Life during the Miocene Epoch was mostly supported by the two newly formed
biomes,
kelp forests and grasslands. Grasslands allow for more grazers, such as
horses,
rhinoceroses, and
hippos. Ninety-five percent of modern plants existed by the end of this epoch. Modern bony fish genera were established. A modern-style latitudinal biodiversity gradient appeared ~15 Ma.
Flora is considered a remnant of the Mio-Pliocene Laurasian subtropical forests that are now almost extinct in North Africa. The
coevolution of
gritty, fibrous, fire-tolerant
grasses and long-legged
gregarious ungulates with
high-crowned teeth, led to a major expansion of grass-grazer
ecosystems. Herds of large,
swift grazers were hunted by
predators across broad sweeps of open
grasslands, displacing desert, woodland, and browsers. The higher organic content and water retention of the deeper and richer
grassland soils, with long-term
burial of carbon in sediments, produced a
carbon and water vapor sink. This, combined with higher surface albedo and lower
evapotranspiration of grassland, contributed to a cooler, drier climate.
C4 grasses, which are able to assimilate
carbon dioxide and water more efficiently than
C3 grasses, expanded to become ecologically significant near the end of the Miocene between 6 and 7 million years ago, although they did not expand northward during the Late Miocene. The expansion of grasslands and
radiations among terrestrial herbivores correlates to fluctuations in CO2. One study, however, has attributed the expansion of grasslands not to a CO2 drop but to the increasing seasonality and aridity, coupled with a monsoon climate, which made wildfires highly prevalent compared to before. The Late Miocene expansion of grasslands had cascading effects on the global carbon cycle, evidenced by the imprint it left in carbon isotope records.
Cycads between 11.5 and 5 million years ago began to rediversify after previous declines in variety due to climatic changes, and thus modern cycads are not a good model for a "living fossil".
Eucalyptus fossil leaves occur in the Miocene of
New Zealand, where the genus is not native today, but have been introduced from
Australia. Africa experienced a significant decline in floral diversity at the start of the Miocene, likely a consequence of increasing seasonality. The continent experienced disconnection and reconnection of its equatorial forest belt throughout the Miocene.
Fauna (Miocene) of Rainbow Basin, California. '' Both marine and continental
fauna were fairly modern, although marine mammals were less numerous. Only in isolated South America and Australia did widely divergent fauna exist. Australian mammals became phenotypically restricted as Miocene cooling and aridification forced the Australian fauna to remain conservative with respect to their body plans. In Eurasia, genus richness shifted southward to lower latitudes from the Early to the Middle Miocene. Europe's large mammal diversity significantly declined during the Late Miocene. Southeastern Europe was a biodiversity hotspot, owing to its position on the boundary of forested and open landscapes. In the Early Miocene, several Oligocene groups were still diverse, including
nimravids,
entelodonts, and three-toed equids. As in the previous Oligocene Epoch,
oreodonts were still diverse, only to disappear in the earliest Pliocene. During the later Miocene mammals were more modern, with easily recognizable
canids,
bears,
red pandas,
procyonids,
equids,
beavers,
deer,
camelids, and
whales, along with now-extinct groups like
borophagine canids, certain
gomphotheres,
three-toed horses, and hornless rhinos like
Teleoceras and
Aphelos. The late Miocene also marks the extinction of the last-surviving members of the
hyaenodonts. Islands began to form between South and North America in the Late Miocene, allowing ground sloths like
Thinobadistes to
island-hop to North America. The expansion of
silica-rich C4 grasses led to worldwide extinctions of herbivorous species without
high-crowned teeth.
Mustelids diversified into their largest forms as terrestrial predators like
Ekorus,
Eomellivora, and
Megalictis and bunodont otters like
Enhydriodon and
Sivaonyx appeared.
