COMPANA Parade of the Fishes PDF

Summary

This document provides an overview of fish classification, from the traditional taxonomy to modern cladistic approaches. It includes phylogenetic information, traditional taxonomy, phylogenetic history of vertebrates and Fish classification, and details on different types of fish.

Full Transcript

COMPANA
S.Y. ‘24 - ‘25 | SEM 1 | KARDONG 2019 WEEK 1: FISH

– WEEK 3 – Class Aves
1.0 PARADE OF THE FISHES IN TIME AND Class Mammalia

TAXA PART 1
1.4 CLADISTIC CLASSIFICATION OF THE
CHORDATES
1.1 LECTURE OUTLINE
Some traditional taxa are no longer used
I. Fishes
A. Superclass Agnatha
B. Class Placodermi placoderms
bony fishes
C. Class Acanthodii
D. Class Chondrichthyes
E. Class Actinopterygi
F. Class Sarcopterygi
sawedeaginous

1.2 PHYLOGENETIC HISTORY OF
CRANIATES

criteria allowed classify as
five common
to

phylum chordata
1.5 FISH
used aquatic animals
o
"Fish" has many usages extending beyond
what are actually considered fishes today (e.g.,
starfish, etc.)
G echinoderm
increase in
common ancedor A modern fish
-S ○ GAquatic vertebrate with gills, limbs (if
present) in the form of fins, and
Sudden increase 2
in forsil evidence
usually with a skin covered in scales
at the layer of of dermal origin
not all descendants are
cambrian 1.3 TRADITIONAL TAXONOMY OF LIVING -
period included in this
CHORDATES Do not form a monophyletic group
posses vertebral column classification
○ In an evolutionary sense, can be
Phylum Chordata A not form vertebra
defined as all vertebrates that are not
○ Subphylum Vertebrata & Jawless fishes tetrapods
Superclass Agnatha ○ Common ancestor of fishes is also an
Class Myxini ancestor of land vertebrates grouping of
fishes not
Class monophyletic
Cephalaspidomorphi jawed Pure cladistics would make land vertebrates
Superclass Gnathostomata ↑ fishes "fish"- a nontraditional and awkward usage
Class Chondrichthyes
Class Actinopterygii fishes
The grouping of fishes is not monophyletic
actually excluding all the teresstrial animals
Class Sarcopterygi
Class Amphibia form this goruping
Class Reptilia
jparapuletic
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descendants remove
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phagfishes
Class Myxini
1.6 CLADOGRAM OF FISHES
Class Cephalaspidomorphi
Order >
-
lamprey
Petromyzontiformes
Order
--c
Cephalaspidiformest
Order
Anaspidiformest

2.2 OSTRACODERMST -
common ancestor
of AGNATHA

Earliest known vertebrate fossils
Armored jawless fishes that are small and
lacked paired fins
Bottom-dwelling organisms from the Late
Cambrian
○ Sucked up organic material from the
sediment like vacuum cleaners
2.0 FISHES: SUPERCLASS AGNATHA Extinct by the Devonian
○ Could not compete with otherjawed
=
Jawless Fishes fishes
Includes the extinct heavily armored ○ Because the jawed fishes or
ostracoderms (common ancestor) and the gnathostomes started to evolved this
living hagfishes and lampreys fishes have better way in getting food
All other craniates are gnathostomes and compete successfully

Do not possess jaw
Cannot grasp their food, they have to sucker
like apparatus to get their food
With the lack of jaw this limits food option and
this makes them quite small
They also lack paired fins, not very active their
movement

2.1 TAXONOMY OF SUPERCLASS AGNATHA &
most are
Subphylum Vertebrata
extinct
○ Superclass Agnatha -
Class Pteraspidomorphit
Order
530-million-year-old fossils were discovered in
Pteraspidiformest
the Chengjiang (china) deposits belonging to
Order
fishlike vertebrates
Thelodontiformes+
○ Myllokunmingia
Order
Galeaspidiformest
○ Haikovichthys E

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These fossils push back the origin of ○ Nearly blind and locate food by an
vertebrates to at least the Early Cambrian acute sense of smell and touch
period
Show many vertebrate characteristics Circulatory system includes three accessory
including a heart, paired eyes, otic capsules hearts in addition to a heart behind gills
and rudimentary vertebrae

Hagfishes do not have solid vertebra their
notochord persist up to adulthood this allows
them to be flexible

2.3 LIVING AGNATHANS 2.5 CLASS CEPHALASPIDOMORPHI
LAMPREYS
All lampreys in Northern Hemisphere belong to
Include hagfishes (Class Myxini) and lampreys
no the family Petromyzontidae
(Class Cephalaspidomorphi)
narsolid but erfebra
Marine lamprey Petromyzon marinus occurs
Members of both groups lacks jaws, internal
on Atlantic coastlines and grows to a length of
ossification, scales or paired fins
one meter

