Neanderthal
The Neanderthal (short for Neanderthal Man, in English pronounced /niːˈændərtɑːl/, /niːˈændərθɔːl/) or /neɪˈændərtɑːl/; also spelled Neandertal) is an extinct member of the Homo genus that is known from Pleistocene specimens found in Europe and parts of western and central Asia. Neanderthals are either classified as a subspecies (or race) of humans (Homo sapiens neanderthalensis) or as a separate species (Homo neanderthalensis).[1]
The first proto-Neanderthal traits appeared in Europe as early as 600,000–350,000 years ago.[2] Proto-Neanderthal traits are occasionally grouped to another phenetic 'species', Homo heidelbergensis, or a migrant form, Homo rhodesiensis.
By 130,000 years ago, complete Neanderthal characteristics had appeared. These characteristics then disappeared in Asia by 50,000 years ago and in Europe by about 30,000 years ago, with no further individuals having enough Neanderthal morphological traits to be considered as part of Homo neanderthalensis.[3]
Current (as of 2010) genetic evidence suggests interbreeding took place with Homo sapiens sapiens (anatomically modern humans) between roughly 80,000 to 50,000 years ago in the Middle East, resulting in 1-4% of the genome of people from Eurasia having been contributed by Neanderthals.[4][5]
The youngest Neanderthal finds include Hyaena Den (UK), considered older than 30,000 years ago, while the Vindija (Croatia) Neanderthals have been redated to between 32,000 and 33,000 years ago. No definite specimens younger than 30,000 years ago have been found; however, evidence of fire by Neanderthals at Gibraltar indicate they may have survived there until 24,000 years ago. Cro-Magnon or early modern human skeletal remains with 'Neanderthal traits' were found in Lagar Velho (Portugal), dated to 24,500 years ago and controversially interpreted as indications of extensively admixed populations.[6]
Neanderthal stone tools provide further evidence for their presence where skeletal remains have not been found. The last traces of Mousterian culture, a type of stone tools associated with Neanderthals, were found in Gorham's Cave on the remote south-facing coast of Gibraltar.[7] Other tool cultures sometimes associated with Neanderthal include Châtelperronian, Aurignacian, and Gravettian, with the latter extending to 22,000 years ago, the last indication of Neanderthal presence.
Neanderthal cranial capacity is thought to have been as large as that of Homo sapiens, perhaps larger, indicating their brain size may have been comparable, as well. In 2008, a group of scientists created a study using three-dimensional computer-assisted reconstructions of Neanderthal infants based on fossils found in Russia and Syria, showing that they had brains as large as modern humans' at birth and larger than modern humans' as adults.[8] On average, the height of Neanderthals was comparable to contemporaneous Homo sapiens. Neanderthal males stood about 165–168 cm (65–66 in), and were heavily built with robust bone structure. They were much stronger than Homo sapiens, having particularly strong arms and hands.[9] Females stood about 152–156 cm (60–61 in).[10] They were almost exclusively carnivorous[11] and apex predators.[12]
Name
The Neanderthal is named after the Neandertal valley, formerly spelled Neanderthal, which is located about 12 km (7.5 mi) east of Düsseldorf, Germany. The valley itself was named after the theologian Joachim Neander, who lived nearby in Düsseldorf in the late 17th century. "Neander" is a classicized form of the common German surname Neumann. The fossil discovered in the Neandertal in 1856, Neanderthal 1, was known as the "Neanderthal skull" or "Neanderthal cranium" in anthropological literature, and the individual reconstructed on the basis of the skull was occasionally called the "Neanderthal man".[13] The binomial name Homo neanderthalensis, extending the name "Neanderthal man" from the individual type specimen to the entire species, is due to the Anglo-Irish geologist William King (1864). The practice of referring to the members of the species simply as "the Neanderthals", singular "a Neanderthal", emerges in popular literature of the 1920s.[14]
The spelling of the German word Thal ("dale, valley"), was changed to Tal in 1901, and the spelling of the valley was also changed accordingly to Neandertal. The former spelling is, however, often retained in English for the hominid. The spelling with th is in addition always used in scientific names throughout the world. In German, however, the modern spelling with t is used in referring to both the hominid and the valley. Neandertal is a widespread alternative spelling in English, becoming so common it is sometimes now listed first in dictionaries, for example MSN Encarta. Archived 2009-11-01.
