European land mammal age
The European Land Mammal Mega Zones (abbreviation: ELMMZ, more commonly known as European land mammal ages or ELMA) are zones in rock layers that have a specific assemblage of fossils (biozones) based on occurrences of fossil assemblages of European land mammals. These biozones cover most of the Cenozoic, with particular focus having been paid to the Neogene and Paleogene systems (i.e. rock layers which are 65.5 to 2.588 million years old), the Quaternary has several competing systems. In cases when fossils of mammals are abundant, stratigraphers and paleontologists can use these biozones as a more practical regional alternative to the stages of the official ICS geologic timescale. European Land Mammal Mega Zones are often also confusingly referred to as ages, stages, or intervals.[1]
Periods of the Cenozoic | ||
−70 — – −65 — – −60 — – −55 — – −50 — – −45 — – −40 — – −35 — – −30 — – −25 — – −20 — – −15 — – −10 — – −5 — – 0 — | ||
An approximate timescale of the Cenozoic.
Axis scale: millions of years ago. |
Biostratigraphic methods
Mammal zones were, like all biozones, established using geographic place names where fossil materials were obtained. The basic unit of measure is the first/last boundary statement. This shows that the first appearance event of one taxon is known to predate the last appearance event of another. If two taxa are found in the same fossil quarry or at the same stratigraphic horizon, then their age-range zones overlap.
The terrestrial stratigraphy of the Cenozoic is more difficult than that of marine deposits. The geologic timescale of the ICS is therefore based on marine fossils, that don't occur in terrestrial sediments. This makes the correlation of terrestrial deposits with the ICS timescale often difficult. Correlation is possible when marine deposits interfinger with terrestrial deposits (resulting from a series of transgressions and regressions of the sea during deposition), but this isn't the case everywhere. A fine stratigraphic division of the terrestrial record can in most places only be made using fossils of land species. Small mammals are often the best choice as they are quite abundant in the terrestrial record, especially their teeth. Teeth have an even better chance of preservation than bones.
The European mammalian biozones were established for the Paleogene (66-23.03 Mya, 8 zones) and Neogene (23.03-2.58 Mya, 7 zones) separately. Some of these, especially for the Neogene, were already established in the 19th century. The Villafranchian was, for example, introduced by Lorenzo Pareto in 1865. A finer subdivision was established by Pierre Mein in 1975, who divided the Neogene in 17 zones, known as the MN zonation, indicated by the letters MN (Mammal Neogene) and a number.
Similarly, a more detailed subdivision for the Paleogene period was established. There are 30 such Mammal Paleogene zones (MP1 to MP30, numbered from old to young).[2]
Paleogene European mammal zones
Epoch | ICS age | ELMMZ | Age (Ma) |
---|---|---|---|
Miocene | Aquitanian | Agenian | younger |
Oligocene | Chattian | Arvernian | 23.03–29.2 |
Rupelian | |||
Suevian | 29.2–33.8 | ||
Headonian | 33.8–37.2 | ||
Eocene | Priabonian | ||
Bartonian | Robiacian | 37.2–42.7 | |
Lutetian | |||
Geiseltalian | 42.7–48.5 | ||
Grauvian | 48.5–50.8 | ||
Ypresian | |||
Neustrian | 50.8–55.0 | ||
Paleocene | Thanetian | ||
Cernaysian | 55.0–55.9 | ||
Subdivision of the Paleogene period into European Land Mammal Mega Zones (ELMMZ). |
There are 30 Mammal Paleogene zones covering the Paleogene (66-23.03 Mya).
Neogene European mammal zones
European Land Mammal Mega Zones most often have their bases at first appearances (FAD, First Appearance Date) of a certain species or genus. The numbers are higher for younger zones. Due to a redefinition of the boundary between the Neogene and Quaternary periods, MN 17 is now in fact considered a Quaternary biozone.
