For Neanderthals and other related species in popular culture, see Caveman.
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It is not clear when the line of Neanderthals split from that of modern humans; studies have produced various times ranging from 315,000[12] to more than 800,000 years ago.[13] The date of divergence of Neanderthals from their ancestor H. heidelbergensis is also unclear. The oldest potential Neanderthal bones date to 430,000 years ago, but the classification remains uncertain.[14] Neanderthals are known from numerous fossils, especially from after 130,000 years ago.[15]
The reasons for Neanderthal extinction are disputed.[16][17] Theories for their extinction include demographic factors such as small population size and inbreeding, competitive replacement,[18] interbreeding and assimilation with modern humans,[19] change of climate,[20][21][22] disease,[23][24] or a combination of these factors.[22] Neanderthals lived in a high-stress environment with high trauma rates, and about 80% died before the age of 40.[25] The total population of Neanderthals remained low, and interbreeding with humans tended toward a loss of Neanderthal genes over time.[26] They lacked effective long-distance networks. Despite this, there is evidence of regional cultures and regular communication between communities,[27][28] possibly moving between caves seasonally.[29]
For much of the early 20th century, European researchers depicted Neanderthals as primitive, unintelligent and brutish. Although knowledge and perception of them has markedly changed since then in the scientific community, the image of the unevolved caveman archetype remains prevalent in popular culture.[30][31] In truth, Neanderthal technology was quite sophisticated. It includes the Mousterian stone-tool industry[32][33] as well as the abilities to create fire,[34][35] build cave hearths[36][37] (to cook food, keep warm, defend themselves from animals, placing it at the centre of their homes),[38] make adhesive birch bark tar,[39] craft at least simple clothes similar to blankets and ponchos,[40] weave,[41] go seafaring through the Mediterranean,[42][43] make use of medicinal plants,[44][45][46] treat severe injuries,[47] store food,[48] and use various cooking techniques such as roasting, boiling,[49] and smoking.[50]
Neanderthals consumed a wide array of food, mainly hoofed mammals,[51] but also megafauna,[30][52] plants,[53][54][55] small mammals, birds, and aquatic and marine resources.[56] Although they were probably apex predators, they still competed with cave lions, cave hyenas and other large predators.[57] A number of examples of symbolic thought and Palaeolithic art have been inconclusively[58] attributed to Neanderthals, namely possible ornaments made from bird claws and feathers,[59][60] shells,[61] collections of unusual objects including crystals and fossils,[62] engravings,[63] music production (possibly indicated by the Divje Babe flute),[64] and Spanish cave paintings contentiously[65] dated to before 65,000 years ago.[66][67] Some claims of religious beliefs have been made.[68] Neanderthals were likely capable of speech, possibly articulate, although the complexity of their language is not known.[69][70]
Compared with modern humans, Neanderthals had a more robust build and proportionally shorter limbs. Researchers often explain these features as adaptations to conserve heat in a cold climate, but they may also have been adaptations for sprinting in the warmer, forested landscape that Neanderthals often inhabited.[71] They had cold-specific adaptations, such as specialised body-fat storage[72] and an enlarged nose to warm air[73] (although the nose could have been caused by genetic drift[74]). Average Neanderthal men stood around 165 cm (5 ft 5 in) and women 153 cm (5 ft 0 in) tall, similar to pre-industrial modern Europeans.[75] The braincases of Neanderthal men and women averaged about 1,600 cm3 (98 cu in) and 1,300 cm3 (79 cu in), respectively,[76][77][78] which is considerably larger than the modern human average (1,260 cm3 (77 cu in) and 1,130 cm3 (69 cu in), respectively).[79] The Neanderthal skull was more elongated and the brain had smaller parietal lobes[80][81][82] and cerebellum,[83][84] but larger temporal, occipital and orbitofrontal regions.[85][86]
The 2010 Neanderthal genome project's draft report presented evidence for interbreeding between Neanderthals and modern humans.[87][88][89] It possibly occurred 316,000 to 219,000 years ago,[90] but more likely 100,000 years ago and again 65,000 years ago.[91] Neanderthals also appear to have interbred with Denisovans, a different group of archaic humans, in Siberia.[92][93] Around 1–4% of genomes of Eurasians, Indigenous Australians, Melanesians, Native Americans and North Africans is of Neanderthal ancestry, while most inhabitants of sub-Saharan Africa have around 0.3% of Neanderthal genes, save possible traces from early sapiens-to-Neanderthal gene flow and/or more recent back-migration of Eurasians to Africa. In all, about 20% of distinctly Neanderthal gene variants survive in modern humans.[94] Although many of the gene variants inherited from Neanderthals may have been detrimental and selected out,[26] Neanderthal introgression appears to have affected the modern human immune system,[95][96][97][98] and is also implicated in several other biological functions and structures,[99] but a large portion appears to be non-coding DNA.[100]
Neanderthals are named after the Neander Valley in which the first identified specimen was found. The valley was spelled Neanderthal and the species was spelled Neanderthaler in German until the spelling reform of 1901.[b] The spelling Neandertal for the species is occasionally seen in English, even in scientific publications, but the scientific name, H. neanderthalensis, is always spelled with th according to the principle of priority. The vernacular name of the species in German is always Neandertaler ("inhabitant of the Neander Valley"), whereas Neandertal always refers to the valley.[c] The valley itself was named after the late 17th century German theologian and hymn writer Joachim Neander, who often visited the area.[101] His name in turn means 'new man', being a learned Graecisation of the German surname Neumann.
Neanderthal can be pronounced using the /t/ (as in /niˈændərtɑːl/)[104] or the standard English pronunciation of th with the fricative /θ/ (as /niˈændərθɔːl/).[105][106] The latter pronunciation, nevertheless, has no basis in the original German word which is pronounced always with a t regardless of the historical spelling.
Neanderthal 1, the type specimen, was known as the "Neanderthal cranium" or "Neanderthal skull" in anthropological literature, and the individual reconstructed on the basis of the skull was occasionally called "the Neanderthal man".[107] The binomial name Homo neanderthalensis—extending the name "Neanderthal man" from the individual specimen to the entire species, and formally recognising it as distinct from humans—was first proposed by Irish geologist William King in a paper read to the 33rd British Science Association in 1863.[108][109][110] However, in 1864, he recommended that Neanderthals and modern humans be classified in different genera as he compared the Neanderthal braincase to that of a chimpanzee and argued that they were "incapable of moral and [theistic[d]] conceptions".[111]
The first Neanderthal remains—Engis 2 (a skull)—were discovered in 1829 by Dutch/Belgian prehistorian Philippe-Charles Schmerling in the Grottes d'Engis, Belgium. He concluded that these "poorly developed" human remains must have been buried at the same time and by the same causes as the co-existing remains of extinct animal species.[112] In 1848, Gibraltar 1 from Forbes' Quarry was presented to the Gibraltar Scientific Society by their Secretary Lieutenant Edmund Henry Réné Flint, but was thought to be a modern human skull.[113] In 1856, local schoolteacher Johann Carl Fuhlrott recognised bones from Kleine Feldhofer Grotte in Neander Valley—Neanderthal 1 (the holotype specimen)—as distinct from modern humans,[e] and gave them to German anthropologist Hermann Schaaffhausen to study in 1857. It comprised the cranium, thigh bones, right arm, left humerus and ulna, left ilium (hip bone), part of the right shoulder blade, and pieces of the ribs.[111][114]
Following Charles Darwin's On the Origin of Species, Fuhlrott and Schaaffhausen argued the bones represented an ancient modern human form;[31][111][115][116] Schaaffhausen, a social Darwinist, believed that humans linearly progressed from savage to civilised, and so concluded that Neanderthals were barbarous cave-dwellers.[31] Fuhlrott and Schaaffhausen met opposition namely from the prolific pathologist Rudolf Virchow who argued against defining new species based on only a single find. In 1872, Virchow erroneously interpreted Neanderthal characteristics as evidence of senility, disease and malformation instead of archaicness,[117] which stalled Neanderthal research until the end of the century.[31][115]
By the early 20th century, numerous other Neanderthal discoveries were made, establishing H. neanderthalensis as a legitimate species. The most influential specimen was La Chapelle-aux-Saints 1 ("The Old Man") from La Chapelle-aux-Saints, France. French palaeontologist Marcellin Boule authored several publications, among the first to establish palaeontology as a science, detailing the specimen, but reconstructed him as slouching, ape-like, and only remotely related to modern humans.
The 1912 'discovery' of Piltdown Man (a hoax), appearing much more similar to modern humans than Neanderthals, was used as evidence that multiple different and unrelated branches of primitive humans existed, and supported Boule's reconstruction of H. neanderthalensis as a far distant relative and an evolutionary dead-end.[31][118][119][120] He fuelled the popular image of Neanderthals as barbarous, slouching, club-wielding primitives; this image was reproduced for several decades and popularised in science fiction works, such as the 1911 The Quest for Fire by J.-H. Rosny aîné and the 1927 The Grisly Folk by H. G. Wells in which they are depicted as monsters.[31] In 1911, Scottish anthropologist Arthur Keith reconstructed La Chapelle-aux-Saints 1 as an immediate precursor to modern humans, sitting next to a fire, producing tools, wearing a necklace, and having a more humanlike posture, but this failed to garner much scientific rapport, and Keith later abandoned his thesis in 1915.[31][115][121]
By the middle of the century, based on the exposure of Piltdown Man as a hoax as well as a reexamination of La Chapelle-aux-Saints 1 (who had osteoarthritis which caused slouching in life) and new discoveries, the scientific community began to rework its understanding of Neanderthals. Ideas such as Neanderthal behaviour, intelligence and culture were being discussed, and a more humanlike image of them emerged. In 1939, American anthropologist Carleton Coon reconstructed a Neanderthal in a modern business suit and hat to emphasise that they would be, more or less, indistinguishable from modern humans had they survived into the present. William Golding's 1955 novel The Inheritors depicts Neanderthals as much more emotional and civilised.[30][31][120] However, Boule's image continued to influence works until the 1960s. In modern-day, Neanderthal reconstructions are often very humanlike.[115][120]
Hybridisation between Neanderthals and early modern humans had been suggested early on,[122] such as by English anthropologist Thomas Huxley in 1890,[123] Danish ethnographer Hans Peder Steensby in 1907,[124] and Coon in 1962.[125] In the early 2000s, supposed hybrid specimens were discovered: Lagar Velho 1[126][127][128][129] and Muierii 1.[130] However, similar anatomy could also have been caused by adapting to a similar environment rather than interbreeding.[100]
Neanderthal admixture was found to be present in modern populations in 2010 with the mapping of the first Neanderthal genome sequence.[87] This was based on three specimens in Vindija Cave, Croatia, which contained almost 4% archaic DNA (allowing for near complete sequencing of the genome). However, there was approximately 1 error for every 200 letters (base pairs) based on the implausibly high mutation rate, probably due to the preservation of the sample. In 2012, British-American geneticist Graham Coop hypothesised that they instead found evidence of a different archaic human species interbreeding with modern humans, which was disproven in 2013 by the sequencing of a high-quality Neanderthal genome preserved in a toe bone from Denisova Cave, Siberia.[100]
2019 phylogeny based on comparison of ancient proteomes and genomes with those of modern species.[131]
Neanderthals are hominids in the genusHomo, humans, and generally classified as a distinct species, H. neanderthalensis, although sometimes as a subspecies of modern human as Homo sapiens neanderthalensis. This would necessitate the classification of modern humans as H. sapiens sapiens.[132]
A large part of the controversy stems from the vagueness of the term "species", as it is generally used to distinguish two genetically isolated populations, but admixture between modern humans and Neanderthals is known to have occurred.[132][133] However, the absence of Neanderthal-derived patrilineal Y-chromosome and matrilineal mitochondrial DNA (mtDNA) in modern humans, along with the underrepresentation of Neanderthal X chromosome DNA, could imply reduced fertility or frequent sterility of some hybrid crosses,[89][134][135][136] representing a partial biological reproductive barrier between the groups, and therefore species distinction.[89] In 2014 geneticist Svante Pääbo summarised the controversy, describing such "taxonomic wars" as unresolvable, "since there is no definition of species perfectly describing the case".[132]
Neanderthals are thought to have been more closely related to Denisovans than to modern humans. Likewise, Neanderthals and Denisovans share a more recent last common ancestor (LCA) than to modern humans, based on nuclear DNA (nDNA). However, Neanderthals and modern humans share a more recent mitochondrial LCA (observable by studying mtDNA) and Y chromosome LCA.[137] This likely resulted from an interbreeding event subsequent to the Neanderthal/Denisovan split. This involved either introgression coming from an unknown archaic human into Denisovans,[92][93][131][138][139] or introgression from an earlier unidentified modern human wave from Africa into Neanderthals.[137][140][141] The fact that the mtDNA of a ~430,000 years old early Neanderthal-line archaic human from Sima de los Huesos in Spain is more closely related to those of Denisovans than to other Neanderthals or modern humans has been cited as evidence in favour of the latter hypothesis.[137][14][140]
It is largely thought that H. heidelbergensis was the last common ancestor of Neanderthals, Denisovans and modern humans before populations became isolated in Europe, Asia and Africa, respectively.[142] The taxonomic distinction between H. heidelbergensis and Neanderthals is mostly based on a fossil gap in Europe between 300 and 243,000 years ago during marine isotope stage 8. "Neanderthals", by convention, are fossils which date to after this gap.[12][30][143] DNA from archaic humans from the 430,000-year-old Sima de los Huesos site in Spain indicate that they are more closely related to Neanderthals than to Denisovans, indicating that the split between Neanderthals and Denisovans must predate this time.[14][144][145] The 400,000-year-old Aroeira 3 skull may also represent an early member of the Neanderthal line.[146] It is possible that gene flow between Western Europe and Africa during the Middle Pleistocene, may have obscured Neanderthal characteristics in some Middle Pleistocene European hominin specimens, such those from Ceprano, Italy, and Sićevo Gorge, Serbia.[14] The fossil record is much more complete from 130,000 years ago onwards,[147] and specimens from this period make up the bulk of known Neanderthal skeletons.[148][149] Dental remains from the Italian Visogliano and Fontana Ranuccio sites indicate that Neanderthal dental features had evolved by around 450–430,000 years ago during the Middle Pleistocene.[150]