The pronunciation of the German name Neandert(h)aler (regardless of spelling) is [nɛˈandɐˌtʰalɐ]. American English speakers commonly pronounce it as /θ/ (th as in thin), but American scientists usually use /t/. British English speakers usually pronounce it as /t/ followed by a long a as in tar,[15] matching the German pronunciation. The pronunciation /niːˈændərθɔːl/ is very common in the United States and is often listed first in US dictionaries, for example American Heritage Dictionary and Random House Dictionaries. The UK pronunciation is /niːˈændərtɑːl/, as shown in Cambridge Advanced Learner's Dictionary), and Oxford Advanced Learner's Dictionary.
Classification
First reconstruction of a Neanderthal male
For some time, scientists have debated whether Neanderthals should be classified as Homo neanderthalensis or as Homo sapiens neanderthalensis, the latter placing Neanderthals as a subspecies of Homo sapiens.[16] Some morphological studies support that Homo neanderthalensis is a separate species and not a subspecies.[17] Others, for example University of Cambridge Professor Paul Mellars, say "no evidence has been found of cultural interaction"[18] and evidence from mitochondrial DNA studies have been interpreted as evidence Neanderthals were not a subspecies of H. sapiens,[19] though more recent genomic evidence showed otherwise.[4][5]
Neanderthals evolved from early Homo along a path similar to Homo sapiens, both deriving from a chimp-like ancestor between five and 10 million years ago. Like H. sapiens, Neanderthals are related to Australopithecus, Homo habilis, and Homo ergaster; the exact descent remains uncertain. The last common ancestor between anatomically modern Homo sapiens and Neanderthals appears to be Homo rhodesiensis, named after an archaic Homo sapiens fossil, Broken hill 1 (Kabwe 1) discovered in the territory of Rhodesia in 1921.
Homo rhodesiensis arose in Africa an estimated 0.7 to 1 million years ago. The earliest estimates for Homo rhodesiensis reaching Europe are approximately 800 thousand years ago when a type of human referred to as Homo antecessor or Homo cepranensis already inhabited the region. These two human types may be forerunners to European Homo heidelbergensis; however, stone tools dating from 1.2 to 1.56 million years ago of an unknown creator have been discovered in southwestern Europe. The evidence at the Sima de los Huesos (in the Atapuerca cave system on the Iberian Peninsula) suggests Homo heidelbergensis was already in Europe by 600,000 years ago.
Molecular phylogenetic analysis suggests Homo rhodesiensis and Homo heidelbergensis continued to intermix until 350,000 years ago, after which they were separate species, and sometime within the last 200,000 years Homo heidelbergensis evolved into Homo neanderthalensis, the classic Neanderthal human. It appears the original Neanderthal population was, in fact, more distantly related to today's human than is Homo heidelbergensis. However, recent evidence of successful interbreeding between Neanderthals and modern humans has made that issue moot, at least insofar as some Neanderthal populations were concerned.
Discovery
The site of Kleine Feldhofer Grotte where the first Neanderthal was unearthed by miners in the 19th century
Location of Neander Valley, Germany. (The highlighted area is the modern federal state of
North Rhine-Westphalia.)
Neanderthal skulls were first discovered in Engis, Belgium (1829) by Philippe-Charles Schmerling and in Forbes' Quarry, Gibraltar (1848), both prior to the type specimen discovery in a limestone quarry of the Neander Valley in Erkrath near Düsseldorf in August 1856, three years before Charles Darwin's On the Origin of Species was published.[20]
The type specimen, dubbed Neanderthal 1, consisted of a skull cap, two femora, three bones from the right arm, two from the left arm, part of the left ilium, fragments of a scapula, and ribs. The workers who recovered this material originally thought it to be the remains of a bear. They gave the material to amateur naturalist Johann Carl Fuhlrott, who turned the fossils over to anatomist Hermann Schaaffhausen. The discovery was jointly announced in 1857.
The original Neanderthal discovery is now considered the beginning of paleoanthropology. These and other discoveries led to the idea these remains were from ancient Europeans who had played an important role in modern human origins. The bones of over 400 Neanderthals have been found since.
Timeline
Skull, found in 1886 in Spy, Belgium
Frontal bone of a neanderthal child from the cave of La Garigüela
Skull from La Chapelle aux Saints
- 1829: Neanderthal skulls were discovered in Engis, Belgium.
- 1848: Neanderthal skull found in Forbes' Quarry, Gibraltar. Called "an ancient human" at the time.
- 1856: Johann Karl Fuhlrott first recognized the fossil called "Neanderthal man", discovered in Neanderthal, a valley near Mettmann in what is now North Rhine-Westphalia, Germany.
- 1880: The mandible of a Neanderthal child was found in a secure context and associated with cultural debris, including hearths, Mousterian tools, and bones of extinct animals.
- 1886: Two nearly perfect skeletons of a man and woman were found at Spy, Belgium at the depth of 16 ft with numerous Mousterian-type implements.
