Chordates and Marine Fish PDF

Summary

This document provides an overview of chordates and marine fish, encompassing various sub-groups like tunicates, lancelets, jawless fish, and bony/cartilaginous fish. It details their characteristics, feeding mechanisms, gas exchange, osmoregulation, and reproductive behaviors. The content is suitable for secondary school biology students.

Full Transcript

UNIT 7: CHORDATES AND MARINE FISH
Domain: Eukarya
Kingdom: Animalia
Phylum: Chordata
Subphylum: Urochordata (tunicates)
Subphylum: Cephalochordata (lancelets)
Subphylum: Vertebrata (fish, reptiles, birds, mammals)

Characteristics
dorsal hollow nerve cord
notocord
pharyngeal gill slits
endostyle or thyroid
post anal tail

note: all chordates possess these characteristics at some point in their life
Tunicates

Domain: Eukarya
Kingdom: Animalia
Phylum: Chordata
Subphylum: Urochordata
also known as sea squirts
Characteristics
only sessile chordate
tunic (gelatinous outer covering)
filter feed (incurrent and excurrent siphons)
marine

note: only larvae possess all three chordate characteristics, adults retain only the gills

Lancelets

Domain: Eukarya
Kingdom: Animalia
Phylum: Chordata
Subphylum: Cephalochordata

also known as amphioxus

Characteristics
retain all three chordate characteristics throughout life
filter feed
marine
Agnathans, Bony Fish and Cartilaginous Fish

Domain: Eukarya
Kingdom: Animalia
Phylum: Chordata
Subphylum: Vertebrata
Supraclass: Agnatha (jawless fish)
Class: Myxini (hagfish)
Class: Cephalaspidomorphi (lamprey)
Supraclass: Gnathostomata (jawed fish)
Class: Chondrichthyes (cartilaginous fish)
Class: Osteichthyes (bony fish)

Characteristics
dorsal row of hollow vertebrae (backbone)
bilaterally symmetrical (sagittal)
endoskeleton
Jawless Fish

Supraclass: Agnatha

Characteristics
eel like body (elongate)
median fins
lack a jaw lamprey
oral or buccal funnel (sucking mouth)
no scales
cartilaginous skeleton
lamprey
parasitic
dorsal nasal opening
live in fresh or salt water
hagfish
scavengers
no dorsal nasal opening
live in salt water
barbels hagfish
Jawed Fish (Bony)

Class: Osteichthyes

Characteristics
fresh and salt water
calcium based skeleton
overlapping calcium based scales
operculum (gill flap)
protects gills and aids in respiration
swim bladder
maintain buoyancy
mouth is terminally located
caudal fin lobes are the same size
paired fins with rays
lateral line
sensory
age can be determined by the annular rings on the scales, vertebrae or otoliths
reproduction; internal fertilization (copulation) or external fertilization (spawning)
hermaphroditic or non hermaphroditic
oviparous (lay eggs)
ovoviviparous (egg "hatches" internally and offspring are born live)
Jawed Fish (Cartilaginous)

Class: Chondrichthyes

Characteristics
fresh and salt water
cartilage based skeleton
non overlapping placoid scales (dermal denticles)
no operculum (gill slits instead)
directly open
aid in respiration
large oil filled liver
maintain buoyancy
mouth is ventrally located
upper caudal fin lobe is larger than the lower lobe
paired fleshy fins
sensory system is efficient
lateral line
Ampullae of Lorenzini
excellent olfaction
vision is poor long distance, good short distance
skates and rays have spiracles
rows of triangular teeth
reproduction; internal fertilization
males have claspers
oviparous or ovoviviparous
Body Design and Locomotion

Body Shape
bony fish
fusiform
compressed (flattened vertically)
depressed (flattened horizontally)
elongate
cartilagnious fish
fusiform
flattened

Caudal Fins
bony fish
rounded
truncate
forked
lunate
cartilaginous fish
heterocercal

Body Fins
pectoral (paired)
steering
dorsal
vertical stability (like a sail)
caudal
propulsion
pelvic (paired)
accessory fins
anal (sometimes paired)
vertical stability (like a keel)

Locomotion
"S" motion (not "J" motion like a dolphin)
rhythmic contractions of myomeres
(muscle fibers/filet)