There are two main hypotheses regarding the evolution of Neanderthals following the Neanderthal/human split: two-phase and accretion. Two-phase argues that a single major environmental event—such as the Saale glaciation—caused European H. heidelbergensis to increase rapidly in body size and robustness, as well as undergoing a lengthening of the head (phase 1), which then led to other changes in skull anatomy (phase 2).[128] However, Neanderthal anatomy may not have been driven entirely by adapting to cold weather.[71] Accretion holds that Neanderthals slowly evolved over time from the ancestral H. heidelbergensis, divided into four stages: early-pre-Neanderthals (MIS 12, Elster glaciation), pre-Neanderthals (MIS 11–9, Holstein interglacial), early Neanderthals (MIS 7–5, Saale glaciation–Eemian), and classic Neanderthals (MIS 4–3, Würm glaciation).[143]
Numerous dates for the Neanderthal/human split have been suggested. The date of around 250,000 years ago cites "H. helmei" as being the last common ancestor (LCA), and the split is associated with the Levallois technique of making stone tools. The date of about 400,000 years ago uses H. heidelbergensis as the LCA. Estimates of 600,000 years ago assume that "H. rhodesiensis" was the LCA, which split off into modern human lineage and a Neanderthal/H. heidelbergensis lineage.[151] Eight hundred thousand years ago has H. antecessor as the LCA, but different variations of this model would push the date back to 1 million years ago.[14][151] However, a 2020 analysis of H. antecessor enamel proteomes suggests that H. antecessor is related but not a direct ancestor.[152] DNA studies have yielded various results for the Neanderthal/human divergence time, such as 538–315,[12] 553–321,[153] 565–503,[154] 654–475,[151] 690–550,[155] 765–550,[14][92] 741–317,[156] and 800–520,000 years ago;[157] and a dental analysis concluded before 800,000 years ago.[13]
Neanderthals and Denisovans are more closely related to each other than they are to modern humans, meaning the Neanderthal/Denisovan split occurred after their split with modern humans.[14][92][138][158] Assuming a mutation rate of 1 × 10−9 or 0.5 × 10−9 per base pair (bp) per year, the Neanderthal/Denisovan split occurred around either 236–190,000 or 473–381,000 years ago, respectively.[92] Using 1.1 × 10−8 per generation with a new generation every 29 years, the time is 744,000 years ago. Using 5 × 10−10nucleotide sites per year, it is 616,000 years ago. Using the latter dates, the split had likely already occurred by the time hominins spread out across Europe, and unique Neanderthal features had begun evolving by 600–500,000 years ago.[138] Before splitting, Neanderthal/Denisovans (or "Neandersovans") migrating out of Africa into Europe apparently interbred with an unidentified "superarchaic" human species who were already present there; these superarchaics were the descendants of a very early migration out of Africa around 1.9 mya.[159]
Pre- and early Neanderthals, living before the Eemian interglacial (130,000 years ago), are poorly known and come mostly from Western European sites. From 130,000 years ago onwards, the quality of the fossil record increases dramatically with classic Neanderthals, who are recorded from Western, Central, Eastern and Mediterranean Europe,[15] as well as Southwest, Central and Northern Asia up to the Altai Mountains in southern Siberia. Pre- and early Neanderthals, on the other hand, seem to have continuously occupied only France, Spain and Italy, although some appear to have moved out of this "core-area" to form temporary settlements eastward (although without leaving Europe). Nonetheless, southwestern France has the highest density of sites for pre-, early and classic Neanderthals.[160] The Neanderthals were the first human species to permanently occupy Europe as the continent was only sporadically occupied by earlier humans.[161]
The southernmost find was recorded at Shuqba Cave, Levant;[162] reports of Neanderthals from the North African Jebel Irhoud[163] and Haua Fteah[164] have been reidentified as H. sapiens. Their easternmost presence is recorded at Denisova Cave, Siberia 85°E; the southeast Chinese Maba Man, a skull, shares several physical attributes with Neanderthals, although these may be the result of convergent evolution rather than Neanderthals extending their range to the Pacific Ocean.[165] The northernmost bound is generally accepted to have been 55°N, with unambiguous sites known between 50–53°N, although this is difficult to assess because glacial advances destroy most human remains, and palaeoanthropologist Trine Kellberg Nielsen has argued that a lack of evidence of Southern Scandinavian occupation is (at least during the Eemian interglacial) due to the former explanation and a lack of research in the area.[166][167] Middle Palaeolithic artefacts have been found up to 60°N on the Russian plains,[168][169][170] but these are more likely attributed to modern humans.[171] A 2017 study claimed the presence of Homo at the 130,000-year-old Californian Cerutti Mastodon site in North America,[172] but this is largely considered implausible.[173][174][175]
It is unknown how the rapidly fluctuating climate of the last glacial period (Dansgaard–Oeschger events) impacted Neanderthals, as warming periods would produce more favourable temperatures but encourage forest growth and deter megafauna, whereas frigid periods would produce the opposite.[176] However, Neanderthals may have preferred a forested landscape.[71] Stable environments with mild mean annual temperatures may have been the most suitable Neanderthal habitats.[177] Populations may have peaked in cold but not extreme intervals, such as marine isotope stages 8 and 6 (respectively, 300,000 and 191,000 years ago during the Saale glaciation). It is possible their range expanded and contracted as the ice retreated and grew, respectively, to avoid permafrost areas, residing in certain refuge zones during glacial maxima.[176] In 2021, Israeli anthropologist Israel Hershkovitz and colleagues suggested the 140- to 120,000-year-old Israeli Nesher Ramla remains, which feature a mix of Neanderthal and more ancient H. erectus traits, represent one such source population which recolonised Europe following a glacial period.[178]
Like modern humans, Neanderthals probably descended from a very small population with an effective population—the number of individuals who can bear or father children—of 3,000 to 12,000 approximately. However, Neanderthals maintained this very low population, proliferating weakly harmful genes due to the reduced effectivity of natural selection.[26][179]
Various studies, using mtDNA analysis, yield varying effective populations,[176] such as about 1,000 to 5,000;[179] 5,000 to 9,000 remaining constant;[180] or 3,000 to 25,000 steadily increasing until 52,000 years ago before declining until extinction.[28] Archaeological evidence suggests that there was a tenfold increase in the modern human population in Western Europe during the period of the Neanderthal/modern human transition,[181] and Neanderthals may have been at a demographic disadvantage due to a lower fertility rate, a higher infant mortality rate, or a combination of the two.[182] Estimates giving a total population in the higher tens of thousands[138] are contested.[179] A consistently low population may be explained in the context of the "Boserupian Trap": a population's carrying capacity is limited by the amount of food it can obtain, which in turn is limited by its technology. Innovation increases with population, but if the population is too low, innovation will not occur very rapidly and the population will remain low. This is consistent with the apparent 150,000 year stagnation in Neanderthal lithic technology.[176]
In a sample of 206 Neanderthals, based on the abundance of young and mature adults in comparison to other age demographics, about 80% of them above the age of 20 died before reaching 40. This high mortality rate was probably due to their high-stress environment.[25] However, it has also been estimated that the age pyramids for Neanderthals and contemporary modern humans were the same.[176] Infant mortality was estimated to have been very high for Neanderthals, about 43% in northern Eurasia.[183]
Comparisons of a modern Eurasian male example (left) and a Neanderthal (right) skull reconstruction at the Cleveland Museum of Natural History
Neanderthal skull features
Neanderthals had more robust and stockier builds than typical modern humans,[75] wider and barrel-shaped rib cages; wider pelvises;[30][184] and proportionally shorter forearms and forelegs.[71][185]
Based on 45 Neanderthal long bones from 14 men and 7 women, the average height was 164 to 168 cm (5 ft 5 in to 5 ft 6 in) for males and 152 to 156 cm (5 ft 0 in to 5 ft 1 in) for females.[75] For comparison, the average height of 20 males and 10 females Upper Palaeolithic humans is, respectively, 176.2 cm (5 ft 9.4 in) and 162.9 cm (5 ft 4.1 in), although this decreases by 10 cm (4 in) nearer the end of the period based on 21 males and 15 females;[186] and the average in the year 1900 was 163 cm (5 ft 4 in) and 152.7 cm (5 ft 0 in), respectively.[187] The fossil record shows that adult Neanderthals varied from about 147.5 to 177 cm (4 ft 10 in to 5 ft 10 in) in height, although some may have grown much taller (73.8 to 184.8 cm based on footprint length and from 65.8 to 189.3 cm based on footprint width).[188] For Neanderthal weight, samples of 26 specimens found an average of 77.6 kg (171 lb) for males and 66.4 kg (146 lb) for females.[189] Using 76 kg (168 lb), the body mass index for Neanderthal males was calculated to be 26.9–28.2, which in modern humans correlates to being overweight. This indicates a very robust build.[75] The Neanderthal LEPR gene concerned with storing fat and body heat production is similar to that of the woolly mammoth, and so was likely an adaptation for cold climate.[72]
The neck vertebrae of Neanderthals are thicker from the front to the rear and transversely than those of (most) modern humans, leading to stability, possibly to accommodate a different head shape and size.[190] Although the Neanderthal thorax (where the ribcage is) was similar in size to modern humans, the longer and straighter ribs would have equated to a widened mid-lower thorax and stronger breathing in the lower thorax, which are indicative of a larger diaphragm and possibly greater lung capacity.[184][191][192] The lung capacity of Kebara 2 was estimated to have been 9.04 L (2.39 US gal), compared to the average human capacity of 6 L (1.6 US gal) for males and 4.7 L (1.2 US gal) for females. The Neanderthal chest was also more pronounced (expanded front-to-back, or antero-posteriorly). The sacrum (where the pelvis connects to the spine) was more vertically inclined, and was placed lower in relation to the pelvis, causing the spine to be less curved (exhibit less lordosis) and to fold in on itself somewhat (to be invaginated). In modern populations, this condition affects just a proportion of the population, and is known as a lumbarised sacrum.[193] Such modifications to the spine would have enhanced side-to-side (mediolateral) flexion, better supporting the wider lower thorax. It is claimed by some that this feature would be normal for all Homo, even tropically-adapted Homo ergaster or erectus, with the condition of a narrower thorax in most modern humans being a unique characteristic.[184]
Body proportions are usually cited as being "hyperarctic" as adaptations to the cold, because they are similar to those of human populations which developed in cold climates[194]—the Neanderthal build is most similar to that of Inuit and Siberian Yupiks among modern humans[195]—and shorter limbs result in higher retention of body heat.[185][194][196] Nonetheless, Neanderthals from more temperate climates—such as Iberia—still retain the "hyperarctic" physique.[197] In 2019, English anthropologist John Stewart and colleagues suggested Neanderthals instead were adapted for sprinting, because of evidence of Neanderthals preferring warmer wooded areas over the colder mammoth steppe, and DNA analysis indicating a higher proportion of fast-twitch muscle fibres in Neanderthals than in modern humans. He explained their body proportions and greater muscle mass as adaptations to sprinting as opposed to the endurance-oriented modern human physique,[71] as persistence hunting may only be effective in hot climates where the hunter can run prey to the point of heat exhaustion (hyperthermia). They had longer heel bones,[198] reducing their ability for endurance running, and their shorter limbs would have reduced moment arm at the limbs, allowing for greater net rotational force at the wrists and ankles, causing faster acceleration.[71] In 1981, American palaeoanthropologist Erik Trinkaus made note of this alternate explanation, but considered it less likely.[185][199]
Neanderthals had less developed chins, sloping foreheads, and longer, broader, more projecting noses. The Neanderthal skull is typically more elongated, but also wider, and less globular than that of most modern humans, and features much more of an occipital bun,[200] or "chignon", a protrusion on the back of the skull, although it is within the range of variation for modern humans who have it. It is caused by the cranial base and temporal bones being placed higher and more towards the front of the skull, and a flatter skullcap.[201]
The Neanderthal face is characterised by subnasal[202] as well as mid-facial prognathism, where the zygomatic arches are positioned in a rearward location relative to modern humans, while their maxillary bones and nasal bones are positioned in a more forward direction, by comparison.[203] Neanderthal eyeballs are larger than those of modern humans. One study proposed that this was due to Neanderthals having enhanced visual abilities, at the expense of neocortical and social development.[204] However, this study was rejected by other researchers who concluded that eyeball size does not offer any evidence for the cognitive abilities of Neanderthal or modern humans.[205]
The projected Neanderthal nose and paranasal sinuses have generally been explained as having warmed air as it entered the lungs and retained moisture ("nasal radiator" hypothesis);[206] if their noses were wider, it would differ to the generally narrowed shape in cold-adapted creatures, and that it would have been caused instead by genetic drift. Also, the sinuses reconstructed wide are not grossly large, being comparable in size to those of modern humans. However, if sinus size is not an important factor for breathing cold air, then the actual function would be unclear, so they may not be a good indicator of evolutionary pressures to evolve such a nose.[207] Further, a computer reconstruction of the Neanderthal nose and predicted soft tissue patterns shows some similarities to those of modern Arctic peoples, potentially meaning the noses of both populations convergently evolved for breathing cold, dry air.[73]
Neanderthals featured a rather large jaw which was once cited as a response to a large bite force evidenced by heavy wearing of Neanderthal front teeth (the "anterior dental loading" hypothesis), but similar wearing trends are seen in contemporary humans. It could also have evolved to fit larger teeth in the jaw, which would better resist wear and abrasion,[206][208] and the increased wear on the front teeth compared to the back teeth probably stems from repetitive use. Neanderthal dental wear patterns are most similar to those of modern Inuit.[206] The incisors are large and shovel-shaped, and, compared to modern humans, there was an unusually high frequency of taurodontism, a condition where the molars are bulkier due to an enlarged pulp (tooth core). Taurodontism was once thought to have been a distinguishing characteristic of Neanderthals which lent some mechanical advantage or stemmed from repetitive use, but was more likely simply a product of genetic drift.[209] The bite force of Neanderthals and modern humans is now thought to be about the same,[206] about 285 N (64 lbf) and 255 N (57 lbf) in modern human males and females, respectively.[210]
The Neanderthal braincase averages 1,640 cm3 (100 cu in) for males and 1,460 cm3 (89 cu in) for females,[77][78] which is significantly larger than the averages for all groups of extant humans;[79] for example, modern European males average 1,362 cm3 (83.1 cu in) and females 1,201 cm3 (73.3 cu in).[211] For 28 modern human specimens from 190,000 to 25,000 years ago, the average was about 1,478 cm3 (90.2 cu in) disregarding sex, and modern human brain size is suggested to have decreased since the Upper Palaeolithic.[212] The largest Neanderthal brain, Amud 1, was calculated to be 1,736 cm3 (105.9 cu in), one of the largest ever recorded in hominids.[78] Both Neanderthal and human infants measure about 400 cm3 (24 cu in).[213]