- 1899: Hundreds of Neanderthal bones were described in stratigraphic position in association with cultural remains and extinct animal bones.
- 1908: A nearly complete Neanderthal skeleton was discovered in association with Mousterian tools and bones of extinct animals.
- 1953–1957: Ralph Solecki uncovered nine Neanderthal skeletons in Shanidar Cave in northern Iraq.
- 1975: Erik Trinkaus's study of Neanderthal feet confirmed they walked like modern humans.
- 1987: Thermoluminescence results from Israeli fossils date Neanderthals at Kebara to 60,000 BP and humans at Qafzeh to 90,000 BP. These dates were confirmed by electron spin resonance (ESR) dates for Qafzeh (90,000 BP) and Es Skhul (80,000 BP).
- 1991: ESR dates showed the Tabun Neanderthal was contemporaneous with modern humans from Skhul and Qafzeh.
- 1997: Matthias Krings et al. are the first to amplify Neanderthal mitochondrial DNA (mtDNA) using a specimen from Feldhofer grotto in the Neander valley.[21]
- 2000: Igor Ovchinnikov, Kirsten Liden, William Goodman et al. retrieved DNA from a Late Neanderthal (29,000 BP) infant from Mezmaikaya Cave in the Caucasus.[22]
- 2005: The Max Planck Institute for Evolutionary Anthropology launched a project to reconstruct the Neanderthal genome.
- 2006: The Max Planck Institute for Evolutionary Anthropology announced it planned to work with Connecticut-based 454 Life Sciences to reconstruct the Neanderthal genome.
- 2009: The Max Planck Institute for Evolutionary Anthropology announced the "first draft" of a complete Neanderthal genome is completed.[23]
- 2010: Comparison of Neanderthal genome with modern humans from Africa and Eurasia shows 1-4% of modern non-African humans have Neanderthal DNA. [4][5]
Habitat and range
Sites where typical Neanderthal fossils have been found
Early Neanderthals lived in the Last Glacial age for a span of about 100,000 years. Because of the damaging effects the glacial period had on the Neanderthal sites, not much is known about the early species. Countries where their remains are known include most of Europe south of the line of glaciation, roughly along the 50th parallel north, including most of Western Europe, including the south coast of Great Britain,[24] Central Europe and the Balkans,[25] some sites in the Ukraine and in western Russia and outside of Europe in the Zagros Mountains and in the Levant.
Neanderthal fossils have not been found to date in Africa, but there have been finds rather close to Africa, both at Gibraltar and in the Levant. At some Levantine sites, Neanderthal remains, in fact, date after the same sites were vacated by Homo sapiens. Mammal fossils of the same time period show cold-adapted animals were present alongside these Neanderthals in this region of the Eastern Mediterranean. This implies Neanderthals were better adapted biologically to cold weather than H. sap. and at times displaced H. sap. in parts of the Middle East when the climate got cold enough. Homo sapiens appears to have been the only human type in the Nile River Valley during these periods, and Neanderthals are not known to have ever lived southwest of modern Israel. When further climate change caused warmer temperatures, the Neanderthal range likewise retreated to the north along with the cold-adapted species of mammals. Apparently these weather-induced population shifts took place before "modern" people secured competitive advantages over the Neanderthal, as these shifts in range took place well over ten thousand years before "moderns" totally replaced the Neanderthal, despite the recent evidence of some successful interbreeding.[26]
There were separate developments in the human line, in other regions such as Southern Africa, that somewhat resembled the European and Western/Central Asian Neanderthals, but these people were not actually Neanderthals. One such example is Rhodesian Man (Homo rhodesiensis) who existed long before any classic European Neanderthals, but had a more modern set of teeth, and arguably some H. rhodesiensis populations were on the road to modern Homo sapiens sapiens.
To date, no intimate connection has been found between these similar people and the Western/Central Eurasian Neanderthals, at least during the same time as classic Eurasian Neanderthals, and H. rhodesiensis seems to have evolved separately and earlier than classic Neanderthals in a case of convergent evolution.
It appears incorrect, based on present research and known fossil finds, to refer to any fossil outside Europe or Western and Central Asia as a true Neanderthal. True Neanderthals had a known range that possibly extended as far east as the Altai Mountains, but not farther to the east or south, and apparently not into Africa. At any rate, in Africa the land immediately south of the Neanderthal range was possessed by "modern" H. sap., since at least 160,000 years before the present.
