cnidarians, Porifera, platyhelminthes

Question 1

evolutionary cladogram

Answer 1

sponge
-tissue 
-radial symmetry
cnidarians
-protostome
-three cell layers 
flat worm
-psuedocoloem
round worms
-coloem 
mollusk
annelids
anthropoids
-deuterostome
chordates
-radial symmetry
echinoderms

Question 2

difference between protostome and deuterostome

Answer 2

the blastopore in the blastula develops into the mouth for protostomes and the blastopore in deuterostomes develops into the anus and the mouth develops second

Question 3

porifera characteristics and role

Answer 3

-loose collection of cells
-filter feeders
-no mouth gullet or specialized tissue
role
-symbiotic relationships with bacteria and protists
-food for fish
-chemicals secreted can be used as antibiotics and antiviral drugs

Question 4

sponge cells

Answer 4

osculum- hole at the top
central cavity-middle
pore cell- surrounds pore
choanocyte-use flagella to move water and take in food
spicule- skeleton
archaeocyte- make spicules and digest food
epidermal cell-outside cell

Question 5

animal characteristics 7

Answer 5

-heterotrophs -eukaryotic -multicellular with no cell walls -reproduce sexually -respond to stimuli quickly due to nerve and muscle cells -movile -veterbrates or inter vertebrates

Question 6

division of labor

Answer 6

cells become specialized and must do the 8 life activities

Question 7

trends in evolution

Answer 7

1. tissue-organ-system
2. anterior, and posterior. a dorsal and ventral surface.
3. radial symmetry to bilateral symmetry
4. cephalization-nerve cells grow in ganglia and create the brain
5. body plan- tube within a tube

Question 8

cnidarians or coelenterates (8)

Answer 8

• ingests and egests through mouth
• radial symmetry
• tentacles with nematocysts
• tissue
• two cell layers (ectoderm/ endoderm)
• hermaphrodite
• gvc
• polyp and medusa phase

Question 9

classes of cnidarians

Answer 9

hydrozoa- (hydra) spend most of their life as polyp and short stage as medusa
scyphozoa- jellyfish - large medusa phase
anthozoa- coral and only have polyp stage in life

Question 10

hydra

Answer 10

sticks to rocks with basal disk has two cell lakers -and there is mesoglea between the two layers which gives rise to nerve cells

Question 11

hydra (feeding)

Answer 11

nematocyst (only discharged once) (inside nematocyst) is injected into prey and numb it. tentacles wrap around the prey and pull it into the mouth and GVC

Question 12

hydra (digestion)

Answer 12

GVC gland cells secrete digestive enzymes and break down food in extra cellular digestion. then amoeboid cells take food into food vacuoles in intracellular digestion.

Question 13

hydra (reproduction)

Answer 13

asexual reproduction-budding- GVC is continuous throughout adult and bud.
sexual reproduction-testes and ovaries bulge out (like a bud). ripened eggs grow and break through surface then sperm fertilizes the egg. the egg develops into a grastula, hardens and drops off.

Question 14

hydra (behaviour)

Answer 14

nerve net is more concentrated at mouth.it has no brain.and the nerve cells arise in the mesoglea. the whole body responds to stimuli when muscle cells contract or expand bodies move. stimuli received by sensory cells which send impulses to nerve net then to muscle or gland cells

Question 15

hydra (locomotion)

Answer 15

basal disc- creeping amoeboid cells or move by somersaulting motion

Question 16

hydra excretion

Answer 16

diffuse into water or GVC

Question 17

hydra secretion

Answer 17

gland cells secret enzymes in GVC

Question 18

hydra respiration

Answer 18

diffusing oxygen and carbon dioxide

Question 19

obelia

Answer 19

repeated budding- an individual colony is a polyp that are protected by a horny covering (similar to hydra)

Question 20

obelia (feeding)

Answer 20

same as hydra with tentacles and nematocysts

Question 21

obelia (reproduction)

Answer 21

asexual budding
sexual reproduction- there are feeding polyps and reproductive polyps with no tentacles that just make little medusas. medusa has 4 gonads which are either male or female. it sheds its sperm or eggs and the egg will get fertilized and develop into a ciliated lark and settle on a rock and start a new colony.

Question 22

coral reefs

Answer 22

provide homes for food and shells and protect the land from waves, they can show humans where oil is and they can be used to make homes and filter water.

Question 23

aurelia

Answer 23

very long medusa stage- scyphozoa

Question 24

alternation of generations

Answer 24

alternating between asexual(budding polyp) and medusa(sexual)

Question 25

life activities for cnidarians

Answer 25

ingestion- nematocysts with tentacles
digestions- gland cells secrete enzymes into GVC and break down prey (extracellular) then amoeboid cells develop food vacuoles and digest the prey (intracellular)
egestion-out mouth
excretion-diffuse into water or GVC
Secretion-gland cells in gcc
locomotion- wiggle- medusa swim
reproduction-sexual and asexual 
metabolism- chemical reactions

Question 26

platyhelminthes

Answer 26

flat worm with three layers and have bilateral symmetry. cephalization, hermaphrodites, have a mesoderm containing organs but it is isolated from the environment , the compensation is being flat having a branched GVC and flame cells.

