gut Any organism which has a false body cavity (pseudocoel) is said to be a pseudocoelomate...

Definition of a pseudocoelom? - a fluid-filled body cavity, (derived from the blastocoel), which surrounds the gut. Functions (i.e. what s it used for?) Hydrostatic skeleton Circulatory Location of organs reproduction & excretion

PHYLUM NEMATODA (Roundworms) Eutely Only longitudinal muscles Pseudocoelom functions as circulatory system Complete digestive system Renette cells - excretion Amoeboid sperm

P Phylum Nematoda cs through esophagus. Note triradiate esophagus, pseudocoel (P) & thick cuticle [fig 5.4]

Male or female? Which one is which? How do you tell?

B A Phylum Nematoda c.s. through female (A) & male (B) nematode worms. Notice the 2 large round structures in the female (uteri) and the thick cuticles on both the male and female worms. [fig 5.3]

Phylum Nematoda P Lumen of gut c.s. of male, note reproductive structures, and pseudocoel (P) [fig 5.3]

c.s. of female Note intestine (I), pseudocoel (P), ovaries (O), oviducts (OD), & one of the 2 LARGE uteri (U) [fig 5.3] Phylum Nematoda I P OD U O

PHYLUM ROTIFERA Cirri, corona & trochus bring in water currents and therefore aid in feeding, respiration and locomotion Mastax & trophi = internal feeding apparatus Pedal glands and spurs (toes) attachment Flame bulb excretory canals Parthenogenesis, Mictic, viviparous

PHYLUM Rotifera What was the other one??? The other pseudocoelomate phylum we studied!!! Note corona (for feeding, locomotion & respiration), mastax/trophi, pedal glands & spurs (toes) [fig 5.5]

EUCOELOMATES PHYLUM ANNELIDA onwards.

The EUCOELOMATE Condition Ectoderm Mesoderm COELOM Endoderm Lumen of gut Any triploblastic organism which has a TRUE body cavity is said to be a (eu)coelomate...

PHYLUM ANNELIDA 3 CLASSES: Polychaeta CLASS Oligochaeta CLASS Hirudinea CLASS

PHYLUM Annelida CLASS Polychaeta A Note parapodium w/ setae & acicula (A). Parapodia are used for locomotion, sensory purposes & respiration. [fig 6.3-A]

PHYLUM Annelida EC CLASS Polychaeta. Esophagus EC MP Polychaete dissection. Note esophageal caeca (EC) and muscular pharynx (MP). Remember, polychaete worms have parapodia (which look like fins ) [fig 6.4]

This image is a give-away.it is usually on an exam. What is this?

PHYLUM Annelida CLASS Oligochaeta Dorsal blood vessel Typhlosole Coelom Note typhlosole. This increases the surface area to aid in absorption of the food in the intestine that has already been digested although some scientists still claim that the typhlosole may also play a part in digestion itself. [fig 6.8]

PHYLUM Annelida CLASS Oligochaeta C N Note longitudinal & circular muscles, nephridium (N), and the coelom (C). [fig 6.8]

You gave them a bath You gave them some bubbly And then you put them to sleep. So that you could rip their guts open! What were they?

HYLUM Annelida CLASS Oligochaeta. Earthworm dissection [fig 6.7] Pharynx (P) Esophageal region (P - G) w/ pseudohearts Nephridia Gizzard (G)

They are not all blood-suckers.

? PHYLUM Annelida CLASS Hirudinea A B? (A) Preserved organism (B) whole mount Note segmentation (annuli), as well as the 2 suckers. [fig 6.9]

O PHYLUM Annelida CLASS Hirudinea A B T (O) Long slender ovary (T) Round testis

PHYLUM ARTHROPODA 4 SUBPHYLA: SUBPHYLA Trilobitmorpha SUBPHYLA Crustacea SUBPHYLA Chelicerata SUBPHYLA Uniramia (not on Midterm)

SUBPHYLUM Trilobitmorpha Trilobites are the most diverse group of extinct animals preserved in the fossil record.

PHYLUM ARTHROPODA SUBPHYLUM Crustacea 5 CLASSES: (BOCCM) CLASS Branchiopoda CLASS Ostracoda CLASS Copepoda CLASS Cirripedia CLASS Malacostraca

Subphylum Crustacea to recap Class Malacostraca SAID..»Order Stomatopoda»Order Amphipoda»Order Isopoda»Order Decapoda

SUBPHYLUM Crustacea Class Cirripedia Class Copepoda Class Ostracoda Class Branchiopoda Lung feet Fairy Shrimp Class Malacostraca Acorn & Stalked Barnacles Largest class 4ORDERS Stomatopoda = Mantis Shrimp Isopoda = Rolly polies & Giant Sea Roach Amphipoda Beach Hoppers & Sand Fleas Decapoda Crabs, Lobsters etc..

Can you remember how to tell a male from a female crayfish? 1st pleopod is reduced or absent in females

SUBPHYLUM Crustacea The male crab has the T-shaped abdomen whereas the female abdomen is much broader Any dissected crab in the lab will not be stained like this but you should be familiar with the structures..

PHYLUM ARTHROPODA SUBPHYLUM Chelicerata 3 CLASSES: CLASS Arachnida CLASS Merostomata (Horsehoe crabs) CLASS Pycnogonida (Sea spiders)

Arachnida SUBPHYLUM Chelicerata Acarina Merostomata Arachnida Araneae

TAGMOSIS Chelicerata Crustacea Prosoma & Opisthosoma Cephalothorax & Abdomen The line delineating the head from the thorax in the cephalothorax is the cervical groove.

COMPARISON Qs A. How many of the following organisms are at the organ level of organization? B. Give the letter(s) of the organism(s) that has(have) a CLOSED circulatory system. Compare traits and systems such as circulatory, excretion, reproduction etc. and group Phyla when studying!!!

Body Types Asconoid, Syconoid, Leuconoid PHYLUM Porifera Body Forms Medusa vs. Polyp. PHYLUM Cnidaria

Level of Organization Cell - PHYLUM Porifera Tissue - PHYLUM Cnidaria Organ - PHYLUM Platyhelminthes onward

Tissue Layers Diploblastic - 2 Cell Layers PH - PHYLUM Cnidaria Triploblastic - 3 Cell Layers PH- PHYLUM Platyhelminthes onward

Coelom Formation Acoelomates (2 phyla) Pseudocoelomates (2 phyla) (Eu)Coelomates (6 phyla) We are only dealing with two eucoelomate phyla this practical exam

Acoelomates -PHYLUMPlatyhelminthes -PHYLUMNemertina Pseudocoelomates -PHYLUMNematoda -PHYLUMRotifera (Eu)Coelomates -PHYLUMAnnelida -PHYLUMArthropoda PHYLUM Mollusca PHYLUM Bryozoa PHYLUM Echinodermata PHYLUM Chordata

Digestive System Incomplete (no anus) PHYLUM Cnidaria PHYLUM Platyhelminthes Complete PHYLUM Nemertina onward

These are the types of comparison or concept questions that might appear on the practical. This list is by no means exhaustive Good Luck! From: Dr. Naylor Professor (The witty Brit) Me Lab Coordinator Tim Swain Honcho Brendan, Sarah, Brian & Allison -TAs