Classic Neanderthal fossils have been found over a large area, from northern Germany to Israel and Mediterranean countries like Spain[27] and Italy[28] in the south and from England and Portugal in the west to Uzbekistan in the east. This area probably was not occupied all at the same time. The northern border of their range, in particular, would have contracted frequently with the onset of cold periods. On the other hand, the northern border of their range as represented by fossils may not be the real northern border of the area they occupied, since Middle Palaeolithic-looking artifacts have been found even further north, up to 60° N, on the Russian plain.[29] Recent evidence has extended the Neanderthal range by about 1,250 miles (2,010 km) east into southern Siberia's Altay Mountains.[30][31]
Anatomy
Neanderthal anatomy was more robust than anatomically modern humans.
Behavior
Neanderthals were almost exclusively carnivorous[11] and apex predators.[12] They made advanced tools, had a language (the nature of which is debated) and lived in complex social groups.
Genome
Early investigations concentrated on mitochondrial DNA (mtDNA), which, owing to strictly matrilineal inheritance and subsequent vulnerability to genetic drift, is of limited value in evaluating the possibility of interbreeding of Neanderthals with Cro-Magnon people.
In July 2006, the Max Planck Institute for Evolutionary Anthropology and 454 Life Sciences announced that they would sequence the Neanderthal genome over the next two years. This genome is expected to be roughly the size of the human genome, three-billion base pairs, and share most of its genes. It was hoped the comparison would expand understanding of Neanderthals, as well as the evolution of humans and human brains.[32]
Svante Pääbo has tested more than 70 Neanderthal specimens. Preliminary DNA sequencing from a 38,000-year-old bone fragment of a femur found at Vindija Cave, Croatia, in 1980 showed Homo neanderthalensis and Homo sapiens share about 99.5% of their DNA. From mtDNA analysis estimates, the two species shared a common ancestor about 500,000 years ago. An article[33] appearing in the journal Nature has calculated the species diverged about 516,000 years ago, whereas fossil records show a time of about 400,000 years ago.[34] A 2007 study pushes the point of divergence back to around 800,000 years ago.[35]
Edward Rubin of the Lawrence Berkeley National Laboratory in Berkeley, California, states recent genome testing of Neanderthals suggests human and Neanderthal DNA are some 99.5% to nearly 99.9% identical.[36][37]
On 16 November 2006, Lawrence Berkeley National Laboratory issued a press release suggesting Neanderthals and ancient humans probably did not interbreed.[38] Edward M. Rubin, director of the U.S. Department of Energy's Lawrence Berkeley National Laboratory and the Joint Genome Institute (JGI), sequenced a fraction (0.00002) of genomic nuclear DNA (nDNA) from a 38,000-year-old Vindia Neanderthal femur. They calculated the common ancestor to be about 353,000 years ago, and a complete separation of the ancestors of the species about 188,000 years ago. Their results show the genomes of modern humans and Neanderthals are at least 99.5% identical, but despite this genetic similarity, and despite the two species having coexisted in the same geographic region for thousands of years, Rubin and his team did not find any evidence of any significant crossbreeding between the two. Rubin said, "While unable to definitively conclude that interbreeding between the two species of humans did not occur, analysis of the nuclear DNA from the Neanderthal suggests the low likelihood of it having occurred at any appreciable level."[39]
In 2008 Richard E. Green et al. from Max Planck Institute for Evolutionary Anthropology in Munich, Germany published the full sequence of Neanderthal mitochondrial DNA (mtDNA) and suggested "Neanderthals had a long-term effective population size smaller than that of modern humans."[40] Writing in Nature about Green et al.'s findings, James Morgan asserted the mtDNA sequence contained clues that Neanderthals lived in "small and isolated populations, and probably did not interbreed with their human neighbours."[41][42]
In the same publication, it was disclosed by Svante Pääbo that in the previous work at the Max Planck Institute that "Contamination was indeed an issue," and they eventually realized that 11% of their sample was modern human DNA.[43][44] Since then, more of the preparation work has been done in clean areas and 4-base pair 'tags' have been added to the DNA as soon as it is extracted so the Neanderthal DNA can be identified.