Biozone | Small mammals | Large mammals |
---|---|---|
MN 17 | Kislangia gusi, Mimomys tornensis, Mimomys pliocaenicus, Mimomys reidi | Eucladoceros |
MN 16 | Kislangia ischus, Mimomys polonicus, Kislangia cappettai, Mimomys hajnackensis | Equus (horse), Mammuthus (mammoth), Homotherium, Megantereon, Ursus etruscus, Pliohyaena perrieri, Gazellospira torticornis, Arvernoceros ardei, Hesperidoceras merlai, Cervus perrieri |
MN 15 | Mimomys occitanus, Oryctolagus, Mimomys vandemeuleni, Mimomys davakosi | Chasmaporthetes lunensis |
MN 14 | Promimomys, Trilophomys, Celadensia, Castor (beaver) | Sus arvernensis, Croizetoceros, Acinonyx, Felis issiodorensis |
MN 13 | Paraethomys, Rhagapodemnus, Stephanomys, Apodemus, Apocricetus | Parabos, Paracamelus, Agriotheirum, Apocricetus, Nyctereutes, Hexaprotodon |
MN 12 | Parapodemus barbarae, Huerzelerimys turoliensis | Pliocervus, Hispanodorcas, Palaeoryx, Occitanomys adroveri, Procapreolus |
MN 11 | Parapodemus lugdunensis, Huerzelerimys vireti, Occitanomys sondaari | Birgerbohlinia, Lucentia |
MN 10 | Rotundomys, Pliopetaurista, Schreuderia, Progonomys cathalai | Hyaenictis almerai, Adcrocuta eximia, Microstonyx major, Tragoportax gaufryi |
MN 9 | Cricetulodon | Hippotherium, Decennatherium, Machairodus |
MN 7/8 | Megacricetodon ibericus, Megacricetodon gregarius | Parachleuastochoerus, Propotamochoerus, Palaeotragus, Protragocerus, Tetralophodon |
MN 6 | Megacricetodon crusafonti, Megacricetodon gersi | Tethytragus, Hispanomeryx, Euprox, Listriodon |
MN 5 | Megacricetodon collongensis | Miotragocerus, Micromeryx, Heteroprox, Hispanotherium |
MN 4 | Megacricetodon primitivus | Bunolistriodon, Dorcatherium, Chalicotherium, Eotragus, Prodeinotherium |
MN 3 | Gomphotherium, Procervulus, Lagomeryx, Actoocemas, Palaeomeryx, Brachyodus, Anchitherium, Aureliachoerus, Hemicyon | |
MN 2 | Ligerimys, Prolagus, Lagopsis, Ritterneria manca | Teruelia, Lorancameryx, Oriomeryx, Pseudaelurus, Xenohyus, Andegameryx, Amphitragulus |
MN 1 | Rhodanomys schlosseri, Vasseuromys | Hyotherium |
Quaternary European mammal zones
The first zonation for the Quaternary of Europe was proposed by Azzaroli in 1967.[3] This was then expanded by Gliozzi et al. in 1997 to make a system of 3 'ages' subdivided into 13 'faunal units'.[4] The scheme does not define boundaries but instead is accompanied by a range chart, where the entry and exit dates for the taxa are indicated. Each zone is named after a reference locality. Most of the reference locations are in Italy but the scheme is used in other European regions. The mammal ages and Faunal Units (FU) after Gliozzi et al. are:
Mammal Age | Faunal Unit | sub-age | Large Mammals |
---|---|---|---|
Villafranchian (Middle Pliocene to Early Pleistocene) |
Triversa | Early Villafranchian | Stepbanorhinus megarhinus, Sus minor, Alephis liryx, Felsinotherium gervaisi |
Montopoli | Early Villafranchian | Mammuthus gromwi, Equus lioenzwensi, Stephanorhinus etruscus | |
Costa S. Giacomo | Middle Villafranchian | Canis, Sus strozzii, Leptobos furtivus, Hystrix refossa, Gazellospira torticomis, Anancus arvernensis | |
Olivola | Late Villafranchian | Pachycrocuta brevirostris, Panthera gombaszoegensis, Procamptoceras brivatense, Eucladoceros dicranios, Eucladoceros nestii, Pseudodama, Canis etruscus | |
Tasso | Late Villafranchian | Hippopotamus antiquus, Praevibos, Leptobos vallisarni, Equus stehlini, Canis arnensis, Canis falconeri | |
Farnetta | Late Villafranchian | Leptobos vallisarni, Eucladoceros dicranios, Eucladoceros nestii, Megaceroides obscurus, Microtus | |
Piro Nord | Late Villafranchian | Bison, Megaceroides solilbacus | |
Galerian (Middle Pleistocene) |
Colle Curti | Early Galerian | Equus altidens, Equus bressanus, Equus sussenbornensis, Megaceroides verticornis |
Silvia | Middle Galerian | Cervus elaphus acoronatus | |
Isernia | Middle Galerian | Panthera leo, Palaeoloxodon antiquus, Mammuthus trogontherii, Stephanorhinus hundsheimensis, Megaloceros savini, Bos, Bison schoetensacki, Equus caballus, Pseudodama | |
Fontana Ranuccio | Late Galerian | Homotherium latidens, Cervus elaphus eostephanoceros, Dama clactoniana, Equus altidens, Equus sussenbornensis | |
Aurelian (late Middle Pleistocene to Late Pleistocene) |
Torre in Pietra | Early Aurelian | Canis lupus, Ursus spelaeus, Megaloceros giganteus, Cervus elaphus rianensis |
Vitinia | Middle Aurelian | Dama dama tiberina, Equus hydruntinus | |
none designated | Late Aurelian | Dama dama dama, Capra ibex, Coelodonta antiquitatis, Mammuthus primigenius |
In 1982, Guérin[6] proposed an alternative scheme, which extended the MN zonation scheme for the Neogene with additional units to cover the Quaternary. There have been further updates since.[7] The MNQ (Mammal Neogene Quaternary) scheme added an additional 12 units in total, MNQ 16–27.
