The
crown group mammals, sometimes called 'true mammals', are the
extant mammals and their close relatives back to their last common ancestor. Since this group has living members,
DNA analysis can be applied in an attempt to explain the evolution of features that do not appear in fossils. This endeavor often involves
molecular phylogenetics, a technique that has become popular since the mid-1980s.
Family tree of early crown mammals Cladogram after Z.-X Luo
Color vision Early amniotes had four
opsins in the cones of their retinas to use for distinguishing colours: one sensitive to red, one to green, and two corresponding to different shades of blue. The green opsin was not inherited by any crown mammals, but all normal individuals did inherit the red one. Early crown mammals thus had three cone opsins, the red one and both of the blues. Some placentals and marsupials, including higher primates, subsequently evolved green-sensitive opsins; like early crown mammals, therefore, their vision is
trichromatic.
Australosphenida and Ausktribosphenidae Ausktribosphenidae is a group name that has been given to some rather puzzling finds that: • appear to have
tribosphenic molars, a type of tooth that is otherwise known only in placentals and marsupials. • come from mid-
Cretaceous deposits in Australia — but Australia was connected only to Antarctica, and placentals originated in the Northern Hemisphere and were confined to it until
continental drift formed land connections from North America to South America, from Asia to Africa and from Asia to India. • are represented only by teeth and jaw fragments, which is not very helpful.
Australosphenida is a group that has been defined in order to include the Ausktribosphenidae and
monotremes.
Asfaltomylos (mid- to late Jurassic, from
Patagonia) has been interpreted as a basal australosphenid (animal that has features shared with both Ausktribosphenidae and monotremes; lacks features that are peculiar to Ausktribosphenidae or monotremes; also lacks features that are absent in Ausktribosphenidae and monotremes) and as showing that australosphenids were widespread throughout
Gondwanaland (the old Southern Hemisphere super-continent). Recent analysis of
Teinolophos, which lived somewhere between 121 and 112.5 million years ago, suggests that it was a "crown group" (advanced and relatively specialised) monotreme. This was taken as evidence that the basal (most primitive) monotremes must have appeared considerably earlier, but this has been disputed (see the following section). The study also indicated that some alleged Australosphenids were also "crown group" monotremes (e.g.
Steropodon) and that other alleged Australosphenids (e.g.
Ausktribosphenos,
Bishops,
Ambondro,
Asfaltomylos) are more closely related to and possibly members of the Therian mammals (group that includes marsupials and placentals, see below). A more recent study (2009), however, has suggested that, while
Teinolophos was a type of platypus, it was also a basal monotreme and predated the radiation of modern monotremes. The semi-aquatic lifestyle of platypuses prevented them from being outcompeted by the marsupials that migrated to Australia millions of years ago, since joeys need to remain attached to their mothers and would drown if their mothers ventured into water (though there are exceptions like the
water opossum and the
lutrine opossum; however, they both live in South America and thus do not come into contact with monotremes). Genetic evidence has determined that echidnas diverged from the platypus lineage as recently as 19-48M, when they made their transition from semi-aquatic to terrestrial lifestyle. Monotremes have some features that may be inherited from the
cynodont ancestors: • like lizards and birds, they use the same orifice to urinate, defecate and reproduce ("monotreme" means "one hole"). • they lay
eggs that are leathery and uncalcified, like those of lizards, turtles and crocodilians. Unlike other mammals, female monotremes do not have
nipples but feed their young by "sweating" milk from patches on their bellies. These features are not visible in fossils, and the main characteristics from paleontologists' point of view are: • sprawling or semi-sprawling forelimbs.
Multituberculates ''
Multituberculates (named for the multiple
tubercles on their "
molars") are often called the "rodents of the Mesozoic", but this is an example of
convergent evolution rather than meaning that they are closely related to the
Rodentia. They existed for approximately 120 million years—the longest fossil history of any mammal lineage—but were eventually outcompeted by rodents, becoming extinct during the early
Oligocene. Some authors have challenged the phylogeny represented by the cladogram above. They exclude the multituberculates from the mammalian crown group, holding that multituberculates are more distantly related to extant mammals than even the Morganucodontidae. Multituberculates are like undisputed crown mammals in that their jaw joints consist of only the
dentary and
squamosal bones-whereas the
quadrate and
articular bones are part of the middle ear; their teeth are differentiated, occlude, and have mammal-like
cusps; they have a
zygomatic arch; and the structure of the
pelvis suggests that they gave birth to tiny helpless young, like modern marsupials. On the other hand, they differ from modern mammals: • Their "molars" have two parallel rows of tubercles, unlike the tribosphenic (three-peaked) molars of uncontested early crown mammals. • The chewing action differs in that undisputed crown mammals chew with a side-to-side grinding action, which means that the molars usually occlude on only one side at a time, while multituberculates' jaws were incapable of side-to-side movement—they chewed, rather, by dragging the lower teeth backwards against the upper ones as the jaw closed. • The anterior (forward) part of the zygomatic arch mostly consists of the
maxilla (upper jawbone) rather than the
jugal, a small bone in a little slot in the maxillary process (extension). • The
squamosal does not form part of the
braincase. • The
rostrum (snout) is unlike that of undisputed crown mammals; in fact it looks more like that of a
pelycosaur, such as
Dimetrodon. The multituberculate rostrum is box-like, with the large flat maxillae forming the sides, the
nasal the top, and the tall
premaxilla at the front.
Theria ankle.