With 3 billion nucleotides sequenced, analysis of about 1/3rd showed no sign of admixture between modern humans and Neanderthals, according to Pääbo. This concurred with the work of Noonan from two years earlier. The variant of microcephalin common outside Africa, which was suggested to be of Neanderthal origin and responsible for rapid brain growth in humans, was not found in Neanderthals. Nor was the MAPT variant, a very old variant found primarily in Europeans.[43]
However, an analysis of a first draft of the Neanderthal genome by the same team released in May 2010 indicates interbreeding may have occurred.[4][5] "Those of us who live outside Africa carry a little Neanderthal DNA in us," said Pääbo, who led the study. "The proportion of Neanderthal-inherited genetic material is about 1 to 4 percent. It is a small but very real proportion of ancestry in non-Africans today," says Dr. David Reich of Harvard Medical School in Boston, who worked on the study. This research compared the genome of the Neanderthals to five modern humans from China, France, sub-Saharan Africa, and Papua New Guinea. The finding is that about 1 to 4 percent of the genes of the non-Africans came from Neanderthals, compared to the baseline defined by the two Africans. This indicates a gene flow from Neanderthals to modern humans, i.e., interbreeding between the two populations. Since the three non-African genomes show a similar proportion of Neanderthal sequences, the interbreeding must have occurred early in the migration of modern humans out of Africa, perhaps in the Middle East. No evidence for gene flow in the direction from modern humans to Neanderthals was found. The latter result would not be unexpected if contact occurred between a small colonizing population of modern humans and a much larger resident population of Neanderthals. A very limited amount of interbreeding could explain the findings, if it occurred early enough in the colonization process.[4]
While interbreeding is viewed as the most parsimonious interpretation of the genetic discoveries, the authors point out they cannot conclusively rule out an alternative scenario, in which the source population of non-African modern humans was already more closely related to Neanderthals than other Africans were, due to ancient genetic divisions within Africa.[4]
Among the genes shown to differ between present-day humans and Neanderthals were RPTN, SPAG17, CAN15, TTF1 and PCD16.[4]
Extinction
The Neanderthals disappear from the fossil record after about 25,000 years ago. The last traces of Mousterian culture (without human specimens) have been found in Gorham's Cave on the remote south-facing coast of Gibraltar, dated 30,000 to 24,500 years ago. Possible scenarios are:
- Neanderthals were a separate species from modern humans, and became extinct (due to climate change or interaction with humans) and were replaced by H. sapiens moving into its habitat beginning around 80 kya.[45] Competition from H. sapiens probably contributed to Neanderthal extinction.[46] Jared Diamond has suggested a scenario of violent conflict and displacement.[47]
- Neanderthals were a contemporary subspecies that intentionally bred with Homo sapiens and disappeared through absorption (interbreeding hypothesis).
mtDNA-based simulation of modern human expansion in Europe starting 1600 generations ago. Neanderthal range in light grey.
[48]
As Jordan notes: "A natural sympathy for the underdog and the disadvantaged lends a sad poignancy to the fate of the Neanderthal folk, however it came about." Jordan, though, does say that there was perhaps interbreeding to some extent, but that populations that remained totally Neanderthal were likely out-competed and marginalized to extinction by the Aurignacians.[26]
Climate change
About 55,000 years ago, the weather began to fluctuate wildly from extreme cold conditions to mild cold and back in a matter of a few decades. Neanderthal bodies were well suited for survival in a cold climate—their barrel chests and stocky limbs stored body heat better than the Cro-Magnons. However, the rapid fluctuations of weather caused ecological changes to which the Neanderthals could not adapt. The weather changes were so rapid that within a lifetime, plants and animals someone grew up with would be replaced by completely different plants and animals. Neanderthal's ambush techniques would have failed as grasslands replaced trees. A large number of Neanderthals would have died during these fluctuations, which peaked about 30,000 years ago.[49]
Studies on Neanderthal body structures have shown that they needed more energy to survive than Cro-Magnons. Their energy needs were up to 100-350 calories more per day comparing to projected AMH males weighting 68.5kg and females 59.2kg[50]. When food became scarce, this difference may have played a major role in the Neanderthals' extinction.[49]
Coexistence with H. sapiens
The validity of such an extensive period of cornered Neanderthal groups is recently questioned. There is no longer certainty regarding the identity of the humans who produced the Aurignacian culture, even though the presumed westward spread of anatomically modern humans (AMHs) across Europe is still based on the controversial first dates of the Aurignacian. Currently, the oldest European anatomically modern Homo sapiens is represented by a robust modern-human mandible discovered at Peştera cu Oase (southwest Romania), dated to 34–36 thousand years ago. Human skeletal remains from the German site of Vogelherd, so far regarded as the best association between anatomically modern Homo sapiens and Aurignacian culture, were revealed to represent intrusive Neolithic burials into the Aurignacian levels and subsequently all the key Vogelherd fossils are now dated to 3.9–5.0 thousand years ago instead.[51] As for now, the expansion of the first anatomically modern humans into Europe cannot be located by diagnostic and well-dated AMH fossils "west of the Iron Gates of the Danube" before 32 thousand years ago.[52]
Consequently, the exact nature of biological and cultural interaction between Neanderthals and other human groups between 50 and 30 thousand years ago is currently hotly contested.[53] A new proposal strives to resolve the issue by proposing the Gravettians rather than the Aurignacians as the anatomically modern humans who contributed to the Eurasian genetic pool after 30 thousand years ago.[53] Correspondingly, the human skull fragment found at the Elbe River bank at Hahnöfersand near Hamburg was once radiocarbon-dated to 36,000 years ago and seen as possible evidence for the intermixing of Neanderthals and anatomically modern humans. It is now dated to the more recent Mesolithic.[54]
Interbreeding hypotheses
An alternative to extinction is that Neanderthals were absorbed into the Cro-Magnon population by interbreeding. This would be counter to strict versions of the Recent African Origin, since it would imply that at least part of the genome of Europeans would descend from Neanderthals, who left Africa at least 350,000 years ago.
