Megaloceros
a.k.a Irish Elk and Giant Deer
Name:
Megaloceros
(Great horn).
Phonetic: Meg-ah-loe-seh-ross.
Named By: Johann Friedrich Blumenbach - 1799.
Synonyms: Megaceroides, Megaceros,
Megaloceros giganteus giganteus, Orthogonoceros, Praemegaceros,
Sinomegaceros. See main text for more details.
Classification: Chordata, Mammalia,
Artiodactyla, Cervidae.
Species: M. giganteus (type),
M.
antecedens, M. cazioti, M. dawkinsi, M. luochuanensis,
M. matritensis, M. obscurus, M. pachyosteus, M. savini,
M. verticornis.
See main text for more details.
Diet: Herbivore.
Size: 2.1 meters high at the shoulder for the
largest species M. giganteus (Irish elk).
Smaller species as small as 1 meter tall at the shoulder.
Known locations: Eurasia.
Time period: Mid Ionian of the Pleistocene through
to early Holocene.
Fossil representation: Multiple specimens.
Although
often associated with Western Europe where remains were first
documented, Megaloceros was actually widespread
across Eurasia. The
type species of Megaloceros, M.
giganteus, is by far the largest
and is more commonly known as the ‘Irish Elk’, ‘Irish Deer’ or
just simply ‘Giant Deer’. As a genus however, Megaloceros
shows
a varied number of sizes across its many species, some of which
strongly support the idea of insular dwarfism. This is where isolated
populations on small bodies of land grow smaller with successive
populations so that they do not eat up all of the plants and end up
starving into extinction. Aside from Megaloceros
another Pleistocene
mammal that displays strong insular dwarfism is the pygmy mammoth
Mammuthus
exilis.
The
full size range of
Megaloceros is hard to establish with certainty as
different
palaeontologists have differing interpretations of the validity of
species. Many of the synonyms and species noted above, though
widely accepted, are sometimes still listed as being valid or in
positions where they are sub groups to the genus. These
interpretations come about from the overall similarity of giant deer
remains that have been recovered from across Eurasia that although
different, still closely match one another in form and proportion.
Today the smallest species of Megaloceros is
credited as being M.
cazioti that was less than one meter tall at the
shoulder. However
another Pleistocene deer from the island of Crete called Candiacervus
rhopalophorus grew to sixty-five centimetres high at the
shoulder and
is thought by many to actually be a sub genus to Megaloceros.
Regardless of size however, studies have shown that the antlers of
Megaloceros, while different in form between
species, would always
be in roughly the same proportion to the body no matter how big the
animal.
Cave
art from early humans
depicts Megaloceros as having a dark coat of fur
with a white
underside, quite similar to other deer today. The art also shows
Megaloceros to have had a small hump above its
shoulders which has been
interpreted as being for the storage of body fat for survival in lean
times. The presence of a hump is supported by observation of the
forward dorsal vertebrae on Megaloceros which have
enlarged neural
spines (bony projections that point up from the vertebrae) that
would have granted structured support for a hump. This hump
adaptation was not unique to Megaloceros however,
as other large
Eurasian mammals such as the woolly rhino Coelodonta,
and even woolly
mammoths also have enlarged neural spines for supporting humps.
The
large antlers of
Megaloceros were once the basis of a controversial
theory regarding its
extinction where the antlers are considered to have grown so heavy that
male Megaloceros could not even lift their heads
when they had full
antlers. Needless to say that this is considered highly unlikely
because animals that handicapped themselves in such a way would not be
able to continue the species for several hundred thousand years.
However the original theory might not actually be too far off the mark
with the antlers actually being the root weakness that prevented
Megaloceros from adapting to new conditions.
Deer
antlers are not
permanent structures and after the breeding season the males always
shed them so that they are left with two bloody stumps on the top of
their head. After this a set of new antlers is grown, but they have
to grow fast and large in time for the next breeding season. This
requires a good supply of nutrients from plants, but the bodies of
male deer will also use up nutrients that are stored in the bones to
make up any shortfall in nutrients from the regular diet. This is
where climate change at the end of the Pleistocene becomes a
contributing factor as this signalled a change in the kind of plants
growing across Eurasia. These new plants not only began to replace
the plants that Megaloceros usually ate, they
also had a reduced
mineral content.
This
means that Megaloceros
would have had to rely upon a greater amount of reabsorption of
minerals from its bones to continually regrow its antlers. Without
the necessary intake of minerals from its diet to replace these used
minerals, the bones would have steadily grown weaker and weaker.