Both groups share porelike gill openings and Half of species belong to nonparasitic
an eel-like body * water exit brook-dwelling species (they attract
t or prey
-

other animal)
Recent molecular analysis shows lampreys -

and hagfishes forming a monophyletic unit

2.4 CLASS MYXINI HAGFISHES
live
Entirely marine (salt-water marine)
Nutrition and feeding (wor, like vacuum
cleaner)
○ Scavengers and predators of annelids,
molluscs, dead or drying fishes, etc.
○ Enters dead or dying animal through
mouth - orifice or by digging inside using

keratinized plates or tongue

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the
anticoagulant infuse by the lamprey
Notochord that commence from the midbrain
cause them
and continues to the end of the body (no
to bleed vertebral column)
out
Dorsal hollow nerve cord develops as of the
amphioxus but with a tripartite brain

Seven pair of gill slits open to the exterior for
respiration

2.6 AMMOCOETES LARVA larval form of 2.7 PARASITIC MARINE LAMPREYS
a
lamprey
Eggs hatch in two weeks into ammocoetes Migrate to the sea (catadromous life cycle)
larvae ○ Fish born in salt water migrate to fresh
Lives first on yolk supply and drifts water as juvenile back to ocean
downstream to burrow into sandy areas to spawn
Suspension-feeder until it metamorphoses Attach to a fish by a sucker-like mouth
into an adult ○ Sharp teeth rasp through flesh as they
○ Eruption of eyes suck fluids
○ Keratinized teeth replacing the hood -
○ Inject anticoagulant into a wound
○ Enlargement of fins
○ Maturation of gonads When engorged, lamprey drops off but wound
○ Modification of gill openings may be fatal to fish to freshwater
marine
Parasitic Freshwater Lampreys freshwater to marine
Adults live 1 - 2 years before spawning and
dying
salmon Anadromous forms live 2 - 3 years
fish born freshwater

2.8 NON-PARASITIC LAMPREY

Do not feed
○ Digestive tract degenerates as an
adult
○ Once their undergo metamorphosis to
become adult form, they have enough
nutrients in their body so that they can
spawn, after spawning just like salmon
they will die

They spawn and die

main in life is to
purpose
reproduce
Juvenile stage
five characteristic
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4.0 FISHES: CLASS CHONDRICHTHYES

About 970 living species
Smaller and more ancient group
some
Well-developed sense organs, powerful jaws,
and predaceous habits helped them survive
They only have cartilage not mineralize
True bone is completely absent throughout bowls
the class
mineralization
have
some

Phosphatized mineral tissues retained in teeth,
scales, and spines

4.1 TAXONOMY OF CLASS
CHONDRICHTHYES
3.0 FISHES: CLASS PLACODERMI
Class Chondrichthyes
○ Subclass Elasmobranchii
3.1 GNATHOSTOMES
Order Cladoselachiformes †
Order Squaliformes
Development of jaws in primitive fishes Order Rajiformes
Derived from the pharyngeal arches for Order Carcharhiniformes
prey-grasping and biting Order Lamniformes
Possess two paired fins or Order Myliobatiformes
Enjoyed more active life Y balance and 9 other extant taxonomic
Orders
3.2 CLASS PLACODERMI: PLACODERMST ○ Subclass Holocephali

Already extinct but Present during the 4.2 REPRESENTATIVES OF CLASS
Paleozoic CHONDRICHTHYES
scientific name

Represent the sister group to chondrichthyes w/ common name
(cartilaginous fishes) and telosts (bony fishes)
which evolved from ostracoderms

Had paired pectoral and pelvic fins

allow them to mannever in water

=

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4.3 SUBCLASS ELASMOBRANCII 4.5 DIGESTIVE SYSTEM
they have several rows of teeth
Order Carcharhiniformes Upper and lower jaws equipped with sharp,
○ contains the coastal tiger shark and triangular teeth that are constantly replaced
bull shorks and the hammerhead
shark Mouth opens into large pharynx, containing
○ Order Lamniformes ‘contains large, openings to gill slits and spiracles (remnant of
-
pelagic sharks such as the great white the first gill slit)
-
shark and mako shark
Order Squaliformes Short esophagus runs to stomach
○ contains dogfish sharks liver and pancreas
Order Rajiformes
odischarge into short, straight intestine
○ contain skates
Order Myliobatiformes Spiral valve in intestine slows passage of food
○ contains several groups of rays and increases absorptive area this allow more
(stingrays, manta rays, etc.) time for absorption
4.6 SENSE ORGANS of nutrients
4.4 INTEGUMENTARY SYSTEM
Lateral eyes are lidless
Body is fusiform longer Paired nostrils are associated with olfaction
Tough, leathery skin with placoid scales - dorsal short Prey can also be located from long distances
reduce water turbulence - ventral sensing low frequency vibrations in the lateral
An asymmetrical heterocercal tail for thrust line - consists of neuromasts in
and lift in water interconnected tubes and pores on side of
Vertebral column turns upward and extends body, this allows them to sense vibrations int
into dorsal lobe of caudal fin the water
○ THEY DO NOT CLOSE THEIR EYES
Fins
located Electroreceptors, the- ampullae of Lorenzini,
Paired pectoral and pelvic fins head
in are located on the shark's head
○ In males, the medial part of the pelvic ○ Electro receptor
fin is modified to form a clasper used ○ Sense electrical charges or energy in
in copulation the water
One or two median dorsal fins; one median
caudal fin
Sometimes a median anal fin