The most vocal proponent of the hybridization hypothesis is Erik Trinkaus of Washington University.[55] Trinkaus claims various fossils as hybrid individuals, including the "child of Lagar Velho", a skeleton found at Lagar Velho in Portugal dated to about 24,000 years ago.[56] In a 2006 publication co-authored by Trinkaus, the fossils found in 1952 in the cave of Peștera Muierii, Romania, are likewise claimed as hybrids.[57]
An estimated 1 to 4 percent of the DNA in Europeans and Asians (i.e. French, Chinese and Papua probands) is non-modern, and shared with ancient Neanderthal DNA rather than with Sub-Saharan Africans (i.e. Yoruba and San probands).[58] The cause of this is unclear. It has been suggested it is due to interbreeding between Neanderthals and the ancestors of non-Africans after they left Africa, but this is not certain.
Specimens
The Ferrassie skull
- Neanderthal 1: Initial Neanderthal specimen found during an archaeological dig in August 1856. Discovered in a limestone quarry at the Feldhofer grotto in Neanderthal, Germany. The find consisted of a skull cap, two femora, the three right arm bones, two of the left arm bones, ilium, and fragments of a scapula and ribs.
- La Chapelle-aux-Saints 1: Called the Old Man, a fossilized skull discovered in La Chapelle-aux-Saints, France, by A. and J. Bouyssonie, and L. Bardon in 1908. Characteristics include a low vaulted cranium and large browridge typical of Neanderthals. Estimated to be about 60,000 years old, the specimen was severely arthritic and had lost all his teeth, with evidence of healing. For him to have lived on would have required that someone process his food for him, one of the earliest examples of Neanderthal altruism (similar to Shanidar I.)
- La Ferrassie 1: A fossilized skull discovered in La Ferrassie, France, by R. Capitan in 1909. It is estimated to be 70,000 years old. Its characteristics include a large occipital bun, low-vaulted cranium and heavily worn teeth.
- Le Moustier: A fossilized skull, discovered in 1909, at the archaeological site in Peyzac-le-Moustier, Dordogne, France. The Mousterian tool culture is named after Le Moustier. The skull, estimated to be less than 45,000 years old, includes a large nasal cavity and a somewhat less developed brow ridge and occipital bun as might be expected in a juvenile.
Type Specimen, Neanderthal 1
- Shanidar 1: Found in the Zagros Mountains in northern Iraq; a total of nine skeletons found believed to have lived in the Middle Paleolithic. One of the nine remains was missing part of its right arm; theorized to have been broken off or amputated. The find is also significant because it shows that stone tools were present among this tribe's culture. One was buried with flowers, showing that some type of burial ceremony may have occurred.
Chronology
Bones with Neanderthal traits in chronological order.
Mixed with H. heidelbergensis traits
- > 350 ka: Sima de los Huesos c. 500:350 ka ago[59][60]
- 350–200 ka: Pontnewydd 225 ka ago.
- 200–135 ka: Atapuerca,[61] Vértesszöllos, Ehringsdorf, Casal de'Pazzi, Biache, La Chaise, Montmaurin, Prince, Lazaret, Fontéchevade
Typical H. neanderthalensis traits
- 135–45 ka: Krapina, Saccopastore, Malarnaud, Altamura, Gánovce, Denisova, Okladnikov Altai, Pech de l'Azé, Tabun 120 ka – 100±5 ka,[62] Qafzeh9 100, Shanidar 1 to 9 80–60 ka, La Ferrassie 1 70 ka, Kebara 60 ka, Régourdou, Mt. Circeo, Combe Grenal, Erd 50 ka, La Chapelle-aux Saints 1 60 ka, Amud, Teshik-Tash.