When viewed from the rear, the Neanderthal braincase has lower, wider, rounder appearance than in anatomically modern humans. This characteristic shape is referred to as "en bombe" (bomb-like), and is unique to Neanderthals, with all other hominid species (including most modern humans) generally having narrow and relatively upright cranial vaults, when viewed from behind.[214][215][216][217] The Neanderthal brain would have been characterised by relatively smaller parietal lobes[85] and a larger cerebellum.[85][218] Neanderthal brains also have larger occipital lobes (relating to the classic occurrence of an occipital bun in Neanderthal skull anatomy, as well as the greater width of their skulls), which implies internal differences in the proportionality of brain-internal regions, relative to Homo sapiens, consistent with external measurements obtained with fossil skulls.[204][219] Their brains also have larger temporal lobe poles,[218] wider orbitofrontal cortex,[220] and larger olfactory bulbs,[221] suggesting potential differences in language comprehension and associations with emotions (temporal functions), decision making (the orbitofrontal cortex) and sense of smell (olfactory bulbs). Their brains also show different rates of brain growth and development.[222] Such differences, while slight, would have been visible to natural selection and may underlie and explain differences in the material record in things like social behaviours, technological innovation and artistic output.[18][223]
The lack of sunlight most likely led to the proliferation of lighter skin in Neanderthals;[224] however, it has been recently claimed that light skin in modern Europeans was not particularly prolific until perhaps the Bronze Age.[225] Genetically, BNC2 was present in Neanderthals, which is associated with light skin colour; however, a second variation of BNC2 was also present, which in modern populations is associated with darker skin colour in the UK Biobank.[224] DNA analysis of three Neanderthal females from southeastern Europe indicates that they had brown eyes, dark skin colour and brown hair, with one having red hair.[226][227]
In modern humans, skin and hair colour is regulated by the melanocyte-stimulating hormone—which increases the proportion of eumelanin (black pigment) to phaeomelanin (red pigment)—which is encoded by the MC1R gene. There are five known variants in modern humans of the gene which cause loss-of-function and are associated with light skin and hair colour, and another unknown variant in Neanderthals (the R307G variant) which could be associated with pale skin and red hair. The R307G variant was identified in a Neanderthal from Monti Lessini, Italy, and possibly Cueva del Sidrón, Spain.[228] However, as in modern humans, red was probably not a very common hair colour because the variant is not present in many other sequenced Neanderthals.[224]
Maximum natural lifespan and the timing of adulthood, menopause and gestation were most likely very similar to modern humans.[176] However, it has been hypothesised, based on the growth rates of teeth and tooth enamel,[229][230] that Neanderthals matured faster than modern humans, although this is not backed up by age biomarkers.[25] The main differences in maturation are the atlas bone in the neck as well as the middle thoracic vertebrae fused about 2 years later in Neanderthals than in modern humans, but this was more likely caused by a difference in anatomy rather than growth rate.[231][232]
Generally, models on Neanderthal caloric requirements report significantly higher intakes than those of modern humans because they typically assume Neanderthals had higher basal metabolic rates (BMRs) due to higher muscle mass, faster growth rate and greater body heat production against the cold;[233][234][235] and higher daily physical activity levels (PALs) due to greater daily travelling distances while foraging.[234][235] However, using a high BMR and PAL, American archaeologist Bryan Hockett estimated that a pregnant Neanderthal would have consumed 5,500 calories per day, which would have necessitated a heavy reliance on big game meat; such a diet would have caused numerous deficiencies or nutrient poisonings, so he concluded that these are poorly warranted assumptions to make.[235]
Neanderthals may have been more active during dimmer light conditions rather than broad daylight because they lived in regions with reduced daytime hours in the winter, hunted large game (such predators typically hunt at night to enhance ambush tactics), and had large eyes and visual processing neural centres. Genetically, colour blindness (which may enhance mesopic vision) is typically correlated with northern-latitude populations, and the Neanderthals from Vindija Cave, Croatia, had some substitutions in the Opsin genes which could have influenced colour vision. However, the functional implications of these substitutions are inconclusive.[236] Neanderthal-derived alleles near ASB1 and EXOC6 are associated with being an evening person, narcolepsy and day-time napping.[224]
Neanderthals suffered a high rate of traumatic injury, with an estimated 79–94% of specimens showing evidence of healed major trauma, of which 37–52% were severely injured, and 13–19% injured before reaching adulthood.[237] One extreme example is Shanidar 1, who shows signs of an amputation of the right arm likely due to a nonunion after breaking a bone in adolescence, osteomyelitis (a bone infection) on the left clavicle, an abnormal gait, vision problems in the left eye, and possible hearing loss[238] (perhaps swimmer's ear).[239] In 1995, Trinkaus estimated that about 80% succumbed to their injuries and died before reaching 40, and thus theorised that Neanderthals employed a risky hunting strategy ("rodeo rider" hypothesis).[25] However, rates of cranial trauma are not significantly different between Neanderthals and Middle Palaeolithic modern humans (although Neanderthals seem to have had a higher mortality risk),[240] there are few specimens of both Upper Palaeolithic modern humans and Neanderthals who died after the age of 40,[182] and there are overall similar injury patterns between them. In 2012, Trinkaus concluded that Neanderthals instead injured themselves in the same way as contemporary humans, such as by interpersonal violence.[241] A 2016 study looking at 124 Neanderthal specimens argued that high trauma rates were instead caused by animal attacks, and found that about 36% of the sample were victims of bear attacks, 21% big cat attacks, and 17% wolf attacks (totalling 92 positive cases, 74%). There were no cases of hyena attacks, although hyenas still nonetheless probably attacked Neanderthals, at least opportunistically.[242] Such intense predation probably stemmed from common confrontations due to competition over food and cave space, and from Neanderthals hunting these carnivores.[242]
Low population caused a low genetic diversity and probably inbreeding, which reduced the population's ability to filter out harmful mutations (inbreeding depression). However, it is unknown how this affected a single Neanderthal's genetic burden and, thus, if this caused a higher rate of birth defects than in modern humans.[243] It is known, however, that the 13 inhabitants of Sidrón Cave collectively exhibited 17 different birth defects likely due to inbreeding or recessive disorders.[244] Likely due to advanced age (60s or 70s), La Chapelle-aux-Saints 1 had signs of Baastrup's disease, affecting the spine, and osteoarthritis.[245] Shanidar 1, who likely died at about 30 or 40, was diagnosed with the most ancient case of diffuse idiopathic skeletal hyperostosis (DISH), a degenerative disease which can restrict movement, which, if correct, would indicate a moderately high incident rate for older Neanderthals.[246]
Neanderthals were subject to several infectious diseases and parasites. Modern humans likely transmitted diseases to them; one possible candidate is the stomach bacteria Helicobacter pylori.[247] The modern human papillomavirus variant 16A may descend from Neanderthal introgression.[248] A Neanderthal at Cueva del Sidrón, Spain, shows evidence of a gastrointestinal Enterocytozoon bieneusi infection.[249] The leg bones of the French La Ferrassie 1 feature lesions that are consistent with periostitis—inflammation of the tissue enveloping the bone—likely a result of hypertrophic osteoarthropathy, which is primarily caused by a chest infection or lung cancer.[250] Neanderthals had a lower cavity rate than modern humans, despite some populations consuming typically cavity-causing foods in great quantity, which could indicate a lack of cavity-causing oral bacteria, namely Streptococcus mutans.[251]
Two 250,000-year-old Neanderthaloid children from Payré, France, present the earliest known cases of lead exposure of any hominin. They were exposed on two distinct occasions either by eating or drinking contaminated food or water, or inhaling lead-laced smoke from a fire. There are two lead mines within 25 km (16 mi) of the site.[252]
Neanderthals likely lived in more sparsely distributed groups than contemporary modern humans,[176] but group size is thought to have averaged 10 to 30 individuals, similar to modern hunter-gatherers.[36] Reliable evidence of Neanderthal group composition comes from Cueva del Sidrón, Spain, and the footprints at Le Rozel, France:[188] the former shows 7 adults, 3 adolescents, 2 juveniles and an infant;[253] whereas the latter, based on footprint size, shows a group of 10 to 13 members where juveniles and adolescents made up 90%.[188]
A Neanderthal child's teeth analysed in 2018 showed it was weaned after 2.5 years, similar to modern hunter gatherers, and was born in the spring, which is consistent with modern humans and other mammals whose birth cycles coincide with environmental cycles.[252] Indicated from various ailments resulting from high stress at a low age, such as stunted growth, British archaeologist Paul Pettitt hypothesised that children of both sexes were put to work directly after weaning;[183] and Trinkaus said that, upon reaching adolescence, an individual may have been expected to join in hunting large and dangerous game.[25] However, the bone trauma is comparable to modern Inuit, which could suggest a similar childhood between Neanderthals and contemporary modern humans.[254] Further, such stunting may have also resulted from harsh winters and bouts of low food resources.[252]
Sites showing evidence of no more than three individuals may have represented nuclear families or temporary camping sites for special task groups (such as a hunting party).[36] Bands likely moved between certain caves depending on the season, indicated by remains of seasonal materials such as certain foods, and returned to the same locations generation after generation. Some sites may have been used for over 100 years.[255]Cave bears may have greatly competed with Neanderthals for cave space,[256] and there is a decline in cave bear populations starting 50,000 years ago onwards (although their extinction occurred well after Neanderthals had died out).[257][258] Neanderthals also had a preference for caves whose openings faced towards the south.[259] Although Neanderthals are generally considered to have been cave dwellers, with 'home base' being a cave, open-air settlements near contemporaneously inhabited cave systems in the Levant could indicate mobility between cave and open-air bases in this area. Evidence for long-term open-air settlements is known from the 'Ein Qashish site in Israel,[260][261] and Moldova I in Ukraine. Although Neanderthals appear to have had the ability to inhabit a range of environments—including plains and plateaux—open-air Neanderthals sites are generally interpreted as having been used as slaughtering and butchering grounds rather than living spaces.[29]
In 2022, remains of the first-known Neanderthal family (six adults and five children) were excavated from Chagyrskaya Cave in the Altai Mountains of southern Siberia in Russia. The family, which included a father, a daughter, and what appear to be cousins, most likely died together, presumably from starvation.[262][263]
Neanderthals, like contemporaneous modern humans, were most likely polygynous, based on their low second-to-fourth digit ratios, a biomarker for prenatal androgen effects that corresponds to high incidence of polygyny in haplorhine primates.[264]
Canadian ethnoarchaeologist Brian Hayden calculated a self-sustaining population that avoids inbreeding to consist of about 450–500 individuals, which would necessitate these bands to interact with 8–53 other bands, but more likely the larger estimate given low population density.[36] Analysis of the mtDNA of the Neanderthals of Cueva del Sidrón, Spain, showed that the three adult men belonged to the same maternal lineage, while the three adult women belonged to different ones. This suggests a patrilocal residence (that a woman moved out of her group to live with her partner).[265] However, the DNA of a Neanderthal from Denisova Cave, Russia, shows that she had an inbreeding coefficient of 1⁄8 (her parents were either half-siblings with a common mother, double first cousins, an uncle and niece or aunt and nephew, or a grandfather and granddaughter or grandmother and grandson)[92] and the inhabitants of Cueva del Sidrón show several defects, which may have been caused by inbreeding or recessive disorders.[244]
Considering most Neanderthal artefacts were sourced no more than 5 km (3.1 mi) from the main settlement, Hayden considered it unlikely these bands interacted very often,[36] and mapping of the Neanderthal brain and their small group size and population density could indicate that they had a reduced ability for inter-group interaction and trade.[204] However, a few Neanderthal artefacts in a settlement could have originated 20, 30, 100 and 300 km (12.5, 18.5, 60 and 185 mi) away. Based on this, Hayden also speculated that macro-bands formed which functioned much like those of the low-density hunter-gatherer societies of the Western Desert of Australia. Macro-bands collectively encompass 13,000 km2 (5,000 sq mi), with each band claiming 1,200–2,800 km2 (460–1,080 sq mi), maintaining strong alliances for mating networks or to cope with leaner times and enemies.[36] Similarly, British anthropologist Eiluned Pearce and Cypriot archaeologist Theodora Moutsiou speculated that Neanderthals were possibly capable of forming geographically expansive ethnolinguistic tribes encompassing upwards of 800 people, based on the transport of obsidian up to 300 km (190 mi) from the source compared to trends seen in obsidian transfer distance and tribe size in modern hunter-gatherers. However, according to their model Neanderthals would not have been as efficient at maintaining long-distance networks as modern humans, probably due to a significantly lower population.[266] Hayden noted an apparent cemetery of six or seven individuals at La Ferrassie, France, which, in modern humans, is typically used as evidence of a corporate group which maintained a distinct social identity and controlled some resource, trading, manufacturing and so on. La Ferrassie is also located in one of the richest animal-migration routes of Pleistocene Europe.[36]
Genetic analysis indicates there were at least three distinct geographical groups—Western Europe, the Mediterranean coast, and east of the Caucasus—with some migration among these regions.[28] Post-Eemian Western European Mousterianlithics can also be broadly grouped into three distinct macro-regions: Acheulean-tradition Mousterian in the southwest, Micoquien in the northeast, and Mousterian with bifacial tools (MBT) in between the former two. MBT may actually represent the interactions and fusion of the two different cultures.[27] Southern Neanderthals exhibit regional anatomical differences from northern counterparts: a less protrusive jaw, a shorter gap behind the molars, and a vertically higher jawbone.[267] These all instead suggest Neanderthal communities regularly interacted with neighbouring communities within a region, but not as often beyond.[27]