Adaptations for Speedy Fish
forked or lunate caudal fins
fusiform body shape
retractable dorsal fin
pectoral fins are flush with the body
reduced scales
eyeballs flush with the body
large heart (relative to body size)
high percentage of myoglobin (high energy output)

note:
rays and skates have pectoral fins that are large and wide (wing like)
rounded, truncate fins are good for turning and bursts, poor for maintaining speed
forked and lunate tails are good for maintaining speed, poor for turning
Coloration and Color Changing

Uses of Color
camouflage
warning
species recognition
false message

Types of Camouflage
cryptic coloration
blend in with the environment
examples: halibut, sculpins, blennies
disruptive coloration
breaks up body outline
examples: grouper, clownfish, zebra damsel
countershading
dark dorsal, light ventral
examples: tuna, great white shark
mimicry
appear to be something else
examples: stonefish, false cleaner wrasse

Color Producing Cells
chromatophore
skin cell containing pigment
irregular branching shape
pigments may include yellow, red, orange or black
iridophore
skin cell containing guanin
light reflects off of crystals in the guanin
makes the fish appear to be iridescent (structural color)
Feeding and Digestion

Bony Fish
predatory
actively hunt and ambush prey
barracuda, piranhas, moray eels
grazing
feed on algae or marine debris
reef fish
scavenging
feed on decaying organic matter (carcasses)
remoras, eels

mouth --> esophagus --> stomach --> intestine --> anus
* pancreas adds digestive enzymes and liver adds bile to break down fat

greatwhite
Cartilaginous Fish
predatory
actively hunt and ambush prey, using a variety of techniques/strategies
great white, thresher, hammerhead, electric ray
filter feeding
process water over the gills to remove small planktonic material
whale shark, manta ray

mouth --> esophagus --> stomach --> intestine (with spiral valve) --> anus
* spiral valve adds surface area to intestine for more absorption of nutrients
Gas Exchange

Irrigation of the Gills

Bony Fish
with the opercula closed, the mouth opens and water flows in
the mouth closes and the opercula opens and water flows out
all gills reside in a single gill chamber

Cartilaginous Fish
open and close mouth to move water over gills
each gill resides in a separate gill chamber which opens to the outside
through a separate gill slit
gill arch
supports gill filaments
gill rakers
prevent debris from entering gills
gill filaments
absorb oxygen
lamellae
increase surface area

gasexchange
Countercurrent Exchange

oxygen level in the water must always be higher than the oxygen level in the blood
for it to diffuse into the blood
blood and water flow in opposite directions for gas exchange to work

note: carbon dioxide works the same way

rete mirabile: maintains gradient
hemoglobin: protein that carries oxygen in the blood
myoglobin: protein that carries oxygen in muscle tissue
Osmoregulation

Hypertonicity

goal is to avoid dehydration
bony fish swallow saltwater or absorb it through their gills
the kidneys filter out excess salts
bony fish excrete small amounts of highly concentrated urine
in doing so the concentration of salts in the ocean and in the fish
become relatively equal (isotonic)
this process requires energy

cartilaginous fish excrete urea
Behavior and Reproduction

Territories
areas defended against to protect limited resources clownfish
some fish defend territories only during a breeding season
some fish defend permanent territories
territories are most common in crowded areas where competition is high

Schooling
traveling in a group
size varies depending on species
fish keep a constant distance between each other
coordination is lost feeding or are attacked
protection and increased swimming efficiency
Migration
regular movements from one location to another
occurs daily, yearly or once
occurs vertically, across oceans or from ocean to freshwater
salmon
anadromous: fresh to salt water (salmon)
catadromous: ocean to freshwater (freshwater eel)

Reproduction seahorse
anatomy
cloaca (bony and cartilaginous fish)
also known as a urogential opening
claspers (cartilaginous fish)
males have two they use to produce/deliver sperm
courtship
includes nest building, color change, drumming
flashing, fin twisting, swimming in patterns
mating
copulation
press cloacas together
sperm fertilize eggs internally
spawning
eggs are released and fertilized externally mermaids' purses

ovoviviparous (eggs hatch internally, young born live)
oviparous (eggs are laid either fertilized or unfertilized)