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Respiratory water enters through large
spiracles on top of the head then push to
the gills
&
Teeth adapted for crushing prey
○ Molluscs, crustaceans, and
sometimes small fish
Stingrays
-
○ Have whiplike tail with spines and
&venom glands could paralyzed
Electric rays
-

○ Have large electric organs on each
side of head
electricity not strong
4.9 SUBCLASS HOLOCEPHALI
4.7 REPRODUCTION
because there is a Fossil chimaeras
○ First occurred in the Mississippian
Fertilization is internal clarper / copulation period, reached a zenith in the
In terms of Cretaceous and early Tertiary, and
Maternal support of embryo is variable
then declined
specie gives
Oviparous
eggs hatch outside the
birth to an egg Mouth lacks teeth
mother's body
○ Equipped with large flat plates for
an hatches outside "Mermaid's purse" capsule
- crushing food
encasing eggs
○ Upper jaw fused to the cranium
-
Ovoviviparous
○ Feed on molluscs, echinoderms,
the embryo develops within
crustaceans, and fish
the uterus and is nourished by
the egg yolk
Scales are absent
-
Viviparous -

the embryo develops within
similar to the uterus and is nourished 5.0 BONY FISHES
through a yolk sac placenta
human -

from the mother's blood Fishes with bony endoskeletons gave rise to a
-

clade that contains 96% of living fishes and all
living tetrapods
4.8 RAYS they have
be cause
a flatten ventral 3 features unite bony fishes and tetrapod
More than half of elasmobranchs are rays portion descendants
Endochondral bone replaces cartilage to
Most specialized for benthic life during development-buoyancy mineralize
○ They live in the floor of the ocean or Lung or swim bladder is present -
the sea
exchanges
evolved as an extension of gut
Have several cranial and dental
Dorsoventrally flattened body and enlarged
of
gases characters unique to clade
pectoral fins used to propel themselves
○ Wings of the ray a motivation of
pectoral fin

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6.0 FISHES: ACTINOPTERYGII

Ancient and modern bony fishes whose
membranous fins are supported by slender fin
-

rays radiating from basal skeletal elements
-

within the body wall - fins are not lobed

Gill slits are covered by a bony operculum
Do not define a natural group and is a term of -

Air sac or swim bladder is usually present
convenience rather than a valid taxon -

Internal nares are lacking
Spumping
-

of water inside
G
Bony operculum (bone that covers their gills)
Paleozoic era, bony dermal armor and scales
and branchiostegal rays associate them with
were overlain with a form of enamel called
acanthodians
ganoin

Operculum increased respiratory efficiency
○ Helped draw water across gills
&
Caudal fins are heterocercal like sharks
however Both traits have disappeared in more recent
○ Extraction of oxygen by the gills to be
modern species
more efficient in
I
species Can be divided into basal group and
Neopterygii
Gas-filled structure off the esophagus
↳ more moder new species
○ Helped in buoyancy and also in
hypoxic waters extracting
oxygen
○ In fishes that use these pouches for 6.1 TAXONOMY OF CLASS ACTINOPTERYGII
respiration
C
pouches are called lungs Class ActinopterygiI
○ In fishes that use these pouches for ○ Subclass Chondrostei
buoyancy Order Paleonisciformes+
pouches are calledO swim Order Polypteriformes
- bladders Order Aceipenseriformes
Specialization of jaw musculature improved ○ Subclass Neopterygi
feeding Order Lepisosteiformes
Order Amiformes
By the middle Devonian, bony fishes developed ○ Division Teleostei I traditional or cladistic
into 2 major lineages Order Clupeiformes
Order Cypriniformes
C
Ray-finned fishes, class Actinopterygi, Order Anguilliformes
radiated to form modern bony fishes Order Gadiformes
-

Order Perciformes
Lobe-finned fishes, class and more than 30 additional
extant orders
-