Nonetheless, over long periods of time, there is evidence of large-scale cross-continental migration. Early specimens from Mezmaiskaya Cave in the Caucasus[139] and Denisova Cave in the Siberian Altai Mountains[90] differ genetically from those found in Western Europe, whereas later specimens from these caves both have genetic profiles more similar to Western European Neanderthal specimens than to the earlier specimens from the same locations, suggesting long-range migration and population replacement over time.[90][139] Similarly, artefacts and DNA from Chagyrskaya and Okladnikov Caves, also in the Altai Mountains, resemble those of eastern European Neanderthal sites about 3,000–4,000 km (1,900–2,500 mi) away more than they do artefacts and DNA of the older Neanderthals from Denisova Cave, suggesting two distinct migration events into Siberia.[268] Neanderthals seem to have suffered a major population decline during MIS 4 (71–57,000 years ago), and the distribution of the Micoquian tradition could indicate that Central Europe and the Caucasus were repopulated by communities from a refuge zone either in eastern France or Hungary (the fringes of the Micoquian tradition) who dispersed along the rivers Prut and Dniester.[269]
There is also evidence of inter-group conflict: a skeleton from La Roche à Pierrot, France, showing a healed fracture on top of the skull apparently caused by a deep blade wound,[270] and another from Shanidar Cave, Iraq, found to have a rib lesion characteristic of projectile weapon injuries.[271]
It is sometimes suggested that, since they were hunters of challenging big game and lived in small groups, there was no sexual division of labour as seen in modern hunter-gatherer societies. That is, men, women and children all had to be involved in hunting, instead of men hunting with women and children foraging. However, with modern hunter-gatherers, the higher the meat dependency, the higher the division of labour.[36] Further, tooth-wearing patterns in Neanderthal men and women suggest they commonly used their teeth for carrying items, but men exhibit more wearing on the upper teeth, and women the lower, suggesting some cultural differences in tasks.[272]
It is controversially proposed that some Neanderthals wore decorative clothing or jewellery—such as a leopard skin or raptor feathers—to display elevated status in the group. Hayden postulated that the small number of Neanderthal graves found was because only high-ranking members would receive an elaborate burial, as is the case for some modern hunter-gatherers.[36] Trinkaus suggested that elderly Neanderthals were given special burial rites for lasting so long given the high mortality rates.[25] Alternatively, many more Neanderthals may have received burials, but the graves were infiltrated and destroyed by bears.[273] Given that 20 graves of Neanderthals aged under 4 have been found—over a third of all known graves—deceased children may have received greater care during burial than other age demographics.[254]
Looking at Neanderthal skeletons recovered from several natural rock shelters, Trinkaus said that, although Neanderthals were recorded as bearing several trauma-related injuries, none of them had significant trauma to the legs that would debilitate movement. He suggested that self worth in Neanderthal culture derived from contributing food to the group; a debilitating injury would remove this self-worth and result in near-immediate death, and individuals who could not keep up with the group while moving from cave to cave were left behind.[25] However, there are examples of individuals with highly debilitating injuries being nursed for several years, and caring for the most vulnerable within the community dates even further back to H. heidelbergensis.[47][254] Especially given the high trauma rates, it is possible that such an altruistic strategy ensured their survival as a species for so long.[47]
Neanderthals were once thought of as scavengers, but are now considered to have been apex predators.[274][275] In 1980, it was hypothesised that two piles of mammoth skulls at La Cotte de St Brelade, Jersey, at the base of a gulley were evidence of mammoth drive hunting (causing them to stampede off a ledge),[276] but this is contested.[277] Living in a forested environment, Neanderthals were likely ambush hunters, getting close to and attacking their target—a prime adult—in a short burst of speed, thrusting in a spear at close quarters.[71][278] Younger or wounded animals may have been hunted using traps, projectiles, or pursuit.[278] Some sites show evidence that Neanderthals slaughtered whole herds of animals in large, indiscriminate hunts and then carefully selected which carcasses to process.[279] Nonetheless, they were able to adapt to a variety of habitats.[56][277] They appear to have eaten predominantly what was abundant within their immediate surroundings,[58] with steppe-dwelling communities (generally outside of the Mediterranean) subsisting almost entirely on meat from large game, forest-dwelling communities consuming a wide array of plants and smaller animals, and waterside communities gathering aquatic resources, although even in more southerly, temperate areas such as the southeastern Iberian Peninsula, large game still featured prominently in Neanderthal diets.[280] Contemporary humans, in contrast, seem to have used more complex food extraction strategies and generally had a more diverse diet.[281] Nonetheless, Neanderthals still would have had to have eaten a varied enough diet to prevent nutrient deficiencies and protein poisoning, especially in the winter when they presumably ate mostly lean meat. Any food with high contents of other essential nutrients not provided by lean meat would have been vital components of their diet, such as fat-rich brains,[47] carbohydrate-rich and abundant underground storage organs (including roots and tubers),[282] or, like modern Inuit, the stomach contents of herbivorous prey items.[283]
Edible plant and mushroom remains are recorded from several caves.[54] Neanderthals from Cueva del Sidrón, Spain, based on dental tartar, likely had a meatless diet of mushrooms, pine nuts and moss, indicating they were forest foragers.[249] Remnants from Amud Cave, Israel, indicates a diet of figs, palm tree fruits and various cereals and edible grasses.[55] Several bone traumas in the leg joints could possibly suggest habitual squatting, which, if the case, was likely done while gathering food.[305] Dental tartar from Grotte de Spy, Belgium, indicates the inhabitants had a meat-heavy diet including woolly rhinoceros and mouflon sheep, while also regularly consuming mushrooms.[249] Neanderthal faecal matter from El Salt, Spain, dated to 50,000 years ago—the oldest human faecal matter remains recorded—show a diet mainly of meat but with a significant component of plants.[306] Evidence of cooked plant foods—mainly legumes and, to a far lesser extent, acorns—was discovered at the Kebara Cave site in Israel, with its inhabitants possibly gathering plants in spring and fall and hunting in all seasons except fall, although the cave was probably abandoned in late summer to early fall.[45] At Shanidar Cave, Iraq, Neanderthals collected plants with various harvest seasons, indicating they scheduled returns to the area to harvest certain plants, and that they had complex food-gathering behaviours for both meat and plants.[53]
Neanderthals probably could employ a wide range of cooking techniques, such as roasting, and they may have been able to heat up or boil soup, stew, or animal stock.[49] The abundance of animal bone fragments at settlements may indicate the making of fat stocks from boiling bone marrow, possibly taken from animals that had already died of starvation. These methods would have substantially increased fat consumption, which was a major nutritional requirement of communities with low carbohydrate and high protein intake.[49][307] Neanderthal tooth size had a decreasing trend after 100,000 years ago, which could indicate an increased dependence on cooking or the advent of boiling, a technique that would have softened food.[308]
At Cueva del Sidrón, Spain, Neanderthals likely cooked and possibly smoked food,[50] as well as used certain plants—such as yarrow and camomile—as flavouring,[49] although these plants may have instead been used for their medicinal properties.[44] At Gorham's Cave, Gibraltar, Neanderthals may have been roasting pinecones to access pine nuts.[56]
At Grotte du Lazaret, France, a total of twenty-three red deer, six ibexes, three aurochs, and one roe deer appear to have been hunted in a single autumn hunting season, when strong male and female deer herds would group together for rut. The entire carcasses seem to have been transported to the cave and then butchered. Because this is such a large amount of food to consume before spoilage, it is possible these Neanderthals were curing and preserving it before winter set in. At 160,000 years old, it is the oldest potential evidence of food storage.[48] The great quantities of meat and fat which could have been gathered in general from typical prey items (namely mammoths) could also indicate food storage capability.[309] With shellfish, Neanderthals needed to eat, cook, or in some manner preserve them soon after collection, as shellfish spoils very quickly. At Cueva de los Aviones, Spain, the remains of edible, algae eating shellfish associated with the alga Jania rubens could indicate that, like some modern hunter gatherer societies, harvested shellfish were held in water-soaked algae to keep them alive and fresh until consumption.[310]
Competition from large Ice Age predators was rather high. Cave lions likely targeted horses, large deer and wild cattle; and leopards primarily reindeer and roe deer; which heavily overlapped with Neanderthal diet. To defend a kill against such ferocious predators, Neanderthals may have engaged in a group display of yelling, arm waving, or stone throwing; or quickly gathered meat and abandoned the kill. However, at Grotte de Spy, Belgium, the remains of wolves, cave lions and cave bears—which were all major predators of the time—indicate Neanderthals hunted their competitors to some extent.[57]
Neanderthals and cave hyenas may have exemplified niche differentiation, and actively avoided competing with each other. Although they both mainly targeted the same groups of creatures—deer, horses and cattle—Neanderthals mainly hunted the former and cave hyenas the latter two. Further, animal remains from Neanderthal caves indicate they preferred to hunt prime individuals, whereas cave hyenas hunted weaker or younger prey, and cave hyena caves have a higher abundance of carnivore remains.[51] Nonetheless, there is evidence that cave hyenas stole food and leftovers from Neanderthal campsites and scavenged on dead Neanderthal bodies.[311] Similarly, evidence from the site of Payre in southern France shows that Neanderthals exhibited resource partitioning with wolves.[312]
There are several instances of Neanderthals practising cannibalism across their range.[314][315] The first example came from the Krapina, Croatia site, in 1899,[120] and other examples were found at Cueva del Sidrón[267] and Zafarraya in Spain; and the French Grotte de Moula-Guercy,[316] Les Pradelles, and La Quina. For the five cannibalised Neanderthals at the Grottes de Goyet, Belgium, there is evidence that the upper limbs were disarticulated, the lower limbs defleshed and also smashed (likely to extract bone marrow), the chest cavity disembowelled, and the jaw dismembered. There is also evidence that the butchers used some bones to retouch their tools. The processing of Neanderthal meat at Grottes de Goyet is similar to how they processed horse and reindeer.[314][315] About 35% of the Neanderthals at Marillac-le-Franc, France, show clear signs of butchery, and the presence of digested teeth indicates that the bodies were abandoned and eaten by scavengers, likely hyaenas.[317]
These cannibalistic tendencies have been explained as either ritual defleshing, pre-burial defleshing (to prevent scavengers or foul smell), an act of war, or simply for food. Due to a small number of cases, and the higher number of cut marks seen on cannibalised individuals than animals (indicating inexperience), cannibalism was probably not a very common practice, and it may have only been done in times of extreme food shortages as in some cases in recorded human history.[315]
Neanderthals used ochre, a clay earth pigment. Ochre is well documented from 60 to 45,000 years ago in Neanderthal sites, with the earliest example dating to 250–200,000 years ago from Maastricht-Belvédère, the Netherlands (a similar timespan to the ochre record of H. sapiens).[318] It has been hypothesised to have functioned as body paint, and analyses of pigments from Pech de l'Azé, France, indicates they were applied to soft materials (such as a hide or human skin).[319] However, modern hunter gatherers, in addition to body paint, also use ochre for medicine, for tanning hides, as a food preservative, and as an insect repellent, so its use as decorative paint for Neanderthals is speculative.[318] Containers apparently used for mixing ochre pigments were found in Peștera Cioarei, Romania, which could indicate modification of ochre for solely aesthetic purposes.[320]
Neanderthals collected uniquely shaped objects and are suggested to have modified them into pendants, such as a fossil Aspa marginata sea snail shell possibly painted red from Grotta di Fumane, Italy, transported over 100 km (62 mi) to the site about 47,500 years ago;[321] three shells, dated to about 120–115,000 years ago, perforated through the umbo belonging to a rough cockle, a Glycymeris insubrica, and a Spondylus gaederopus from Cueva de los Aviones, Spain, the former two associated with red and yellow pigments, and the latter a red-to-black mix of hematite and pyrite; and a king scallop shell with traces of an orange mix of goethite and hematite from Cueva Antón, Spain. The discoverers of the latter two claim that pigment was applied to the exterior to make it match the naturally vibrant inside colouration.[61][310] Excavated from 1949 to 1963 from the French Grotte du Renne, Châtelperronian beads made from animal teeth, shells and ivory were found associated with Neanderthal bones, but the dating is uncertain and Châtelperronian artefacts may actually have been crafted by modern humans and simply redeposited with Neanderthal remains.[322][323][324][325]
Gibraltarian palaeoanthropologists Clive and Geraldine Finlayson suggested that Neanderthals used various bird parts as artistic media, specifically black feathers.[326] In 2012, the Finlaysons and colleagues examined 1,699 sites across Eurasia, and argued that raptors and corvids, species not typically consumed by any human species, were overrepresented and show processing of only the wing bones instead of the fleshier torso, and thus are evidence of feather plucking of specifically the large flight feathers for use as personal adornment. They specifically noted the cinereous vulture, red-billed chough, kestrel, lesser kestrel, alpine chough, rook, jackdaw and the white tailed eagle in Middle Palaeolithic sites.[327] Other birds claimed to present evidence of modifications by Neanderthals are the golden eagle, rock pigeon, common raven and the bearded vulture.[328] The earliest claim of bird bone jewellery is a number of 130,000-year-old white tailed eagle talons found in a cache near Krapina, Croatia, speculated, in 2015, to have been a necklace.[329][330] A similar 39,000-year-old Spanish imperial eagle talon necklace was reported in 2019 at Cova Foradà in Spain, though from the contentious Châtelperronian layer.[331] In 2017, 17 incision-decorated raven bones from the Zaskalnaya VI rock shelter, Ukraine, dated to 43–38,000 years ago were reported. Because the notches are more-or-less equidistant to each other, they are the first modified bird bones that cannot be explained by simple butchery, and for which the argument of design intent is based on direct evidence.[59]
Discovered in 1975, the so-called Mask of la Roche-Cotard, a mostly flat piece of flint with a bone pushed through a hole on the midsection—dated to 32, 40, or 75,000 years ago[332]—has been purported to resemble the upper half of a face, with the bone representing eyes.[333][334] It is contested whether it represents a face, or if it even counts as art.[335] In 1988, American archaeologist Alexander Marshack speculated that a Neanderthal at Grotte de L'Hortus, France, wore a leopard pelt as personal adornment to indicate elevated status in the group based on a recovered leopard skull, phalanges and tail vertebrae.[36][336]
The scratched floor of Gorham's Cave, Gibraltar, c. 39,000 BC