- 45–35 ka: Le Moustier 45 ka, Feldhofer 42 ka, La Quina, l'Horus, Hortus, Kulna, Šipka, Saint Césaire, Bacho Kiro, El Castillo, Bñnolas, Arcy-sur-Cure.[63]
- < 35 ka: Chătelperron, Figueria Brava, Mladeč 31 ka, Zafaraya 30 ka,[63] Vogelherd 3?,[64] Vindija 32,400 ± 800 14C B.P.[65] (Vi-208 31,390 ± 220, Vi-207 32,400 ± 1,800 14C B.P.),[66] Velika Pećina,
Mixed with AMH traits
- < 35 Pestera cu Oase 35 ka, Pestera Muierii 30 ka (n/s),[67] Lagar Velho 24.5 ka.
Popular culture
Neanderthals often appear in popular culture, often in unflattering and inaccurate light, much in the same way as "dinosaur" or "Yahoo" is also used.
See also
- Abrigo do Lagar Velho—More about "the Lapedo child"
- Almas: wild man of Mongolia
- Altamura Man
- Biological anthropology
- Caveman
- Max Planck Institute for Evolutionary Anthropology
- Neanderthal Museum
- Pleistocene megafauna
Lists:
- List of fossil sites (with link directory)
- List of human evolution fossils (with images)
- List of Neanderthal sites
- ↑ Tattersall I, Schwartz JH (June 1999). "Hominids and hybrids: the place of Neanderthals in human evolution". Proceedings of the National Academy of Sciences 96 (13): 7117–9. doi:10.1073/pnas.96.13.7117. PMID 10377375. PMC 33580. http://www.pnas.org/cgi/pmidlookup?view=long&pmid=10377375. Retrieved 17 May 2009.
- ↑ J. L. Bischoff et al. (2003). "The Sima de los Huesos Hominids Date to Beyond U/Th Equilibrium (>350 kyr) and Perhaps to 400–500 kyr: New Radiometric Dates". J. Archaeol. Sci. 30 (30): 275. doi:10.1006/jasc.2002.0834.
- ↑ Viegas, Jennifer (23 June 2008). "Last Neanderthals Were Smart, Sophisticated". Discovery Channel. http://dsc.discovery.com/news/2008/06/23/neanderthal-tools.html. Retrieved 18 May 2009.
- ↑ 4.0 4.1 4.2 4.3 4.4 4.5 4.6 Richard E. Green et al (2010). "A Draft Sequence of the Neanderthal Genome". Science 328 (5979): 710–722. doi:10.1126/science.1188021. PMID 20448178.
- ↑ 5.0 5.1 5.2 5.3 Rincon, Paul (2010-05-06). "Neanderthal genes 'survive in us'". BBC News (BBC). http://news.bbc.co.uk/2/hi/science/nature/8660940.stm. Retrieved 2010-05-07.
- ↑ Duarte C, Maurício J, Pettitt PB, Souto P, Trinkaus E, van der Plicht H, Zilhão J (June 1999). "The early Upper Paleolithic human skeleton from the Abrigo do Lagar Velho (Portugal) and modern human emergence in Iberia". Proceedings of the National Academy of Sciences 96 (13): 7604–9. doi:10.1073/pnas.96.13.7604. PMID 10377462. PMC 22133. http://www.pnas.org/cgi/pmidlookup?view=long&pmid=10377462. Retrieved 16 May 2009.
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- ↑ "a very primitive race of men, known as the Neanderthals" Boys' Life January 1924, p. 18
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- ↑ Higham T, Ramsey CB, Karavanić I, Smith FH, Trinkaus E (January 2006). "Revised direct radiocarbon dating of the Vindija G1 Upper Paleolithic Neandertals". Proceedings of the National Academy of Sciences 103 (3): 553–7. doi:10.1073/pnas.0510005103. PMID 16407102.
- ↑ doi:10.1073/pnas.0510005103.
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- ↑ Hayes, Jacqui (2 November 2006). "Humans and Neanderthals interbred". Cosmos. http://www.cosmosmagazine.com/node/814. Retrieved 17 May 2009.
References
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External links
- Homo neanderthalensis - The Smithsonian Institution's Human Origins Program
- The Way We Are
- Link to picture of the Neanderthal trace near Gediz River in Turkey
- Link to Cross-Eyed stereoview of Neanderthal fossil cast in Chicago Field Museum
- Krapina.com—'Krapina: The World's Largest Neanderthal Finding Site'
- Mousterian Tools of Neanderthals From Europe—World Museum of Man
- Langseth, Jared (2005). "Homo neanderthalensis". MSU EMuseum. http://www.mnsu.edu/emuseum/biology/humanevolution/neanderthalensis.html.
- "Neanderthals 'mated with modern humans'". BBC News. 21 April 1999. http://news.bbc.co.uk/2/hi/science/nature/323657.stm.
- Briggs, Helen (27 March 2003). "Neanderthals 'had hands like ours'". BBC News. http://news.bbc.co.uk/2/hi/science/nature/2884801.stm.