Sarcopterygii, include lungfishes and
the coelacanth

class under
major
bony fishes

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6.2 REPRESENTATIVE OF CLASS
ACTINOPTERYGII 6.5 ORDER ACEIPENSERIFORMES:
CHONDROSTEONS to
freshwaterit water
27 species of freshwater and anadromous

i
sturgeons and paddlefishes

ancient Dam construction, overfishing, and pollution
have led to their decline

new

6.3 SUBCLASS CHONDROSTEI

Retained a heterocercal tail, spiracle and some
other plesiomorphic features but have lost the
heavy ganoid scales
Haye highly modified jaws and jaw-suspension
systems
Sturgeons and Chinese paddlefish are
suction-feeding predators while the North
American paddle-fish are pelagic filter-feeders
theyothy not on the
6.4 ORDER ACEIPENSERIFORMES: BICHIRS surface 6.6 SUBCLASS NEOPTERYGII
of the
In the clade Cladista ocean
Appeared in late Permian and diversified extensively
Have lungs, heavy ganoid scales, and other but a
bit during the Mesozoic
characteristics similar to the paldeoniscids little
deeper
16 species of which all live in the freshwaters 3 surviving early neopterygians are the bowfin,
of Africa still
but fed gars and Atractosteus

penetrasun ○& Gulp air
○ Use the vascularized swim bladder to
by
&supplement gills
One lineage gave rise to the modern bony
fishes: Teleost

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bonsues

6.9 DIVISION TELEOSTEI Moder fishes
Dermal scales have become very thin and
flexible
Dermal bones of the skull are generally thinner
and more numerous that in other bony fishes
Jaws and palate have become more
independently maneuverable
Pelvic fins is more forward
6.7 ORDER LEPISOSTEIFORMES: GARS >
- Homocercal tail
same length
Consists of seven living species of gars
restricted to eastern North and Central
America
Elongate jaws and teeth, thick rhombic scales,
posterior placement of anal and dorsal fins
Have lurking predatory habits
quiet when

posterior they swim mudskipper 8 sharksucker
Redlion fish
7.0 FISHES: CLASS SACROPTERYGII

Ancestor of tetrapods
○ Group tf extinct sarcopterygian fishes
called rhipidistians direct ancestor
Early sarcopterygians
○ Had lungs, gills, and a
heterocercal-type tail
6.8 ORDER AMIIFORMES: BOWFINS
○ During the Paleozoic, tail became a but

Consist of the only living North American
during &-
symmetrical diphycercal tail same
○ Had powerful jaws, heavy, enameled
leath ona
in
lobe
Paleozoic
bowfin
scales, and strong, fleshy, paired lobed middle
Inhabit backwaters of rivers and ponds
fins
Stout-bodied predators with thin, round scales
Have an internal nares that open into the
and slightly heterocercal tail
oropharyngeal cavity
Have elongate, bow-shaped dorsal fin
Retain a gas-filled air sac help
buoyancy
Breathe air and can live for long periods of
Gill slits are covered by a bony operculum that
time out of the water
grows caudad from the 2nd pharyngeal arch

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The Pre-Devonian ancestors are unknown
7.4 RHIPIDISTIANS

7.1 CLASS SACROPTERYGII Mostly extinct group of lobe-finned bony fishes
Skeletal elements of fin lobes corresponds to
Two major clades: represented by 8 fish
-
proximal skeletal elements of early tetrapod
species
- limbs
○ Actinistia: coelocanths (2 species) Skull was similar with that of early amphibians
direct ancestor
-

○ Rhipdistia: lungfishes (Dipnoi) (6 Had air sacs that are probably used
of tetrapods
-

species) occasionally as lungs
Rhipidistians flourished in late Paleozoic and Most had internal nares
then most became extinct
○ Include ancestors of tetrapods

ancestor of
Jetrapods
common

older than lungfishes

7.2 TAXONOMY OF CLASS SARCOPTERYGII

Class Sarcopterygii
○ Superorder Crossopterygi
○ Superorder Dipnoi

7.3 SUPERORDER CROSSOPTERYGII:
7.5 SUPERORDER DIPNOI:-
LUNGFISHES
COELACANTH
-

Australian lungfishes, unlike close relatives,
Arose in the Devonian, radiated, reached
rely on gill respiration and cannot survive long
a peak in the Mesozoic, and dramatically
-
out of water
declined
-
South American and African lungfish can live
Thought to be extinct 70 million years, a -

out of water for long periods of time
specimen was dredged up in 1938 -

More were caught off coast of the Comoro
Islands and in Indonesia

Living coelacanth is a descendant of Devonian
freshwater stock
Tail is diphycercal with a small lobe between
the upper and lower caudal lobes
Young coelacanths born fully formed after
hatching from eggs up to 9 cm in diameter
can live out of water

Diphycercal
time
for
long period of

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