Question 27

planaria (body plan)

Answer 27

mesoderm in the middle, organ level of organization

Question 28

planaria (digestion)

Answer 28

mouth is in the middle of the ventral surface where the pharynx protrudes out of the mouth, it is made of muscle and gland cells and it is inserted into prey (small animal or dead animal) and it secreted enzymes to soften the prey then digest it. digestion is the same as hydra it has a GVC uses extracellular and intracellular digestion

Question 29

planaria (excretion)

Answer 29

ectoderm and endoderm just diffuse into environment but mesoderm requires flame cells. cilia beats and body fli=uid is drawn into the flame cells, passed through the excretory canal and out the excretory pore, they are analogous to contractile vacuoles.

Question 30

planaria (reproduction)

Answer 30

ovaries and testies are in the mesoderm (hermaphrodites) cross fertilization can occur. yolk glands nourish eggs. penis extends into genital chamber and transfers sperm for mating- the copulatory sac is where the egg is fertilized and then released in the water where eggs will hatch.
ovary attached to oviduct, with yolk glands along and testies which runs along the sperm duct. theres the copulatory sac, then penis then genital chamber and finally genital pore.

Question 31

planaria (nervous system)

Answer 31

central nervous system. cephalization has occurred and the nerves grow in a ganglia at the eyes creating a brain. there are two nerve cords that run the length of the body with ladder rungs, and near the head branch out into the sensory lobes. Their eyes are filled with pigment in all but one directions so they can detect the direction of light.

Question 32

tapeworm

Answer 32

long flat and feed on intestines of animals. the beef tapeworm which is similar to to the pig tapeworm has four suckers and a ring of hooks on the scolex. behind the head is a growing region which produces proglottids. the worm is covered in a waxy cuticle.

Question 33

tapeworm (reproduction)

Answer 33

in mesoderm and same proglottid, male and female genitals develop, eggs can be fertilized from the sperm and move into the uterus. when the uterus is full and contains rip eggs, it becomes branched and overwhelms the proglottid. this is known as a gravid proglottid. bellow the ovaries lies the shell gland and the yolk gland.

Question 34

tapeworm (life cycle)

Answer 34

man eats grass with feces. six hooked embryo bores its way into a blood vessel and travels to a muscle and in the muscle a bladder worm grows with an inverted head. then when inside the intestine of a human its head will poke out and attach to the wall of the intestines and live and produce proglottids that contain new embryos.

Question 35

final host

intermediate host

Answer 35

final host- sexually mature

intermediate host- young stages

Question 36

flukes

Answer 36

can be internal or external. not hermaphroditic.

Question 37

blood fluke

Answer 37

shostosomas- not hermaphroditic, live in the blood vessels and feed on blood. lay eggs in blood vessel when they mature they burst the blood vessel and head to the intestine where they are egested in feces into water. ciliated MIRACIDIUM larva feeds on snail. sac called sporocyst produces CERARIAS which can swim and infect humans through their skin.

Question 38

chinese liver fluke

Answer 38

hermaphrodite. has two suckers (ventral and oral) the adult is two centimetres long. it has a protective cuticle surrounding it. the eggs get into intestines and then out into the water through faces. a snail ingests the miracidium (as an egg) and it goes into the tissue of the snail and forms into a sporocyst which produces Redia asexual and one Redia produces many CERCARIAS- which attach to, and get in the muscle of fish, then a human consumes a raw fish and the young fluke emerges from capsule and goes through bile ducts towards the liver.

Question 39

order of tape worm

Answer 39

1. adult attaches to final host
2. mature proglottid
3. fertilization
4. gravid proglottid
5. elimination
6. egg in feed or grass
7. ingested by intermediate host
8. 6 hooked larva
9. encysted bladder worm

Question 40

platyhelmithes evolutionary advancements

Answer 40

bilateral symmetry

cephalization

Question 41

platyhelminthes characteristics 7

Answer 41

flat
3 cell layers
highly branched GVC
hermaphrodites
organs
cephalization
flame cells

Question 42

classes of platyhelmithes

Answer 42

cestoda- tape worm

• flat parasitic , head with suckers and hooks
• have a protective cuticle
• no GVC
• never kill host
• several hosts

turbellaria- planaria

• free living not parasitic
• come in different form/ colours
• cross eyed live in fresh water.

tematoda- flukes

• parasitic
• complex life cycles
• external or external
• include several hosts

Question 43

order of parts of a fluke

Answer 43

oral sucker
esophagus
intestine
genital opening
ventral sucker
uterus
vas deferens
ovary
oviduct
testes