As of 2014, 63 purported engravings have been reported from 27 different European and Middle Eastern Lower-to-Middle Palaeolithic sites, of which 20 are on flint cortexes from 11 sites, 7 are on slabs from 7 sites, and 36 are on pebbles from 13 sites. It is debated whether or not these were made with symbolic intent.[63] In 2012, deep scratches on the floor of Gorham's Cave, Gibraltar, were discovered, dated to older than 39,000 years ago, which the discoverers have interpreted as Neanderthal abstract art.[337][338] The scratches could have also been produced by a bear.[273] In 2021, an Irish elk phalanx with five engraved offset chevrons stacked above each other was discovered at the entrance to the Einhornhöhle cave in Germany, dating to about 51,000 years ago.[339]
In 2018, some red-painted dots, disks, lines and hand stencils on the cave walls of the Spanish La Pasiega, Maltravieso, and Doña Trinidad were dated to be older than 66,000 years ago, at least 20,000 years prior to the arrival of modern humans in Western Europe. This would indicate Neanderthal authorship, and similar iconography recorded in other Western European sites—such as Les Merveilles, France, and Cueva del Castillo, Spain—could potentially also have Neanderthal origins.[66][67][340] However, the dating of these Spanish caves, and thus attribution to Neanderthals, is contested.[65]
Neanderthals are known to have collected a variety of unusual objects—such as crystals or fossils—without any real functional purpose or any indication of damage caused by use. It is unclear if these objects were simply picked up for their aesthetic qualities, or if some symbolic significance was applied to them. These items are mainly quartz crystals, but also other minerals such as cerussite, iron pyrite, calcite and galena. A few findings feature modifications, such as a mammoth tooth with an incision and a fossil nummulite shell with a cross etched in from Tata, Hungary; a large slab with 18 cupstones hollowed out from a grave in La Ferrassie, France;[62] and a geode from Peștera Cioarei, Romania, coated with red ochre.[341] A number of fossil shells are also known from French Neanderthals sites, such as a rhynchonellid and a Taraebratulina from Combe Grenal; a belemnite beak from Grottes des Canalettes; a polyp from Grotte de l'Hyène; a sea urchin from La Gonterie-Boulouneix; and a rhynchonella, feather star and belemnite beak from the contentious Châtelperronian layer of Grotte du Renne.[62]
Purported Neanderthal bone flute fragments made of bear long bones were reported from Potočka zijalka, Slovenia, in the 1920s, and Istállós-kői-barlang, Hungary,[342] and Mokriška jama, Slovenia, in 1985; but these are now attributed to modern human activities.[343][344]
The 43,000-year-old Divje Babe flute from Slovenia, found in 1995, has been attributed by some researchers to Neanderthals, though its status as a flute is heavily disputed. Many researchers consider it to be most likely the product of a carnivorous animal chewing the bone,[345][344][346] but its discoverer Ivan Turk and other researchers have maintained an argument that it was manufactured by Neanderthal as a musical instrument.[64]
Despite the apparent 150,000-year stagnation in Neanderthal lithic innovation,[176] there is evidence that Neanderthal technology was more sophisticated than was previously thought.[69] However, the high frequency of potentially debilitating injuries could have prevented very complex technologies from emerging, as a major injury would have impeded an expert's ability to effectively teach a novice.[237]
Neanderthals made stone tools, and are associated with the Mousterian industry.[32] The Mousterian is also associated with North African H. sapiens as early as 315,000 years ago[347] and was found in Northern China about 47–37,000 years ago in caves such as Jinsitai or Tongtiandong.[348] It evolved around 300,000 years ago with the Levallois technique which developed directly from the preceding Acheulean industry (invented by H. erectus about 1.8 mya). Levallois made it easier to control flake shape and size, and as a difficult-to-learn and unintuitive process, the Levallois technique may have been directly taught generation to generation rather than via purely observational learning.[33]
There are distinct regional variants of the Mousterian industry, such as: the Quina and La Ferrassie subtypes of the Charentian industry in southwestern France, Acheulean-tradition Mousterian subtypes A and B along the Atlantic and northwestern European coasts,[349] the Micoquien industry of Central and Eastern Europe and the related Sibiryachikha variant in the Siberian Altai Mountains,[268] the Denticulate Mousterian industry in Western Europe, the racloir industry around the Zagros Mountains, and the flake cleaver industry of Cantabria, Spain, and both sides of the Pyrenees. In the mid-20th century, French archaeologist François Bordes debated against American archaeologist Lewis Binford to explain this diversity (the "Bordes–Binford debate"), with Bordes arguing that these represent unique ethnic traditions and Binford that they were caused by varying environments (essentially, form vs. function).[349] The latter sentiment would indicate a lower degree of inventiveness compared to modern humans, adapting the same tools to different environments rather than creating new technologies.[58] A continuous sequence of occupation is well documented in Grotte du Renne, France, where the lithic tradition can be divided into the Levallois–Charentian, Discoid–Denticulate (43,300 ±929 – 40,900 ±719 years ago), Levallois Mousterian (40,200 ±1,500 – 38,400 ±1,300 years ago) and Châtelperronian (40,930 ±393 – 33,670 ±450 years ago).[350]
There is some debate if Neanderthals had long-ranged weapons.[351][352] A wound on the neck of an African wild ass from Umm el Tlel, Syria, was likely inflicted by a heavy Levallois-point javelin,[353] and bone trauma consistent with habitual throwing has been reported in Neanderthals.[351][352] Some spear tips from Abri du Maras, France, may have been too fragile to have been used as thrusting spears, possibly suggesting their use as darts.[303]
The Châtelperronian in central France and northern Spain is a distinct industry from the Mousterian, and is controversially hypothesised to represent a culture of Neanderthals borrowing (or by process of acculturation) tool-making techniques from immigrating modern humans, crafting bone tools and ornaments. In this frame, the makers would have been a transitional culture between the Neanderthal Mousterian and the modern human Aurignacian.[354][355][356][357][358] The opposing viewpoint is that the Châtelperronian was manufactured by modern humans instead.[359] Abrupt transitions similar to the Mousterian/Châtelperronian could also simply represent natural innovation, like the La Quina–Neronian transition 50,000 years ago featuring technologies generally associated with modern humans such as bladelets and microliths. Other ambiguous transitional cultures include the Italian Uluzzian industry,[360] and the Balkan Szeletian industry.[361]
Before immigration, the only evidence of Neanderthal bone tools are animal rib lissoirs—which are rubbed against hide to make it more supple or waterproof—although this could also be evidence for modern humans immigrating earlier than expected. In 2013, two 51,400- to 41,100-year-old deer rib lissoirs were reported from Pech-de-l'Azé and the nearby Abri Peyrony in France.[356][100][100] In 2020, five more lissoirs made of aurochs or bison ribs were reported from Abri Peyrony, with one dating to about 51,400 years ago and the other four to 47,700–41,100 years ago. This indicates the technology was in use in this region for a long time. Since reindeer remains were the most abundant, the use of less abundant bovine ribs may indicate a specific preference for bovine ribs. Potential lissoirs have also been reported from Grosse Grotte, Germany (made of mammoth), and Grottes des Canalettes, France (red deer).[362]
The Neanderthals in 10 coastal sites in Italy (namely Grotta del Cavallo and Grotta dei Moscerini) and Kalamakia Cave, Greece, are known to have crafted scrapers using smooth clam shells, and possibly hafted them to a wooden handle. They probably chose this clam species because it has the most durable shell. At Grotta dei Moscerini, about 24% of the shells were gathered alive from the seafloor, meaning these Neanderthals had to wade or dive into shallow waters to collect them. At Grotta di Santa Lucia, Italy, in the Campanian volcanic arc, Neanderthals collected the porous volcanic pumice, which, for contemporary humans, was probably used for polishing points and needles. The pumices are associated with shell tools.[299]
At Abri du Maras, France, twisted fibres and a 3-ply inner-bark-fibre cord fragment associated with Neanderthals show that they produced string and cordage, but it is unclear how widespread this technology was because the materials used to make them (such as animal hair, hide, sinew, or plant fibres) are biodegradable and preserve very poorly. This technology could indicate at least a basic knowledge of weaving and knotting, which would have made possible the production of nets, containers, packaging, baskets, carrying devices, ties, straps, harnesses, clothes, shoes, beds, bedding, mats, flooring, roofing, walls and snares, and would have been important in hafting, fishing and seafaring. Dating to 52–41,000 years ago, the cord fragment is the oldest direct evidence of fibre technology, although 115,000-year-old perforated shell beads from Cueva Antón possibly strung together to make a necklace are the oldest indirect evidence.[41][303] In 2020, British archaeologist Rebecca Wragg Sykes expressed cautious support for the genuineness of the find, but pointed out that the string would have been so weak that it would have had limited functions. One possibility is as a thread for attaching or stringing small objects.[363]
The archaeological record shows that Neanderthals commonly used animal hide and birch bark, and may have used them to make cooking containers. However, this is based largely on circumstantial evidence, as neither fossilises well.[308] It is possible that the Neanderthals at Kebara Cave in Israel, used the shells of the spur-thighed tortoise as containers.[364]
At the Italian Poggetti Vecchi site, there is evidence that they used fire to process boxwood branches to make digging sticks, a common implement in hunter-gatherer societies.[365]
The Schöningen spears are a collection of wooden spears probably made by early Neanderthals found in Germany, dating to around 300,000 years ago. They were likely both thrown and used as handheld thrusting spears. The tools were specifically made of spruce, (or possibly larch in some specimens) and pine despite their uncommonness in the environment, suggesting that they had been deliberately selected for their material properties. The spears had been deliberately debarked, followed by the ends being sharpened using cutting and scraping. Other wooden tools made of split wood were also found at the site, some rounded and some pointed, which may have functioned for domestic tasks, like serving as awls (used to make holes) and hide smoothers for the pointed and rounded types respectively. The wooden artefacts show evidence of being repurposed and reshaped.[366]
Many Mousterian sites have evidence of fire, some for extended periods of time, though it is unclear whether they were capable of starting fire or simply scavenged from naturally occurring wildfires. Indirect evidence of fire-starting ability includes pyrite residue on a couple of dozen bifaces from late Mousterian (c. 50,000 years ago) northwestern France (which could indicate they were used as percussion fire starters), and collection of manganese dioxide by late Neanderthals which can lower the combustion temperature of wood.[34][35][367] They were also capable of zoning areas for specific activities, such as for knapping, butchering, hearths and wood storage. Many Neanderthal sites lack evidence for such activity perhaps due to natural degradation of the area over tens of thousands of years, such as by bear infiltration after abandonment of the settlement.[273]
In a number of caves, evidence of hearths has been detected. Neanderthals likely considered air circulation when making hearths as a lack of proper ventilation for a single hearth can render a cave uninhabitable in several minutes. Abric Romaní rock shelter, Spain, indicates eight evenly spaced hearths lined up against the rock wall, likely used to stay warm while sleeping, with one person sleeping on either side of the fire.[36][37] At Cueva de Bolomor, Spain, with hearths lined up against the wall, the smoke flowed upwards to the ceiling, and led to outside the cave. In Grotte du Lazaret, France, smoke was probably naturally ventilated during the winter as the interior cave temperature was greater than the outside temperature; likewise, the cave was likely only inhabited in the winter.[37]
In 1990, two 176,000-year-old ring structures, several metres wide, made of broken stalagmite pieces, were discovered in a large chamber more than 300 m (980 ft) from the entrance within Grotte de Bruniquel, France. One ring was 6.7 m × 4.5 m (22 ft × 15 ft) with stalagmite pieces averaging 34.4 cm (13.5 in) in length, and the other 2.2 m × 2.1 m (7.2 ft × 6.9 ft) with pieces averaging 29.5 cm (11.6 in). There were also four other piles of stalagmite pieces for a total of 112 m (367 ft) or 2.2 t (2.4 short tons) worth of stalagmite pieces. Evidence of the use of fire and burnt bones also suggest human activity. A team of Neanderthals was likely necessary to construct the structure, but the chamber's actual purpose is uncertain. Building complex structures so deep in a cave is unprecedented in the archaeological record, and indicates sophisticated lighting and construction technology, and great familiarity with subterranean environments.[368]
The 44,000-year-old Moldova I open-air site, Ukraine, shows evidence of a 7 m × 10 m (23 ft × 33 ft) ring-shaped dwelling made out of mammoth bones meant for long-term habitation by several Neanderthals, which would have taken a long time to build. It appears to have contained hearths, cooking areas and a flint workshop, and there are traces of woodworking. Upper Palaeolithic modern humans in the Russian plains are thought to have also made housing structures out of mammoth bones.[29]
Neanderthal produced the adhesive birch bark tar, using the bark of birch trees, for hafting.[369] It was long believed that birch bark tar required a complex recipe to be followed, and that it thus showed complex cognitive skills and cultural transmission. However, a 2019 study showed it can be made simply by burning birch bark beside smooth vertical surfaces, such as a flat, inclined rock.[39] Thus, tar making does not require cultural processes per se. However, at Königsaue (Germany), Neanderthals did not make tar with such an aboveground method but rather employed a technically more demanding underground production method. This is one of our best indicators that some of their techniques were conveyed by cultural processes.[370]
Neanderthals were likely able to survive in a similar range of temperatures to modern humans while sleeping: about 32 °C (90 °F) while naked in the open and windspeed 5.4 km/h (3.4 mph), or 27–28 °C (81–82 °F) while naked in an enclosed space. Since ambient temperatures were markedly lower than this—averaging, during the Eemian interglacial, 17.4 °C (63.3 °F) in July and 1 °C (34 °F) in January and dropping to as a low as −30 °C (−22 °F) on the coldest days—Danish physicist Bent Sørensen hypothesised that Neanderthals required tailored clothing capable of preventing airflow to the skin. Especially during extended periods of travelling (such as a hunting trip), tailored footwear completely enwrapping the feet may have been necessary.[371]
Nonetheless, as opposed to the bone sewing-needles and stitching awls assumed to have been in use by contemporary modern humans, the only known Neanderthal tools that could have been used to fashion clothes are hide scrapers, which could have made items similar to blankets or ponchos, and there is no direct evidence they could produce fitted clothes.[40][372] Indirect evidence of tailoring by Neanderthals includes the ability to manufacture string, which could indicate weaving ability,[303] and a naturally-pointed horse metatarsal bone from Cueva de los Aviones, Spain, which was speculated to have been used as an awl, perforating dyed hides, based on the presence of orange pigments.[310] Whatever the case, Neanderthals would have needed to cover up most of their body, and contemporary humans would have covered 80–90%.[372][373]
