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The Evolution of Middle The Evolution of Middle Ear Bones in MammalsEar Bones in Mammals
Robert DavisRobert Davis
What are the origins of mammalian middle ear bones?
How have they evolved over time to become such a distinguishing structure in mammals?
Did the middle ear bones evolve from a common ancestor of all mammals, or have there been separate divergence points for each mammalian sub-group?
Background information: Terms to know
Homoplasy-similarity among structures that arose through independent evolution instead of descent from a common ancestor; due to convergent evolution, parallelism, or reversal
Homology-similarity between species that results from inheritance of traits from a common ancestor
Cynodonts-”dog teeth,” extinct mammal like reptiles that gave rise to modern mammals; in order Therapsida
Therapsids-Order containing pre-mammal mammaliaforms
Terms cont… Synapsida- Class containing order Therapsida,
mammaliaforms and reptiles Newer evolutionary trees consider mammals to be
in clade within the class synapsida, while older classifications still have mammals in a separate Class Mammalia
Mammaliaforms-transitional animals classified as pre-mammals, somewhere between reptiles and mammals
Therian- group of mammals containing placentals and marsupials.
Dentary- mandible Eutriconodont- early mammals, now extinct; order
within Class Mammalia
Mammalian Middle Ear Bones
Tympanic Malleus Incus Stapes
Picture of middle ear bones from the Smithsonian.
Stapes
MalleusIncus
Tympanic
Where did the middle ear bones originate?
The middle ear bones in mammals are derived from bones in the dentary bone (mandible) of Therapsids
In the Therapsid dentary, there were three bones used in the jaw hinge: the angular, articular and quadrate
The tympanic, malleus, and incus are homologous to the angular, articular, and quadrate.
Tympanic = Angular
Malleus = Articular
Incus = Quadrate
Transitional Stages of Evolution
In early Therapsids, the quadrate, angular and articular were directly connected to the dentary bone in the jaw hinge.
These bones were essential for jaw movement.
These bones were also utilized for crude hearing capabilities.
The next stage of evolution came with the separation of these bones and the dentary.
After the bones separated from the jaw, they formed the postdentary rod.
It is believed that these the mammalian middle ear bones evolved at least twice.
It is believed that monotreme and therian ancestors evolved very similar middle ear bones, but in two separate paths.
Monotremes
In monotreme ancestors, there is a mandibular trough, that is believed to have accommodated the postdentary rod.
This rod is believed to have been connected to the trough by ligaments.
This rod was used for hearing and the quadrate, angular, and articular were no longer needed in the jaw hinge.
Therians
In therians, the mandibular trough no longer held the quadrate, angular, and articular.
These bones were held to the jaw by ossified Meckel’s cartilage.
This bridge of cartilage and bone extended away from the dentary and approached the area that would make up the modern ear cavity.
Figure 1.Figure 1. From From article article “Homoplasy in “Homoplasy in the Mammalian the Mammalian Ear” taken from Ear” taken from Journal of Journal of Science. Science. Separation of Separation of the middle ear the middle ear bones from the bones from the post dentary post dentary (mandible) in (mandible) in monotremes, monotremes, and therians.and therians.
Morganucodon—cynodont; one of the Morganucodon—cynodont; one of the earliest relatives of all mammals earliest relatives of all mammals
Morganucodon- cynodont mammaliaform related to mammals
Morganucodon fossils have maintained the Meckel’s cartilage bridge that linked the ear bones to the dentary.
Evidence from Yanoconodon
Yanoconodon is a fossil eutriconodont found in the Yan mountains in China.
Yanoconodon fossil retains the middle ear bones and ossified Meckel’s cartilage.
Excellent example of transitional form of ear bone from Therapsids to Mammals.
Figure 2.Figure 2. Ear bones from different Ear bones from different mammaliaforms, and points of mammaliaforms, and points of origin from dentary. origin from dentary. a.a. Mammaliaform Mammaliaform MorganucodonMorganucodon b.b. Eutriconodont Eutriconodont YanoconodonYanoconodon c.c. the the ectotympanic (blue), malleus ectotympanic (blue), malleus (green) and incus (brown) of (green) and incus (brown) of modern modern OrnithorhynchusOrnithorhynchus d.d. Eutriconodont Eutriconodont RepenomamusRepenomamus e.e. Ossified Meckel's cartilage of Ossified Meckel's cartilage of RepenomamusRepenomamus f.f. Ossified Ossified Meckel's cartilage of Meckel's cartilage of YanoconodonYanoconodon g.g. Middle ear of Middle ear of YanoconodonYanoconodon h.h. Middle ear bones Middle ear bones of adult of adult OrnithorhynchusOrnithorhynchus i.i. Embryonic Embryonic OrnithorhynchusOrnithorhynchus
Further Research
Compare the structures of middle ear bones in existing mammals to see if there are any significant differences among living mammals.
Trace the evolution of other structures of the ear to see if they evolved with the middle ear bones or separately.
Video explaining evolution of mammalian middle ear bones
http://www.youtube.com/watch?v=TZyYHGObgk8