For small mammals there is a third scheme, the MmQ, published by Agustí, Moyà‐Solà, and Pons‐Moyà in 1987.[8] The scheme includes some large mammals for reference and thus has a wider application.[9]
Other continental mammalian biozones
References
- According to Steininger (1999), it is better to just use ELMMZ's in a biostratigraphic sense
- Mammal Paleogene zones, The Paleobiology Database
- Azzaroli, Augusto. 1967. “Villafranchian Correlations Based on Large Mammals.” Giornale di Geologia 35 (1): 21
- Gliozzi, Elsa, Laura Abbazzi, Patrizia Argenti, Augusto Azzaroli, Lucia Caloi, Lucia Capasso Barbato, Giuseppe Di Stefano, et al. 1997. “Biochronology of Selected Mammals, Molluscs and Ostracods from the Middle Pliocene to the Late Pleistocene in Italy: The State of the Art.” Rivista Italiana di Paleontologia e Stratigrafia 103 (3): 369–88.
- Kurten, Bjorn (1968). Pleistocene Mammals of Europe. London: Weidenfeld and Nicolson.
- Guérin, Claude. 1982. “Première Biozonation du Pléistocène Européen, Principal Résultat Biostratigraphique de l'Étude des Rhinocerotidae (Mammalia, Perissodactyla) du Miocène Terminal au Pléistocène Supérieur d'Europe Occidentale.” Geobios 15 (4): 593–98. DOI:10.1016/s0016-6995(82)80076-4
- Faure, Martine, and Claude Guérin. 1992. “La Grande Faune d'Europe Occidentale au Pléistocène Moyen et Supérieur et ses Potentialités d'Information en Préhistoire.” Mémoires de la Société Géologíque de France 160: 77–84.
- Agustí, Jordi, Salvador Moyà‐Solà, and Joan Pons‐Moyà. 1987. “La Sucesión de Mamíferos en el Pleistoceno Inferior de Europa: Proposición de Una Nueva Escala Bioestratigráfica.” Paleontología i Eovlució, mem. esp. 1: 287–95.
- van der, Made, J. (2018). Quaternary Large‐Mammal Zones. In The Encyclopedia of Archaeological Sciences, S.L. López Varela (Ed.). doi:10.1002/9781119188230.saseas0486
Notes
Literature
- Koufos, G.D.; Kostopoulos, D.S. & Vlachou, T.D. (2005). '"Neogene/Quaternary mammalian migrations in Eastern Mediterranean", Belgian Journal of Zoology 135(2): pp. 181–190.
- Lindsay, Everett (October 1997). "Eurasian mammal biochronology: an overview". Palaeogeography, Palaeoclimatology, Palaeoecology. 133 (3–4): 117–128. Bibcode:1997PPP...133..117L. doi:10.1016/S0031-0182(97)00083-7.
- Mein, P. (1975). Report on activity RCMNS-Working groups, 1971–1975, pp. 78–81, Bratislava.
- Rose, Kenneth D. (2006). The beginning of the age of mammals. Baltimore, Md.: Johns Hopkins Univ. Press. ISBN 978-0801884726.
- Steininger, F.F. (1999). "Chronostratigraphy, Geochronology and Biochronology of the Miocene "European Land Mammal Mega-Zones" (ELMMZ) and the Miocene "Mammal Zones (MN-Zones)"". In Rössner, G. E.; Heissig, K. (eds.). The Miocene land mammals of Europe. München: Pfeil. pp. 9–24. ISBN 3-931516-50-4.