Since human/Neanderthal admixture is known to have occurred in the Middle East, and no modern body louse species descends from their Neanderthal counterparts (body lice only inhabit clothed individuals), it is possible Neanderthals (and/or humans) in hotter climates did not wear clothes, or Neanderthal lice were highly specialised.[373]
Remains of Middle Palaeolithic stone tools on Greek islands indicate early seafaring by Neanderthals in the Ionian Sea possibly starting as far back as 200–150,000 years ago. The oldest stone artefacts from Crete date to 130–107,000 years ago, Cephalonia 125,000 years ago, and Zakynthos 110–35,000 years ago. The makers of these artefacts likely employed simple reed boats and made one-day crossings back and forth.[42] Other Mediterranean islands with such remains include Sardinia, Melos, Alonnisos,[43] and Naxos (although Naxos may have been connected to land),[374] and it is possible they crossed the Strait of Gibraltar.[43] If this interpretation is correct, Neanderthals' ability to engineer boats and navigate through open waters would speak to their advanced cognitive and technical skills.[43][374]
Given their dangerous hunting and extensive skeletal evidence of healing, Neanderthals appear to have lived lives of frequent traumatic injury and recovery. Well-healed fractures on many bones indicate the setting of splints. Individuals with severe head and rib traumas (which would have caused massive blood loss) indicate they had some manner of dressing major wounds, such as bandages made from animal skin. By and large, they appear to have avoided severe infections, indicating good long-term treatment of such wounds.[47]
Their knowledge of medicinal plants was comparable to that of contemporary humans.[47] An individual at Cueva del Sidrón, Spain, seems to have been medicating a dental abscess using poplar—which contains salicylic acid, the active ingredient in aspirin—and there were also traces of the antibiotic-producing Penicillium chrysogenum.[249] They may also have used yarrow and camomile, and their bitter taste—which should act as a deterrent as it could indicate poison—means it was likely a deliberate act.[44] At the Kebara Cave in Israel, plant remains which have historically been used for their medicinal properties were found, including the common grape vine, the pistachios of the Persian turpentine tree, ervil seeds and oak acorns.[45]
It is not known whether the Neanderthals had the capacity for advanced language, but some researchers have argued that a complex language—possibly using syntax—was probably necessary to survive in their harsh environment, with Neanderthals needing to communicate about topics such as locations, hunting and gathering, and tool-making techniques.[69][375][376] The FOXP2 gene in modern humans is associated with speech and language development. FOXP2 was present in Neanderthals,[377] but not the gene's modern human variant.[378] Neurologically, Neanderthals had an expanded Broca's area—operating the formulation of sentences, and speech comprehension, but out of a group of 48 genes believed to affect the neural substrate of language, 11 had different methylation patterns between Neanderthals and modern humans. This could indicate a stronger ability in modern humans than in Neanderthals to express language.[379]
In 1971, cognitive scientist Philip Lieberman attempted to reconstruct the Neanderthal vocal tract and concluded that it was similar to that of a newborn and incapable of producing a large range of speech sounds, due to the large size of the mouth and the small size of the pharyngeal cavity (according to his reconstruction), thus no need for a descended larynx to fit the entire tongue inside the mouth. He claimed that they were anatomically unable to produce the sounds /a/, /i/, /u/, /ɔ/, /g/, and /k/ and thus lacked the capacity for articulate speech, though were still able to speak at a level higher than non-human primates.[380][381][382] However, the lack of a descended larynx does not necessarily equate to a reduced vowel capacity.[383] The 1983 discovery of a Neanderthal hyoid bone—used in speech production in humans—in Kebara 2 which is almost identical to that of humans suggests Neanderthals were capable of speech. Also, the ancestral Sima de los Huesos hominins had humanlike hyoid and ear bones, which could suggest the early evolution of the modern human vocal apparatus. However, the hyoid does not definitively provide insight into vocal tract anatomy.[70] Subsequent studies reconstruct the Neanderthal vocal apparatus as comparable to that of modern humans, with a similar vocal repertoire.[384] In 2015, Lieberman hypothesized that Neanderthals were capable of syntactical language, although nonetheless incapable of mastering any human dialect.[385]
Although Neanderthals did bury their dead, at least occasionally—which may explain the abundance of fossil remains[58]—the behaviour is not indicative of a religious belief of life after death because it could also have had non-symbolic motivations, such as great emotion[388] or the prevention of scavenging.[389]
Estimates made regarding the number of known Neanderthal burials range from thirty-six to sixty.[390][391][392][393] The oldest confirmed burials do not seem to occur before approximately 70,000 years ago.[394] The small number of recorded Neanderthal burials implies that the activity was not particularly common. The setting of inhumation in Neanderthal culture largely consisted of simple, shallow graves and pits.[395] Sites such as La Ferrassie in France or Shanidar in Iraq may imply the existence of mortuary centers or cemeteries in Neanderthal culture due to the number of individuals found buried at them.[395]
The debate on Neanderthal funerals has been active since the 1908 discovery of La Chapelle-aux-Saints 1 in a small, artificial hole in a cave in southwestern France, very controversially postulated to have been buried in a symbolic fashion.[396][397][398] Another grave at Shanidar Cave, Iraq, was associated with the pollen of several flowers that may have been in bloom at the time of deposition—yarrow, centaury, ragwort, grape hyacinth, joint pine and hollyhock.[399] The medicinal properties of the plants led American archaeologist Ralph Solecki to claim that the man buried was some leader, healer, or shaman, and that "The association of flowers with Neanderthals adds a whole new dimension to our knowledge of his humanness, indicating that he had 'soul' ".[400] However, it is also possible the pollen was deposited by a small rodent after the man's death.[401]
The graves of children and infants, especially, are associated with grave goods such as artefacts and bones. The grave of a newborn from La Ferrassie, France, was found with three flint scrapers, and an infant from Dederiyeh [de] Cave, Syria, was found with a triangular flint placed on its chest. A 10-month-old from Amud Cave, Israel, was associated with a red deer mandible, likely purposefully placed there given other animal remains are now reduced to fragments. Teshik-Tash 1 from Uzbekistan was associated with a circle of ibex horns, and a limestone slab argued to have supported the head.[254] A child from Kiik-Koba, Crimea, Ukraine, had a flint flake with some purposeful engraving on it, likely requiring a great deal of skill.[63] Nonetheless, these contentiously constitute evidence of symbolic meaning as the grave goods' significance and worth are unclear.[254]
It was once argued that the bones of the cave bear, particularly the skull, in some European caves were arranged in a specific order, indicating an ancient bear cult that killed bears and then ceremoniously arranged the bones. This would be consistent with bear-related rituals of modern human Arctic hunter-gatherers. However, the alleged peculiarity of the arrangement could also be sufficiently explained by natural causes,[68][388] and bias could be introduced as the existence of a bear cult would conform with the idea that totemism was the earliest religion, leading to undue extrapolation of evidence.[402]
It was also once thought that Neanderthals ritually hunted, killed and cannibalised other Neanderthals and used the skull as the focus of some ceremony.[315] In 1962, Italian palaeontologist Alberto Blanc believed a skull from Grotta Guattari, Italy, had evidence of a swift blow to the head—indicative of ritual murder—and a precise and deliberate incising at the base to access the brain. He compared it to the victims of headhunters in Malaysia and Borneo,[403] putting it forward as evidence of a skull cult.[388] However, it is now thought to have been a result of cave hyaena scavengery.[404] Although Neanderthals are known to have practised cannibalism, there is unsubstantial evidence to suggest ritual defleshing.[314]
In 2019, Gibraltarian palaeoanthropologists Stewart, Geraldine and Clive Finlayson and Spanish archaeologist Francisco Guzmán speculated that the golden eagle had iconic value to Neanderthals, as exemplified in some modern human societies because they reported that golden eagle bones had a conspicuously high rate of evidence of modification compared to the bones of other birds. They then proposed some "Cult of the Sun Bird" where the golden eagle was a symbol of power.[60][328] There is evidence from Krapina, Croatia, from wear use and even remnants of string, that suggests that raptor talons were worn as personal ornaments.[405]
The first Neanderthal genome sequence was published in 2010, and strongly indicated interbreeding between Neanderthals and early modern humans.[87][407][408][409] The genomes of all studied modern populations contain Neanderthal DNA.[87][89][410][411][412] Various estimates exist for the proportion, such as 1–4%[87] or 3.4–7.9% in modern Eurasians,[413] or 1.8–2.4% in modern Europeans and 2.3–2.6% in modern East Asians.[414] Pre-agricultural Europeans appear to have had similar, or slightly higher,[412] percentages to modern East Asians, and the numbers may have decreased in the former due to dilution with a group of people which had split off before Neanderthal introgression.[100] Typically, studies have reported finding no significant levels of Neanderthal DNA in Sub-Saharan Africans, but a 2020 study detected 0.3-0.5% in the genomes of five African sample populations, likely the result of Eurasians back-migrating and interbreeding with Africans, as well as human-to-neanderthal gene flow from dispersals of Homo sapiens preceding the larger Out-of-Africa migration, and also showed more equal Neanderthal DNA percentages for European and Asian populations.[412] Such low percentages of Neanderthal DNA in all present day populations indicate infrequent past interbreeding,[415] unless interbreeding was more common with a different population of modern humans which did not contribute to the present day gene pool.[100] Of the inherited Neanderthal genome, 25% in modern Europeans and 32% in modern East Asians may be related to viral immunity.[416] In all, approximately 20% of the Neanderthal genome appears to have survived in the modern human gene pool.[94]
However, due to their small population and resulting reduced effectivity of natural selection, Neanderthals accumulated several weakly harmful mutations, which were introduced to and slowly selected out of the much larger modern human population; the initial hybridised population may have experienced up to a 94% reduction in fitness compared to contemporary humans. By this measure, Neanderthals may have substantially increased in fitness.[26] A 2017 study focusing on archaic genes in Turkey found associations with coeliac disease, malaria severity and Costello syndrome.[418] Nonetheless, some genes may have helped modern East Asians adapt to the environment; the putatively Neanderthal Val92Met variant of the MC1R gene, which may be weakly associated with red hair and UV radiation sensitivity,[419] is primarily found in East Asian, rather than European, individuals.[420] Some genes related to the immune system appear to have been affected by introgression, which may have aided migration,[96] such as OAS1,[421]STAT2,[422]TLR6, TLR1, TLR10,[423] and several related to immune response.[95][f] In addition, Neanderthal genes have also been implicated in the structure and function of the brain,[g]keratin filaments, sugar metabolism, muscle contraction, body fat distribution, enamel thickness and oocytemeiosis.[99] Nonetheless, a large portion of surviving introgression appears to be non-coding ("junk") DNA with few biological functions.[100]
There is considerably less Neanderthal ancestry on the X-chromosome as compared to the autosomal chromosomes. This has led to suggestions that admixture with modern humans was sex biased, and primarily the result of mating between modern human females and Neanderthal males. Other authors have suggested that this may be due to negative selection against Neanderthal alleles, however these two proposals are not mutually exclusive.[141] A 2023 study confirmed that the low level of Neanderthal ancestry on the X-chromosomes is best explained by sex bias in the admixture events, and these authors also found evidence for negative selection on archaic genes.[425]
Neanderthal mtDNA (which is passed on from mother to child) is absent in modern humans.[136][155][426] This is evidence that interbreeding occurred mainly between Neanderthal males and modern human females.[427] According to Svante Pääbo, it is not clear that modern humans were socially dominant over Neanderthals, which may explain why the interbreeding occurred primarily between Neanderthal males and modern human females.[428] Furthermore, even if Neanderthal women and modern human males had interbred, Neanderthal mtDNA lineages may have gone extinct if women who carried them only gave birth to sons.[428]
Due to the lack of Neanderthal-derived Y-chromosomes in modern humans (which is passed on from father to son), it has also been suggested that the hybrids that contributed ancestry to modern populations were predominantly females, or the Neanderthal Y-chromosome was not compatible with H. sapiens and became extinct.[100][429]
According to linkage disequilibrium mapping, the last Neanderthal gene flow into the modern human genome occurred 86–37,000 years ago, but most likely 65–47,000 years ago.[430] It is thought that Neanderthal genes which contributed to the present day human genome stemmed from interbreeding in the Near East rather than the entirety of Europe. However, interbreeding still occurred without contributing to the modern genome.[100] The approximately 40,000-year-old modern human Oase 2 was found, in 2015, to have had 6–9% (point estimate 7.3%) Neanderthal DNA, indicating a Neanderthal ancestor up to four to six generations earlier, but this hybrid population does not appear to have made a substantial contribution to the genomes of later Europeans.[417] In 2016, the DNA of Neanderthals from Denisova Cave revealed evidence of interbreeding 100,000 years ago, and interbreeding with an earlier dispersal of H. sapiens may have occurred as early as 120,000 years ago in places such as the Levant.[91] The earliest H. sapiens remains outside of Africa occur at Misliya Cave 194–177,000 years ago, and Skhul and Qafzeh 120–90,000 years ago.[431] The Qafzeh humans lived at approximately the same time as the Neanderthals from the nearby Tabun Cave.[432] The Neanderthals of the German Hohlenstein-Stadel have deeply divergent mtDNA compared to more recent Neanderthals, possibly due to introgression of human mtDNA between 316,000 and 219,000 years ago, or simply because they were genetically isolated.[90] Whatever the case, these first interbreeding events have not left any trace in modern human genomes.[433]
Genetic evidence suggests that following their split from Denisovans, Neanderthals experienced gene flow (around 3% of their genome) from the lineage leading to modern humans prior to the expansion of modern humans outside of Africa during the Last Glacial Period, with this interbreeding suggested to have taken place around 200-300,000 years ago.[141]
Detractors of the interbreeding model argue that the genetic similarity is only a remnant of a common ancestor instead of interbreeding,[434] although this is unlikely as it fails to explain why sub-Saharan Africans do not have Neanderthal DNA.[408]
