Early fishes_GL_web

Lecture 5 - Early Fishes
Three distinct classes arose
from the ancestors of bony
fishes
•  Acanthodians
•  Sarcopterygians
•  Actinopterygians
Lecture 5
Early Fishes
Class
Subclass
Division
Subdivision
Actinopterygii
Cladistia
Chondrostei
Neopterygii
Lepisosteiformes
Amiformes
Teleostei
Osteoglossomorpha
Elopomorpha
Ostarioclupeomorpha
Euteleostei
Lecture 5 - Early Fishes
Actinopterygii (aka ray-finned fishes)
• 
Cladistia
• 
Chondrostei
• 
Neopterygii
•  Lepisostei
•  Amiformes
•  Teleostei
•  Osteoglossomorpha
•  Elopomorpha
•  Ostarioclupeomorpha
•  Euteleostei
Actinopterygii
Ray-finned fishes
•  Sister taxon of the Sarcopterygians
•  First known from scales in the late Silurian (~420 mybp)
•  3 subclasses: Cladistia, Chondrostei, Neopterygii
•  Previously with Acanthodians & Sarcopterygians formed
Teleostomi
Teleostomi
•  Teleostomi includes
Acanthodians,
Sarcopterygians, and
Actinopterygians
•  however….
Teleostomi
•  Teleostomi is paraphyletic…
•  Relationships in the early
evolution of fishes are still
unresolved
•  Splits between
Chondrichthyes,
Osteichthyans, &
Ancanthodians ~500 mybp
•  occurred quickly
•  there are many
hypotheses…
Actinopterygii
Ray-finned fishes
•  Sister taxon of the Sarcopterygians
•  First known from scales in the late Silurian (~420 mybp)
•  3 subclasses: Cladistia, Chondrostei, Neopterygii
•  Previously with Acanthodians & Sarcopterygians formed
Teleostomi
•  Scales ganoid, cycloid, or ctenoid
Subclass Cladistia
Order Polypteriformes
(Bichirs & Reedfish)
Subclass Cladistia
Order Polypteriformes
(Bichirs & Reedfish)
•  11 spp. bichirs and one
reedfish
•  sister group to all other
Actinopterygians
•  ganoid scales
•  enamel like ganoin
on surface
•  obligate air breathers
Subclass Cladistia
Order Polypteriformes
(Bichirs & Reedfish)
Erpetoichthys calabaricus
Cladistia Distribution
•  limited to west and central
tropical Africa including
Congo and Nile rivers
•  95 mybp
•  unique pectoral fins…
Subclass Chondrostei
(sturgeons and paddlefishes)
•  taxonomic classification is very insecure
•  many extinct orders
•  w/ derived characteristics
•  only one extant order
•  Acipenseriformes
Acipenseriformes
Mostly cartilaginous
Intestine with spiral valve
Fin rays more numerous than their
basal supports
Two extant familes
•  Acipenseridae
•  Polyodontidae
Acipenseridae – (sturgeons)
•  restricted to northern hemisphere – 26 spp.
•  mostly cartilaginous
•  extremely long lived
•  spawn in freshwater
•  bony scutes
barbels
protusible mouth
Acipenseridae – (sturgeons)
Beluga
Huso huso
8.6m & 1300kg
- 118 years old
$5000/kg
1227 kg
female had
245 kg of
caviar
Polyodontidae – (paddlefish(es?))
Polyodontidae – (paddlefish)
Psephurus gladius
Chinese paddlefish
…likely extinct
I hope the caviar was amazing…
Subclass Neopterygii
The “new fins” in town!
Fin rays equal in numbers to their
supports in dorsal and anal fins
Pterygiophores
Lepisosteiformes – (gars)
•  N. & Central America -7 spp.
•  spiral valve
•  air breathers
•  ganoid scales
Lepisosteiformes – (gars)
Alligator gar
Atractosteus spatula
Up to 3m
Amiiformes – (bowfin)
•  sole survivor
•  air breather
•  males guard young
•  sister to Teleost
Amia calva
Amiiformes – (bowfin)
•  “cycloid” scale
•  no ganoine layer, just
particles
•  analogous to teleost
•  spiral valve
Division Teleostei –
“perfect bones”
Division Teleostei
96% of all extant fishes
27 anatomical synapomorphies, no
molecular ones
•  Most important are
modifications to the skull &
caudal skeleton
Four major radiations
- stiffen tail
Division Teleostei
96% of all extant fishes
27 anatomical synapomorphies, no
molecular ones
•  Most important are
modifications to the skull &
caudal skeleton
Four major radiations
•  Osteoglossomorpha
•  Elopomorpha
•  Otocephala
•  Euteleostei
Subdivision Osteoglossomorpha
-  most primitive living teleost
-  well developed teeth on tongue
Two orders:
Hiodontiformes (Mooneye, Goldeye)
Osteoglossiformes
Osteoglossiformes
African butterflyfish
Knifefish
- most speciose family in
subdivision >200 spp. Mormyrid elephantfishes
Pirarucu
Arapaima gigas
obligate air breathers
Osteoglossiformes
Osteoglossiformes
•  males brood young in
mouth 4-6 weeks
•  facultative air breathers
Arowana
Subdivision Elopomorpha
Leptocephalus larvae
Leptocephalus
larvae
Development of
Leptocephalus larva
Elopiformes
tarpons
Anguilliformes
Eels and Morays
Albuliformes
bonefishes
Freshwater eel migration
(anguilllidae)
Anguilla rostrata
- catadromous
Subdivision - Ostarioclupeomorpha
Superorder Clupeomorpha
+
Superorder Ostariophysi
•  Mostly molecular synapomorphies
Superorder Clupeomorpha
Anterior extension of the swimbladder enters the skull
•  can detect low frequency sounds (e.g. tail beats)
Clupeiformes
•  almost all are pelagic
schooling fish
herring
anchovies
Superorder Ostariophysi
Represent 74% of
all freshwater species
Synapomorphies:
Schrekstoff: fright substance hormone
•  given off when specialized dermal cells rupture
Schrekreaction: alarm response
It has been secondarily lost in some fishes
Superorder Ostariophysi
Ostar = small bone, physa = a bladder
Weberian apparatus: a unique series of bones that
connect the gas bladder with the inner ear
Superorder Ostariophysi
divided into two series:
Series Anotophysi
Gonorynchiformes
(milkfishes)
Series Otophysi
Cypriniformes
Characiformes
Siluriformes
Gymnotiformes
Superorder Ostariophysi
divided into two series:
Series Anotophysi
Series Otophysi
Gonorynchiformes
(milkfishes)
Cypriniformes
Characiformes
Siluriformes
Gymnotiformes
Lack Weberian
apparatus
•  more primitive
taxon
Synapomorhpy:
Weberian
apparatus
10,410 spp.
~74% of freshwater
fishes
piranha
Weberian apparatus
catfish
Cypriniformes
4,324 spp. – 594 in last 10 yrs
Characiformes
2,087 spp. – 305 in last 10 yrs
Siluriformes
3,743 spp. – 631 in last 10 yrs
Gymnotiformes
225 spp. – 76 in last 10 yrs
•  most advanced
Ostariophysans
•  continuous, low
electrical output
•  except in electrical
eel