With such weakness developing in the skeleton, injuries like broken
bones would have become far more common, especially from strenuous
activities such as running from predators or fighting other males.
The declining populations also coincide with climate models of the
time with Megaloceros first disappearing from areas
that were the first
to experience climate change, to the very last surviving in areas
that were the last to be affected by new environmental conditions.
The
theory about human
hunting being the sole cause of extinction is no longer considered that
plausible. This is because early humans did not just suddenly appear
overnight and commence a wholesale slaughter of animals, they instead
evolved and coexisted for several hundred thousand years before
Megaloceros went extinct. Although early humans
almost certainly
hunted Megaloceros, it’s extremely unlikely that
after all this time
they would have wiped out the species all by themselves in just a few
thousand years considering that there were also other animals to hunt.
Further reading
- Origin and Function of 'Bizarre' Structures - Antler Size and Skull
Size in 'Irish Elk', Megaloceros giganteus. -
Evolution 28(2):
191-220.Stephen J. Gould - 1974.
- Notes on Megaloceros luochuanensis (sp. nov.)
from Hei-Mugou,
Luochuan, Shaanxi province. - Vertebrata PalAsiatica (Gujizhui dongwu
yu gurenlei) 20(3):228-235 - X. Xue - 1982.
- Taphonomy and Herd Structure of the Extinct Irish Elk, Megalocerous
giganteus. - Science. New 228 (4697): 340–344. - Anthony
Barnosky -
1985.
- Megaceros or Megaloceros? The
nomenclature of the giant deer. -
Quaternary Newsletter 52: 14-16. - A. M. Lister - 1987.
- Fighting behavior of the extinct Irish elk. - Modern Geology 11:
1–28. - A. Kitchener - 1987.
- Antler growth and extinction of Irish elk. - Evolutionary Ecology
Research: 235–249. - Ron Moen, John Pastor & Yosef Cohen - 1999.
- Antler growth and extinction of Irish Elk. - Evolutionary Ecology
Research 1: 235–249 - R. A. Moen, J. Pastor & Y. Cohen - 1999.
- Survival of the Irish elk into the Holocene. - Nature 405: 753–754. -
Silvia Gonzalez, Andrew Kitchener & Adrian Lister - 2000.
- Pleistocene to Holocene extinction dynamics in giant deer and woolly
mammoth. - Nature 431(7009): 684-689 - A. J. Stuart, P.A. Kosintsev, T.
F. G. Higham & A. M. Lister - 2004.
- The phylogenetic position of the giant deer Megaloceros
giganteus. -
Nature 438 (7069): 850–853. - A. M. Lister, C. J. Edwards, D. A. W.
Nock, M. Bunce, I. A. van Pijlen, D. G. Bradley, M. G. Thomas, I.
Barnes - 2005.
- Molecular phylogeny of the extinct giant deer, Megaloceros
giganteus.
- Molecular Phylogenetics and Evolution 40(1): 285–291. - Sandrine
Hughes, Thomas J. Hayden, Christophe J. Douady, Christelle Tougard,
Mietje Germonpr�, Anthony Stuart, Lyudmila Lbova, Ruth F.
Carden,Catherine H�nni & Ludovic Say - 2006.
- Phylogeny of the giant deer with palmate brow tines Megaloceros
from
west and Sinomegaceros from east Eurasia. -
Quaternary International
179 (1): 135–162. - J. van der Made & H. W. Tong - 2008.
- Getting to the Hart of the Matter: Did Antlers Truly Cause the
Extinction of the Irish Elk?. Oikos, (9), 1397. - C. Worman &
T. Kimbrell - 2008.
- The latest Early Pleistocene giant deer Megaloceros
novocarthaginiensis n. sp. and the fallow deer "Dama df.
vallonnetensis" from Cueva Victoria (Murcia, Spain)". Mastia. 11–13:
269–323. - Jan Van Der Made - 2015.
- Deer of the genus Megaloceros (Mammalia,
Cervidae) from the Early
Pleistocene of Ciscaucasia. - Paleontological Journal. 50 (1): 87–95. -
V. V. Titov & A. K. Shvyreva - 2016.
- The dwarfed "giant deer" Megaloceros matritensis
n.sp. from the
Middle Pleistocene of Madrid - A descendant of M. savini and
contemporary to M. giganteus. - Quaternary International - Jan Van Der
Made - 2019.
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