Although nDNA confirms that Neanderthals and Denisovans are more closely related to each other than they are to modern humans, Neanderthals and modern humans share a more recent maternally-transmitted mtDNA common ancestor, possibly due to interbreeding between Denisovans and some unknown human species. The 400,000-year-old Neanderthal-like humans from Sima de los Huesos in northern Spain, looking at mtDNA, are more closely related to Denisovans than Neanderthals. Several Neanderthal-like fossils in Eurasia from a similar time period are often grouped into H. heidelbergensis, of which some may be relict populations of earlier humans, which could have interbred with Denisovans.[436] This is also used to explain an approximately 124,000-year-old German Neanderthal specimen with mtDNA that diverged from other Neanderthals (except for Sima de los Huesos) about 270,000 years ago, while its genomic DNA indicated divergence less than 150,000 years ago.[90]
Sequencing of the genome of a Denisovan from Denisova Cave has shown that 17% of its genome derives from Neanderthals.[93] This Neanderthal DNA more closely resembled that of a 120,000-year-old Neanderthal bone from the same cave than that of Neanderthals from Vindija Cave, Croatia, or Mezmaiskaya Cave in the Caucasus, suggesting that interbreeding was local.[92]
For the 90,000-year-old Denisova 11, it was found that her father was a Denisovan related to more recent inhabitants of the region, and her mother a Neanderthal related to more recent European Neanderthals at Vindija Cave, Croatia. Given how few Denisovan bones are known, the discovery of a first-generation hybrid indicates interbreeding was very common between these species, and Neanderthal migration across Eurasia likely occurred sometime after 120,000 years ago.[437]
The extinction of Neanderthals was part of the broader Late Pleistocene megafaunal extinction event.[438] Whatever the cause of their extinction, Neanderthals were replaced by modern humans, indicated by near full replacement of Middle Palaeolithic Mousterian stone technology with modern human Upper Palaeolithic Aurignacian stone technology across Europe (the Middle-to-Upper Palaeolithic Transition) from 41,000 to 39,000 years ago.[8][9][11][439] By between 44,200 to 40,600 BP, Neanderthals vanished from northwestern Europe.[440] However, it is postulated that Iberian Neanderthals persisted until about 35,000 years ago, as indicated by the date range of transitional lithic assemblages—Châtelperronian, Uluzzian, Protoaurignacian and Early Aurignacian. The latter two are attributed to modern humans, but the former two have unconfirmed authorship, potentially products of Neanderthal/modern human cohabitation and cultural transmission. Further, the appearance of the Aurignacian south of the Ebro River has been dated to roughly 37,500 years ago, which has prompted the "Ebro Frontier" hypothesis which states that the river presented a geographic barrier preventing modern human immigration, and thus prolonging Neanderthal persistence.[441][442] However, the dating of the Iberian Transition is debated, with a contested timing of 43,000–40,800 years ago at Cueva Bajondillo, Spain.[443][444][445][446] The Châtelperronian appears in northeastern Iberia about 42,500–41,600 years ago.[441]
Some Neanderthals in Gibraltar were dated to much later than this—such as Zafarraya (30,000 years ago)[447] and Gorham's Cave (28,000 years ago)[448]—which may be inaccurate as they were based on ambiguous artefacts instead of direct dating.[11] A claim of Neanderthals surviving in a polar refuge in the Ural Mountains[169] is loosely supported by Mousterian stone tools dating to 34,000 years ago from the northern Siberian Byzovaya site at a time when modern humans may not yet have colonised the northern reaches of Europe;[171] however, modern human remains are known from the nearby Mamontovaya Kurya site dating to 40,000 years ago.[449] Indirect dating of Neanderthals remains from Mezmaiskaya Cave reported a date of about 30,000 years ago, but direct dating instead yielded 39,700 ±1,100 years ago, more in line with trends exhibited in the rest of Europe.[10]
The earliest indication of Upper Palaeolithic modern human immigration into Europe is a series of modern human teeth with Neronian industry stone tools found at Mandrin Cave, Malataverne in France, dated in 2022 to between 56,800 and 51,700 years ago.[450] The earliest bones in Europe date to roughly 45–43,000 years ago in Bulgaria,[451] Italy,[452] and Britain.[453] This wave of modern humans replaced Neanderthals.[8] However, Neanderthals and H. sapiens have a much longer contact history. DNA evidence indicates H. sapiens contact with Neanderthals and admixture as early as 120–100,000 years ago. A 2019 reanalysis of 210,000-year-old skull fragments from the Greek Apidima Cave assumed to have belonged to a Neanderthal concluded that they belonged to a modern human, and a Neanderthal skull dating to 170,000 years ago from the cave indicates H. sapiens were replaced by Neanderthals until returning about 40,000 years ago.[454] This identification was refuted by a 2020 study.[455] Archaeological evidence suggests that Neanderthals displaced modern humans in the Near East around 100,000 years ago until about 60–50,000 years ago.[100]
Historically, modern human technology was viewed as vastly superior to that of Neanderthals, with more efficient weaponry and subsistence strategies, and Neanderthals simply went extinct because they could not compete.[19]
The discovery of Neanderthal/modern human introgression has caused the resurgence of the multiregional hypothesis, wherein the present day genetic makeup of all humans is the result of complex genetic contact among several different populations of humans dispersed across the world. By this model, Neanderthals and other recent archaic humans were simply assimilated into the modern human genome – that is, they were effectively bred out into extinction.[19] Modern humans coexisted with Neanderthals in Europe for around 3,000 to 5,000 years.[456]
Their ultimate extinction coincides with Heinrich event 4, a period of intense seasonality; later Heinrich events are also associated with massive cultural turnovers when European human populations collapsed.[20][21] This climate change may have depopulated several regions of Neanderthals, like previous cold spikes, but these areas were instead repopulated by immigrating humans, leading to Neanderthal extinction.[457] In southern Iberia, there is evidence that Neanderthal populations declined during H4 and the associated proliferation of Artemisia-dominated desert-steppes.[458]
It has also been proposed that climate change was the primary driver, as their low population left them vulnerable to any environmental change, with even a small drop in survival or fertility rates possibly quickly leading to their extinction.[459] However, Neanderthals and their ancestors had survived through several glacial periods over their hundreds of thousands of years of European habitation.[281] It is also proposed that around 40,000 years ago, when Neanderthal populations may have already been dwindling from other factors, the Campanian Ignimbrite Eruption in Italy could have led to their final demise, as it produced 2–4 °C (3.6–7.2 °F) cooling for a year and acid rain for several more years.[22][460]
Modern humans may have introduced African diseases to Neanderthals, contributing to their extinction. A lack of immunity, compounded by an already low population, was potentially devastating to the Neanderthal population, and low genetic diversity could have also rendered fewer Neanderthals naturally immune to these new diseases ("differential pathogen resistance" hypothesis). However, compared to modern humans, Neanderthals had a similar or higher genetic diversity for 12 major histocompatibility complex (MHC) genes associated with the adaptive immune system, casting doubt on this model.[24]
Low population and inbreeding depression may have caused maladaptive birth defects, which could have contributed to their decline (mutational meltdown).[244]
In late-20th-century New Guinea, due to cannibalistic funerary practices, the Fore people were decimated by transmissible spongiform encephalopathies, specifically kuru, a highly virulent disease spread by ingestion of prions found in brain tissue. However, individuals with the 129 variant of the PRNP gene were naturally immune to the prions. Studying this gene led to the discovery that the 129 variant was widespread among all modern humans, which could indicate widespread cannibalism at some point in human prehistory. Because Neanderthals are known to have practised cannibalism to an extent and to have co-existed with modern humans, British palaeoanthropologist Simon Underdown speculated that modern humans transmitted a kuru-like spongiform disease to Neanderthals, and, because the 129 variant appears to have been absent in Neanderthals, it quickly killed them off.[23][461]
Neanderthals have been portrayed in popular culture including appearances in literature, visual media and comedy. The "caveman" archetype often mocks Neanderthals and depicts them as primitive, hunchbacked, knuckle-dragging, club-wielding, grunting, nonsocial characters driven solely by animal instinct. "Neanderthal" can also be used as an insult.[30]
^The German spelling Thal ("valley") was current until 1901 but has been Tal since then. (The German noun is cognate with English dale.) The German /t/ phoneme was frequently spelled th from the 15th to 19th centuries, but the spelling Tal became standardised in 1901 and the old spellings of the German names Neanderthal for the valley and Neanderthaler for the species were both changed to the spellings without h.[102][103]
^In Mettmann, "Neander Valley", there is a local idiosyncrasy in use of the outdated spellings with th, such as with the Neanderthal Museum (but the name is in English [German would require Neandertalermuseum]), the Neanderthal station (Bahnhof Neanderthal), and some other rare occasions meant for tourists. Beyond these, city convention is to use th when referring to the species.[103]
^The bones were discovered by workers of Wilhelm Beckershoff and Friedrich Wilhelm Pieper. Initially, the workers threw the bones out as debris, but Beckershoff then told them to store the bones. Pieper asked Fuhlrott to come up to the cave and investigate the bones, which Beckershoff and Pieper believed belonged to a cave bear.[101]
^OAS1[421] and STAT2[422] both are associated with fighting viral inflections (interferons), and the listed toll-like receptors (TLRs)[423] allow cells to identify bacterial, fungal, or parasitic pathogens. African origin is also correlated with a stronger inflammatory response.[95]
^Higher levels of Neanderthal-derived genes are associated with an occipital and parietal bone shape reminiscent to that of Neanderthals, as well as modifications to the visual cortex and the intraparietal sulcus (associated with visual processing).[424]
^Homo floresiensis originated in an unknown location from unknown ancestors and reached remote parts of Indonesia. Homo erectus spread from Africa to western Asia, then east Asia and Indonesia; its presence in Europe is uncertain, but it gave rise to Homo antecessor, found in Spain. Homo heidelbergensis originated from Homo erectus in an unknown location and dispersed across Africa, southern Asia and southern Europe (other scientists interpret fossils, here named heidelbergensis, as late erectus). Modern humans spread from Africa to western Asia and then to Europe and southern Asia, eventually reaching Australia and the Americas. In addition to Neanderthals and Denisovans, a third gene flow of archaic Africa origin is indicated at the right.[435] The chart is missing superarchaic (which diverged from erectus 1.9 mya) introgression into Neanderthal/Denisovan common ancestor.[159]
^ abcHigham, T.; Douka, K.; Wood, R.; Ramsey, C. B.; Brock, F.; Basell, L.; Camps, M.; Arrizabalaga, A.; Baena, J.; Barroso-Ruíz, C.; C. Bergman; C. Boitard; P. Boscato; M. Caparrós; N.J. Conard; C. Draily; A. Froment; B. Galván; P. Gambassini; A. Garcia-Moreno; S. Grimaldi; P. Haesaerts; B. Holt; M.-J. Iriarte-Chiapusso; A. Jelinek; J.F. Jordá Pardo; J.-M. Maíllo-Fernández; A. Marom; J. Maroto; M. Menéndez; L. Metz; E. Morin; A. Moroni; F. Negrino; E. Panagopoulou; M. Peresani; S. Pirson; M. de la Rasilla; J. Riel-Salvatore; A. Ronchitelli; D. Santamaria; P. Semal; L. Slimak; J. Soler; N. Soler; A. Villaluenga; R. Pinhasi; R. Jacobi; et al. (2014). "The timing and spatiotemporal patterning of Neanderthal disappearance". Nature. 512 (7514): 306–309. Bibcode:2014Natur.512..306H. doi:10.1038/nature13621. hdl:1885/75138. PMID25143113. S2CID205239973. We show that the Mousterian [the Neanderthal tool-making tradition] ended by 41,030–39,260 calibrated years BP (at 95.4% probability) across Europe. We also demonstrate that succeeding 'transitional' archaeological industries, one of which has been linked with Neanderthals (Châtelperronian), end at a similar time.
^ abHigham, T. (2011). "European Middle and Upper Palaeolithic radiocarbon dates are often older than they look: problems with previous dates and some remedies". Antiquity. 85 (327): 235–249. doi:10.1017/s0003598x00067570. S2CID163207571. Few events of European prehistory are more important than the transition from ancient to modern humans about 40,000 years ago, a period that unfortunately lies near the limit of radiocarbon dating. This paper shows that as many as 70 per cent of the oldest radiocarbon dates in the literature may be too young, due to contamination by modern carbon.
^ abPinhasi, R.; Higham, T. F. G.; Golovanova, L. V.; Doronichev, V. B. (2011). "Revised age of late Neanderthal occupation and the end of the Middle Palaeolithic in the northern Caucasus". Proceedings of the National Academy of Sciences. 108 (21): 8611–8616. Bibcode:2011PNAS..108.8611P. doi:10.1073/pnas.1018938108. PMC3102382. PMID21555570. The direct date of the fossil (39,700±1,100 14C BP) is in good agreement with the probability distribution function, indicating at a high level of probability that Neanderthals did not survive at Mezmaiskaya Cave after 39 kya cal BP. [...] This challenges previous claims for late Neanderthal survival in the northern Caucasus. [...] Our results confirm the lack of reliably dated Neanderthal fossils younger than ≈40 kya cal BP in any other region of Western Eurasia, including the Caucasus.
^ abWynn, Thomas; Overmann, Karenleigh A; Coolidge, Frederick L (2016). "The false dichotomy: A refutation of the Neandertal indistinguishability claim". Journal of Anthropological Sciences. 94 (94): 201–221. doi:10.4436/jass.94022 (inactive November 2, 2024). PMID26708102. S2CID15817439.{{cite journal}}: CS1 maint: DOI inactive as of November 2024 (link)
^ abUnderdown, S. (2008). "A potential role for transmissible spongiform encephalopathies in Neanderthal extinction". Medical Hypotheses. 71 (1): 4–7. doi:10.1016/j.mehy.2007.12.014. PMID18280671.
^ abLycett, S. J.; von Cramon-Taubadel, N. (2013). "A 3D morphometric analysis of surface geometry in Levallois cores: patterns of stability and variability across regions and their implications". Journal of Archaeological Science. 40 (3): 1508–1517. Bibcode:2013JArSc..40.1508L. doi:10.1016/j.jas.2012.11.005.
^ abFerentinos, G.; Gkioni, M.; Geraga, M.; Papatheodorou, G. (2012). "Early seafaring activity in the southern Ionian Islands, Mediterranean Sea". Journal of Archaeological Science. 39 (7): 2167–2176. Bibcode:2011JQS....26..553S. doi:10.1016/j.jas.2012.01.032.
^ abcValensi, P.; Michel, V.; et al. (2013). "New data on human behavior from a 160,000 year old Acheulean occupation level at Lazaret cave, south-east France: An archaeozoological approach". Quaternary International. 316: 123–139. Bibcode:2013QuInt.316..123V. doi:10.1016/j.quaint.2013.10.034.
^ abMadella, M.; Jones, M. K.; Goldberg, P.; Goren, Y.; Hovers, E. (2002). "The Exploitation of plant resources by Neanderthals in Amud Cave (Israel): the evidence from phytolith studies". Journal of Archaeological Science. 29 (7): 703–719. Bibcode:2002JArSc..29..703M. doi:10.1006/jasc.2001.0743. S2CID43217031.
^ abcdHelmuth, H. (1998). "Body height, body mass and surface area of the Neanderthals". Zeitschrift für Morphologie und Anthropologie. 82 (1): 1–12. doi:10.1127/zma/82/1998/1 (inactive November 2, 2024). JSTOR25757530. PMID9850627.{{cite journal}}: CS1 maint: DOI inactive as of November 2024 (link)
^Stringer, C. (1984). "Human evolution and biological adaptation in the Pleistocene". In Foley, R. (ed.). Hominid evolution and community ecology. Academic Press. ISBN978-0-12-261920-5.
^ abHolloway, R. L. (1985). "The poor brain of Homo sapiens neanderthalensis: see what you please". In Delson, E. (ed.). Ancestors: The hard evidence. Alan R. Liss. ISBN978-0-471-84376-4.
^Bruner, Emiliano (2010). "Morphological Differences in the Parietal Lobes with the Human Genus: A Neurofunctional Perspective". Current Anthropology. 51 (1): S77–S88. doi:10.1086/650729. S2CID146587487.