Eulipotyphlans were widespread in Europe, being less diverse in Southern Europe than farther north due to the aridity of the former. Unequivocally-recognizable
dabbling ducks,
plovers,
typical owls,
cockatoos and
crows appear during the Miocene. By the epoch's end, all or almost all modern bird groups are believed to have been present; the few post-Miocene bird fossils which cannot be placed in the evolutionary tree with full confidence are simply too badly preserved, rather than too equivocal in character. Marine birds reached their highest diversity ever in the course of this epoch. The youngest representatives of
Choristodera, an extinct order of aquatic reptiles that first appeared in the
Middle Jurassic, are known from the Miocene of Europe, belonging to the genus
Lazarussuchus, which had been the only known surviving genus of the group since the beginning of the Eocene. The last known representatives of the archaic primitive mammal order
Meridiolestida, which dominated South America during the Late Cretaceous, are known from the Miocene of Patagonia, represented by the mole-like
Necrolestes. The youngest known representatives of
metatherians (the broader grouping to which
marsupials belong) in Europe, Asia and Africa are known from the Miocene, including the European herpetotheriid
Amphiperatherium, the peradectids
Siamoperadectes and
Sinoperadectes from Asia, and the possible herpetotheriid
Morotodon from the late Early Miocene of Uganda. Approximately 100 species of
apes lived during this time, ranging throughout Africa, Asia and Europe and varying widely in size, diet, and anatomy. Due to scanty fossil evidence it is unclear which ape or apes contributed to the modern
hominid clade, but molecular evidence indicates this ape lived between 18 and 13 million years ago. The first
hominins (
bipedal apes of the human lineage) appeared in Africa at the very end of the Miocene, including
Sahelanthropus,
Orrorin, and an early form of
Ardipithecus (
A. kadabba). The
chimpanzee–human divergence is thought to have occurred at this time. The evolution of bipedalism in apes at the end of the Miocene instigated an increased rate of faunal turnover in Africa. In contrast, European apes met their end at the end of the Miocene due to increased habitat uniformity. The expansion of grasslands in North America also led to an explosive radiation among snakes. Previously, snakes were a minor component of the North American fauna, but during the Miocene, the number of species and their prevalence increased dramatically with the first appearances of
vipers and
elapids in North America and the significant diversification of
Colubridae (including the origin of many modern genera such as
Nerodia,
Lampropeltis,
Pituophis and
Pantherophis).
Neoisopterans diversified and expanded into areas they previously were absent from, such as Madagascar and Australia.
Oceanic In the oceans,
brown algae, called
kelp, proliferated, supporting new species of sea life, including
otters,
fish and various
invertebrates. Corals suffered a significant local decline along the northeastern coast of Australia during the Tortonian, most likely due to warming seawater.
Cetaceans attained their greatest diversity during the Miocene, with over 20 recognized genera of
baleen whales in comparison to only six living genera. This diversification correlates with emergence of gigantic macro-predators such as megatoothed sharks and raptorial
sperm whales. Prominent examples are
O. megalodon and
L. melvillei. Another gigantic form was a
false gharial Rhamphosuchus, which inhabited modern age
India. A strange form,
Mourasuchus also thrived alongside
Purussaurus. This species developed a specialized filter-feeding mechanism, and it likely preyed upon small fauna despite its gigantic size. The last
Desmostylians thrived during this period before becoming the only extinct marine mammal order. The
pinnipeds, which appeared near the end of the Oligocene, became more aquatic. A prominent genus was
Allodesmus. A ferocious
walrus,
Pelagiarctos may have preyed upon other species of pinnipeds including
Allodesmus. Furthermore,
South American waters witnessed the arrival of
Megapiranha paranensis, which were considerably larger than modern age
piranhas.
New Zealand's Miocene fossil record is particularly rich. Marine deposits showcase a variety of
cetaceans and
penguins, illustrating the evolution of both groups into modern representatives. The early Miocene
Saint Bathans Fauna is the only Cenozoic terrestrial fossil record of the landmass, showcasing a wide variety of not only
bird species, including early representatives of clades such as
moa,
kiwi and
adzebills, but also a diverse herpetofauna of
sphenodontians,
crocodiles and
turtles as well as a rich terrestrial mammal fauna composed of various species of
bats and the enigmatic
Saint Bathans Mammal. File:Calvert Zone 10 Calvert Co MD.jpg|Miocene fossils from the
Calvert Formation,
Calvert County, Maryland, US File:The Childrens Museum of Indianapolis - Miocene crab.jpg|A Miocene crab (
Tumidocarcinus giganteus) from the collection of the
Children's Museum of Indianapolis Microbiota Microbial life in the igneous crust of the
Fennoscandian Shield shifted from being dominated by
methanogens to being primarily composed of
sulphate-reducing prokaryotes. The change resulted from fracture reactivation during the Pyrenean-Alpine orogeny, enabling sulphate-reducing microbes to permeate into the Fennoscandian Shield via descending surficial waters.
Diatom diversity was inversely correlated with carbon dioxide levels and global temperatures during the Miocene. Most modern lineages of diatoms appeared by the Late Miocene. ==Oceans==