Theria ("beasts") is the
clade originating with the last common ancestor of the
Eutheria (including
placentals) and
Metatheria (including marsupials). Common features include: • no
interclavicle. The oldest known metatherian is
Sinodelphys, found in 125M-year-old early Cretaceous
shale in China's northeastern
Liaoning Province. The fossil is nearly complete and includes tufts of fur and imprints of soft tissues.
Didelphimorphia (common opossums of the
Western Hemisphere) first appeared in the late Cretaceous and still have living representatives, probably because they are mostly semi-
arboreal unspecialized
omnivores. Tracks from the Early Cretaceous of Angola show the existence of raccoon-size mammals 118 million years ago. The best-known feature of marsupials is their method of reproduction: • The mother develops a kind of
yolk sack in her womb that delivers nutrients to the
embryo. Embryos of
bandicoots,
koalas and
wombats additionally form placenta-like organs that connect them to the
uterine wall, although the placenta-like organs are smaller than in placental mammals and it is not certain that they transfer nutrients from the mother to the embryo. •
Pregnancy is very short, typically four to five weeks. The embryo is born at a very early stage of development, and is usually less than long at birth. It has been suggested that the short pregnancy is necessary to reduce the risk that the mother's
immune system will attack the embryo. • The newborn marsupial uses its forelimbs (with relatively strong hands) to climb to a
nipple, which is usually in a pouch on the mother's belly. The mother feeds the baby by contracting muscles over her
mammary glands, as the baby is too weak to suck. The newborn marsupial's need to use its forelimbs in climbing to the nipple was historically thought to have restricted metatherian evolution, as it was assumed that the forelimb could not become specialised intro structures like wings, hooves or flippers. However, several
bandicoots, most notably the
pig-footed bandicoot, have true hooves similar to those of placental ungulates, and several marsupial gliders have evolved. , showing
marsupial pattern of molars Although some marsupials look very like some placentals (the
thylacine, "marsupial tiger" or "marsupial wolf" is a good example), marsupial skeletons have some features that distinguish them from placentals: • Some, including the thylacine, have four molars; whereas no known placental has more than three. • All have a pair of palatal fenestrae, window-like openings on the bottom of the skull (in addition to the smaller nostril openings). Marsupials also have a pair of marsupial bones (sometimes called "
epipubic bones"), which support the pouch in females. But these are not unique to marsupials, since they have been found in fossils of multituberculates, monotremes, and even eutherians — so they are probably a common ancestral feature that disappeared at some point after the ancestry of living placental mammals diverged from that of marsupials. Some researchers think the epipubic bones' original function was to assist locomotion by supporting some of the muscles that pull the thigh forwards.
Eutheria The time of appearance of the earliest eutherians has been a matter of controversy. On one hand, recently discovered fossils of
Juramaia have been dated to 160 million years ago and classified as eutherian. Fossils of
Eomaia from 125 million years ago in the
Early Cretaceous have also been classified as eutherian. A recent analysis of phenomic characters, however, classified
Eomaia as pre-eutherian and reported that the earliest clearly eutherian specimens came from
Maelestes, dated to 91 million years ago. That study also reported that eutherians did not significantly diversify until after the catastrophic extinction at the
Cretaceous–Paleogene boundary, about 66 million years ago.
Eomaia was found to have some features that are more like those of marsupials and earlier metatherians: '' in the
Hong Kong Science Museum. •
Epipubic bones extending forwards from the pelvis, which are not found in any modern placental, but are found in all other mammals — early mammaliaforms, non-placental eutherians, marsupials, and
monotremes — as well as in the
cynodont therapsids that are closest to mammals. Their function is to stiffen the body during locomotion. This stiffening would be harmful in pregnant placentals, whose abdomens need to expand. • A narrow pelvic outlet, which indicates that the young were very small at birth and therefore pregnancy was short, as in modern marsupials. This suggests that the placenta was a later development. • Five incisors in each side of the upper jaw. This number is typical of metatherians, and the
maximum number in modern placentals is three, except for
homodonts, such as the
armadillo. But ''Eomaia's'' molar to
premolar ratio (it has more pre-molars than molars) is typical of eutherians, including placentals, and not normal in marsupials.
Eomaia also has a
Meckelian groove, a primitive feature of the lower jaw that is not found in modern placental mammals. These intermediate features are consistent with
molecular phylogenetics estimates that the placentals diversified about 110M years ago, 15M years after the date of the
Eomaia fossil.
Eomaia also has many features that strongly suggest it was a climber, including several features of the feet and toes; well-developed attachment points for muscles that are used a lot in climbing; and a tail that is twice as long as the rest of the spine. Placentals' best-known feature is their method of reproduction: • The embryo attaches itself to the
uterus via a large
placenta via which the mother supplies food and oxygen and removes waste products. • Pregnancy is relatively long and the young are fairly well developed at birth. In some species (especially herbivores living on plains) the young can walk and even run within an hour of birth. It has been suggested that the evolution of placental reproduction was made possible by
retroviruses that: • make the interface between the placenta and uterus into a
syncytium, i.e. a thin layer of cells with a shared external membrane. This allows the passage of oxygen, nutrients and waste products, but prevents the passage of blood and other cells that would cause the mother's
immune system to attack the
fetus. • reduce the aggressiveness of the mother's immune system, which is good for the foetus but makes the mother more vulnerable to infections. From a paleontologist's point of view, eutherians are mainly distinguished by various features of their teeth, ankles and feet. ==Expansion of ecological niches in the Mesozoic==