^Nishiaki, Yoshihiro; Jöris, Olaf (November 27, 2019). Learning Among Neanderthals and Palaeolithic Modern Humans: Archaeological Evidence. Springer Nature. p. 19. ISBN978-981-13-8980-1. "indicates that the volumes of the parietal cortex and cerebellum in the Neanderthal brain seemed to be smaller than those in modern humans, while the region from the posterior temporal to occipital cortex seemed to be larger in Neanderthals..."
^ abSégurel, L.; Quintana-Murci, L. (2014). "Preserving immune diversity through ancient inheritance and admixture". Current Opinion in Immunology. 30: 79–84. doi:10.1016/j.coi.2014.08.002. PMID25190608.
^ ab"Neandertal oder Neanderthal? Was ist denn nun richtig?" [Neandertal or Neanderthal? So which is actually right?]. Kreisstadt Mettmann. Retrieved February 1, 2017. Heute sollten Ortsbezeichnungen das 'Neandertal' ohne 'h' bezeichnen. Alle Namen, die sich auf den prähistorischen Menschen beziehen, führen das 'h'. (Nowadays, place names should refer to the Neander Valley ['Neandertal'] without an 'h'. All names referring to the prehistoric humans have the 'h'.)
^"Neanderthal". Collins English Dictionary. Retrieved February 18, 2020.
^"Neanderthal". Merriam-Webster Dictionary. Retrieved February 18, 2020.
^"Neanderthal". American Heritage Dictionary. Retrieved February 18, 2020.
^Murray, J.; Nasheuer, H. P.; Seoighe, C.; McCormack, G. P.; Williams, D. M.; Harper, D. A. T. (2015). "The contribution of William King to the early development of palaeoanthropology". Irish Journal of Earth Sciences. 33: 1–16. doi:10.3318/ijes.2015.33.1. JSTOR10.3318/ijes.2015.33.1. S2CID131804686.
^Schaaffhausen, H. (1858). "Zur Kenntnis der ältesten Rassenschädel" [Acknowledging the oldest racial skull]. Archiv für Anatomie, Physiologie und Wissenschaftliche Medicin (in German): 453–478.
^ abcdSchlager, S.; Wittwer-Backofen, U. (2015). "Images in Paleoanthropology: Facing Our Ancestors". In Henke, W.; Tattersall, I. (eds.). Handbook of Paleoanthropology. Springer-Verlag Berlin Heidelberg. pp. 1019–1027. doi:10.1007/978-3-642-39979-4_70. ISBN978-3-642-39978-7.
^ abcdLangdon, J. H. (2016). "Case study 18. Neanderthals in the mirror: imagining our relatives". The science of human evolution: getting it right. Springer. ISBN978-3-319-41584-0.
^Vandermeersch, B.; Garralda, M. D. (2011). "Neanderthal Geographical and Chronological Variation". In S. Condemi; G.-C. Weniger (eds.). Continuity and Discontinuity in the Peopling of Europe. Vertebrate Paleobiology and Paleoanthropology. Springer Netherlands. pp. 113–125. doi:10.1007/978-94-007-0492-3_10. ISBN978-94-007-0491-6.
^Richter, J. (2011). "When Did the Middle Paleolithic Begin?". In Conard, N. J.; Richter, J. (eds.). Neanderthal Lifeways, Subsistence and Technology. Vertebrate paleobiology and paleoanthropology. Vol. 19. Springer. pp. 7–14. doi:10.1007/978-94-007-0415-2_2. ISBN978-94-007-0414-5.
^Callander, J. (2004). "Dorothy Garrod's excavations in the Late Mousterian of Shukbah Cave in Palestine reconsidered". Proceedings of the Prehistoric Society. 70: 207–231. doi:10.1017/S0079497X00001171. S2CID191630165.
^Wu, X.-J.; Bruner, E. (2016). "The endocranial anatomy of Maba 1". American Journal of Physical Anthropology. 160 (4): 633–643. doi:10.1002/ajpa.22974. PMID26972814.
^Nielsen, T. K.; Benito, B. M.; et al. (2017). "Investigating Neanderthal dispersal above 55°N in Europe during the Last Interglacial Complex". Quaternary International. 431: 88–103. Bibcode:2017QuInt.431...88N. doi:10.1016/j.quaint.2015.10.039.
^Nielsen, T. K.; Riede, F. (2018). "On research history and Neanderthal occupation at its northern margins". European Journal of Archaeology. 21 (4): 506–527. doi:10.1017/eaa.2018.12. S2CID165849999.
^Eren, M. I.; Bebber, M. R. (2019). "The Cerutti Mastodon site and experimental archaeology's quiet coming of age". Antiquity. 93 (369): 796–797. doi:10.15184/aqy.2019.50. S2CID197853460.
^Ferrel, P. M. (2019). "The Cerutti Mastodon site reinterpreted with reference to freeway construction plans and methods". PaleoAmerica. 5 (1): 1–7. doi:10.1080/20555563.2019.1589663. S2CID167172979.
^ abcdefghBocquet-Appel, J.; Degioanni, A. (2013). "Neanderthal demographic estimates". Current Anthropology. 54: 202–214. doi:10.1086/673725. S2CID85090309.
^ abcTrinkaus, E. (1981). "Neanderthal limb proportions and cold adaptation". In Stringer, C. B. (ed.). Aspects of human evolution. Taylor and Francis Ltd.
^Formicola, V.; Giannecchini, M. (1998). "Evolutionary trends of stature in Upper Paleolithic and Mesolithic Europe". Journal of Human Evolution. 36 (3): 325. doi:10.1006/jhev.1998.0270. PMID10074386.
^Raichlen, D.; Armstrong, H.; Lieberman, D. E. (2011). "Calcaneus length determines running economy: Implications for endurance running performance in modern humans and Neandertals". Journal of Human Evolution. 60 (3): 299–308. Bibcode:2011JHumE..60..299R. doi:10.1016/j.jhevol.2010.11.002. PMID21269660.
^Lesciotto, K.M.; Cabo, L.L.; Garvin, H.M. (Received August 31, 2015, Accepted April 17, 2016). "A morphometric analysis of prognathism and evaluation of the gnathic index in modern humans" (PDF). "When discussing prognathism, it is important to distinguish it from midfacial projection. Midfacial, or facial, projection has been defined as
the 'degree to which [the] face projects in front of [the] cranial base.' In contrast, prognathism, which may be referred to as lower facial, subnasal, or maxillary alveolar prognathism, is defined as the anterior projection of the lower face relative to the upper face. This is also distinct from mandibular prognathism, which may be referred
to as basal prognathism, and is more often discussed in clinical literature. For the purposes of this paper, 'prognathism' will refer strictly to subnasal maxillary alveolar
projection (i.e., subnasal prognathism)."
^Finlayson 2019, p. 95: "Why did Neanderthals have such large eyes? A recent paper compared Neanderthal and modern human eyes and concluded that Neanderthals had invested in enhanced vision (assumed to correlate with eye size) at the expense of the development of the neocortex, which is so important to cognition.¹ Modern humans, on the other hand, had invested in the neocortex instead and this permitted them to live in larger groups and interact socially with a greater number of individuals than Neanderthals could "..." The paper was rebutted on methodological grounds and concluded that the larger orbits of Neanderthals compared to the modern human population could not permit any interpretation of cognitive ability based on group size."
^O'Connor, C. F.; Franciscus, R. G.; Holton, N. E. (2005). "Bite force production capability and efficiency in Neandertals and modern humans". American Journal of Physical Anthropology. 127 (2): 129–151. doi:10.1002/ajpa.20025. PMID15558614.
^Allen, J. S.; Damasio, H.; Grabowski, T. J. (2002). "Normal neuroanatomical variation in the human brain: an MRI-volumetric study". American Journal of Physical Anthropology. 118 (4): 341–358. doi:10.1002/ajpa.10092. PMID12124914. S2CID21705705.
^Cartmill, Matt; Smith, Fred H. (September 20, 2011). The Human Lineage. John Wiley & Sons. p. 500. ISBN978-1-118-21145-8. "The increased cranial breadth in Neandertals and its low position give the braincase a distinctive oval silhouette in rear view. This vault shape, conventionally described as “en bombe” (French, “bomb-like”), is regarded by some as a uniquely Neandertal apomorohy (Hublin 1980)."
^Coolidge, Frederick L.; Wynn, Thomas; Overmann, Karenleigh A. (2024). "The Expert Neandertal Mind and Brain, Revisited". In Wynn, Thomas; Overmann, Karenleigh A.; Coolidge, Frederick L. (eds.). The Oxford Handbook of Cognitive Archaeology. Oxford University Press. pp. 131–149. ISBN9780192895950.
^Watson, Traci. "Were Some Neandertals Brown-Eyed Girls?". science.org. "According to this method, all three Neandertals had a dark complexion and brown eyes, and although one was red-haired, two sported brown locks"
^Cerqueira, C. C.; Piaxão-Côrtes, V. R.; Zambra, F. M. B.; Hünemeier, T.; Bortolini, M. (2012). "Predicting Homo pigmentation phenotype through genomic data: From neanderthal to James Watson". American Journal of Human Biology. 24 (5): 705–709. doi:10.1002/ajhb.22263. PMID22411106. S2CID25853632.
^Crubézy, E.; Trinkaus, E. (1992). "Shanidar 1: a case of hyperostotic disease (DISH) in the middle Paleolithic". American Journal of Physical Anthropology. 89 (4): 411–420. doi:10.1002/ajpa.1330890402. PMID1463085.
^Soltysiak, A. (2012). "Comment: low dental caries rate in Neandertals: the result of diet or the oral flora composition?". Homo. 63 (2): 110–113. doi:10.1016/j.jchb.2012.02.001. PMID22409830.
^Rosas, A.; Estalrrich, A.; García-Vargas, S.; García-Tabernero, A.; Huguet, R.; Lalueza-Fox, C.; de la Rasilla, M. (2013). "Identification of Neandertal individuals in fragmentary fossil assemblages by means of tooth associations: The case of El Sidrón (Asturias, Spain)". Comptes Rendus Palevol. 12 (5): 279–291. Bibcode:2013CRPal..12..279R. doi:10.1016/j.crpv.2013.06.003.
^Churchill, S. E.; Franciscus, R. G.; McKean-Peraza, H. A.; Daniel, J. A.; Warren, B. R. (2009). "Shanidar 3 Neandertal rib puncture wound and Paleolithic weaponry". Journal of Human Evolution. 57 (2): 163–178. Bibcode:2009JHumE..57..163C. doi:10.1016/j.jhevol.2009.05.010. PMID19615713.
^Bocherens, H.; Drucker, D. G.; Billiou, D.; Patou-Mathis, M.; Vandermeersch, B. (2005). "Isotopic evidence for diet and subsistence pattern of the Saint-Césaire I Neanderthal: review and use of a multi-source mixing model". Journal of Human Evolution. 49 (1): 71–87. Bibcode:2005JHumE..49...71B. doi:10.1016/j.jhevol.2005.03.003. PMID15869783.
^Scott, K. (1980). "Two hunting episodes of middle Palaeolithic age at La Cotte de Saint-Brelade, Jersey (Channel Islands)". World Archaeology. 12 (2): 137–152. doi:10.1080/00438243.1980.9979788.
^Hardy, B. L. (2010). "Climatic variability and plant food distribution in Pleistocene Europe: Implications for Neanderthal diet and subsistence". Quaternary Science Reviews. 29 (5–6): 662–679. Bibcode:2010QSRv...29..662H. doi:10.1016/j.quascirev.2009.11.016.
^ abcdHardy, B. L.; Moncel, M.-H.; Daujeard, C.; et al. (2013). "Impossible Neanderthals? Making string, throwing projectiles and catching small game during Marine Isotope Stage 4 (Abri du Maras, France)". Quaternary Science Reviews. 82: 23–40. Bibcode:2013QSRv...82...23H. doi:10.1016/j.quascirev.2013.09.028.
^Bocherens, H.; Baryshnikov, G.; Van Neer, W. (2014). "Were bears or lions involved in salmon accumulation in the Middle Palaeolithic of the Caucasus? An isotopic investigation in Kudaro 3 cave". Quaternary International. 339–340: 112–118. Bibcode:2014QuInt.339..112B. doi:10.1016/j.quaint.2013.06.026.
^Diedrich, C. G. (2010). "The Crocuta crocuta spelaea (Goldfuss 1823) population and its prey from the Late Pleistocene Teufelskammer Cave hyena den besides the famous Paleolithic Neandertal Cave (NRW, NW Germany)". Historical Biology. 23 (2–3): 237–270. doi:10.1080/08912963.2010.530348. S2CID128758869.
^Rougier, Hélène; Crevecoeur, Isabelle (July 6, 2016). "Neandertal cannibalism and Neandertal bones used as tools in Northern Europe". Scientific Reports. 6 (1): 29005. Bibcode:2016NatSR...629005R. doi:10.1038/srep29005. ISSN2045-2322. PMC4933918. PMID27381450. Our results show that the Neandertals from the Troisième caverne of Goyet were butchered, with the hypothesis of their exploitation as food sources the most parsimonious explanation for the observed bone surface modifications. Goyet provides the first unambiguous evidence of Neandertal cannibalism in Northern Europe and given the dates obtained on the Neandertal remains, it is most likely that they were processed by their fellow Neandertals as no modern humans are known to have been in the region at the time. However, the available data make it impossible to determine whether the modifications observed on the Neandertal skeletal material represent symbolic practices or simply result from the processing of immediately available sources of food.
^d'Errico, F.; Vanhaeren, M.; Henshilwood, C. (2009). "From the origin of language to the diversification of languages: What archaeology and paleoanthropology say?". Becoming eloquent: advances in the emergence of language, human cognition, and modern cultures. John Benjamins Publishing Company. p. 25. ISBN978-90-272-3269-4.
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^Ding, Q.; Hu, Y.; Xu, S.; Wang, C.-C.; Li, H.; Zhang, R.; Yan, S.; Wang, J.; Jin, L. (2014). "Neanderthal origin of the haplotypes carrying the functional variant Val92Met in the MC1R in modern humans". Molecular Biology and Evolution. 31 (8): 1994–2003. doi:10.1093/molbev/msu180. PMID24916031. "We further discovered that all of the putative Neanderthal introgressive haplotypes carry the Val92Met variant, a loss-of-function variant in MC1R that is associated with multiple dermatological traits including skin color and photoaging. Frequency of this Neanderthal introgression is low in Europeans (~5%), moderate in continental East Asians (~30%), and high in Taiwanese aborigines (60–70%)."
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