- Finlayson, Clive (11 May 2010). "To mate, or not to mate: The Neanderthal's question". BBC News. http://news.bbc.co.uk/1/hi/sci/tech/8674068.stm.
- Rincon, Paul (10 May 2010). "So we're part Neanderthal. What now?". BBC News. http://news.bbc.co.uk/1/hi/sci/tech/8671643.stm.
- Bringmans, Patrick (2008). "The Neanderthal Sites at Veldwezelt-Hezerwater". http://www.oocities.com/veldwezelt_2002/index.html.
- Neanderthal DNA—'Neanderthal DNA' Includes Neanderthal mtDNA sequences
- Boyle, Alan (2006-06-06). "A Neanderthal's DNA tale". MSNBC. http://cosmiclog.msnbc.msn.com/archive/2006/06/06/182.aspx.
- UniZH.ch—'Comparing Neanderthals and modern humans: Neanderthals differ from anatomically modern Homo sapiens in a suite of cranial features' (cranio-facial reconstructions), Institut für Informatik der Universität Zürich
- Horan, Richard D.; Bulte, Erwin; Shogren, Jason F. (2005). "How trade saved humanity from biological exclusion: an economic theory of Neanderthal extinction". Journal of Economic Behavior & Organization 58: 1. doi:10.1016/j.jebo.2004.03.009.
- Shaw, Kl (December 2002). "Conflict between nuclear and mitochondrial DNA phylogenies of a recent species radiation: what mtDNA reveals and conceals about modes of speciation in Hawaiian crickets." (Free full text). Proceedings of the National Academy of Sciences of the United States of America 99 (25): 16122–7. doi:10.1073/pnas.242585899. ISSN 0027-8424. PMID 12451181. PMC 138575. http://www.pnas.org/cgi/pmidlookup?view=long&pmid=12451181.
- Koller, J.; Baumer, U.; Mania, D. (2001). "High-Tech in the Middle Palaeolithic: Neandertal-Manufactured Pitch Identified". European Journal of Archaeology 4: 385. doi:10.1177/146195710100400315.
- Sawyer GJ, Maley B (March 2005). "Neanderthal reconstructed". Anatomical Record. Part B, New Anatomist 283 (1): 23–31. doi:10.1002/ar.b.20057. PMID 15761833.
- Ritter, Macolm; Associated Press (13 September 2006). "Neanderthal Find Hints at Longer Era". CBS News. http://www.cbsnews.com/stories/2006/09/13/ap/tech/mainD8K43TS81.shtml.
- Than, Ker; LiveScience (15 November 2006). "Scientists decode Neanderthal genes". MSNBC. http://www.msnbc.msn.com/id/15732243/. Retrieved 22 May 2009.
- 'Bone and Stone' A digitally enhanced single frame philatelic exhibit dedicated to the Neanderthal.
- Macchiarelli, R; Bondioli, L; Debénath, A; Mazurier, A; Tournepiche, Jf; Birch, W; Dean, Mc (December 2006). "How Neanderthal molar teeth grew.". Nature 444 (7120): 748–51. doi:10.1038/nature05314. ISSN 0028-0836. PMID 17122777.
- Ramanan, Kharlena María (1997). "Neanderthals: A Cyber Perspective". Indiana State University. Archived from the original on March 2003. http://web.archive.org/web/20010303220917/http://thunder.indstate.edu/~ramanank/.
- The Cryptid Zoo 'Neanderthals and Neanderthaloids in Cryptozoology'-modern sightings promoted by the pseudoscience of cryptozoology
Part of the series on Human evolution |
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Hominini
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Sahelanthropus tchadensis · Orrorin tugenensis · Ardipithecus · Kenyanthropus platyops
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Australopithecines
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Australopithecus: A. anamensis · A. afarensis · A. bahrelghazali · A. africanus · A. garhi · A. sediba
Paranthropus: P. aethiopicus · P. boisei · P. robustus
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Humans and Proto-humans
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Homo: H. gautengensis · H. habilis · H. rudolfensis · H. georgicus · H. ergaster · H. erectus (H. e. erectus · H. e. lantianensis · H. e. palaeojavanicus · H. e. pekinensis · H. e. nankinensis · H. e. wushanensis · H. e. yuanmouensis · H. e. soloensis) · H. cepranensis · H. antecessor · H. heidelbergensis · Denisova hominin · H. neanderthalensis · H. rhodesiensis · H. floresiensis · Archaic Homo sapiens · Anatomically modern humans (H. s. idaltu · H. s. sapiens)
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Topics: Timeline of human evolution · List of human evolution fossils · Human evolutionary genetics
Models: Recent African origin · Multiregional origin |
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