Ensenadan
The Ensenadan age is a period of geologic time in the Early Pleistocene and Middle Pleistocene epochs of the Quaternary used more specifically with South American Land Mammal Ages.
Provenance
The type locality originates in the town of Ensenada, near the city of La Plata, Argentina. Charles Darwin originally described these Ensenadan age sediments as part of the "Pampean formation" in 1863. The Ensenadan age is particularly recognized from the Pampas of Argentina. Sites sharing geological and paleoenvironmental conditions come from Bolivia, southern Brazil and Paraguay to the north, to southern Patagonia and Tierra del Fuego in the south. Excluding the glaciated regions of Patagonia, Ensenadan continental units stretch over 2 million km². Important Ensenadan age formations in the modern Pampas come from the Ensenada and Miramar formations, along with section of the Vorohué and San Andrés formations near Mar del Plata.Chronology
The Ensenadan age follows the Marplatan age and precedes the Lujanian age. The core of the Ensenadan faunal stage contains the magnetic polarity events subchron C1r1n and the Brunhes–Matuyama reversal. The upper limit of the Ensenadan senso lato is tentatively placed at the beginning of MIS 11, while the lower limit may extend up to the Olduvai polarity event as per faunistic evidence. The Ensenadan age has also been described as spanning between the earliest Early Pleistocene, to the Early Middle Pleistocene. The upper limit of the Ensenadan has been repeatedly revised from 0.7 Ma, 0.65 Ma and 0.5 Ma, with a "Belgranian" stage bridging the end of the Ensenadan and the beginning of the Bonaerian substage of the Lujanian. However, more recent research instead provides an approximate boundary between the Ensenadan and Lujanian, with the Lujanian beginning at least 0.3 Ma.Climate
There were over 15 glacial-interglacial cycles during the Ensenadan, with glaciation events taking placed along the Patagonian and Fuegian Andes. The Ensenadan was predominately composed of cold & arid or semiarid climates, interspersed with brief warmer and more humid pulses. Generally, glacial events during the Ensenadan correspond with pre-Illinoian glaciations of North America.The most significant glacial event during the Ensenadan was the "Great Patagonian Glaciation", which occurred ca. 1 Ma. The GPG caused a significant cold-arid pulse with corresponding changes to the environment and faunal distribution & composition of the Pampas, with the associated sea level changes increasing the continentality of the local climate. Two more minor glacial events occurred after the GPG; the first was part of a global cooling event, with the second pulse concluding the Ensenadan age at 0.4 Ma. Consequently, the Ensenadan largely consisted of open & dry environments with a probably colder climate than today, as suggested by faunal records. For example, climate records from Uruguay note significant arid periods, contrasting with today's mild and very humid climate. The subsequent Bonaerian substage of the Lujanian begins with a warm event, which continued for most of that substage.
Fauna
Biozone
The Ensenadan age is directly correlated with the Mesotherium cristatum biozone. Other index fossils include Arctotherium angustidens, Catagonus metropolitanus, Eutatus pasquali, Glyptodon munizi, Megatherium gallardoi, Neosclerocalyptus, Panochthus intermedius, Scelidotherium bravardi, and Theriodictis platensis, as well as possibly Pseudoseisura cursor. However, the presence of Mesotherium and Glyptodon cf. munizi in Lujanian sediments suggests a revision of index fossils is required using new dating controls.Over 50% of the 16 present xenarthran species were exclusive to the Ensenadan faunal stage. There was a notable increase in xenarthran diversity and a decrease in native ungulates. The Ensenadan age appears to host the highest proportion of mammals adapted to open and arid environments, with taxa from the modern Central Pampas and Patagonia expanding their respective ranges.