Sima de los Huesos hominins

The Sima de los Huesos hominins are a 430,000-year-old population of pre-Neanderthals from the archeological site of Atapuerca, Spain. They are in the "Neanderthal clade", but fall outside Homo neanderthalensis. When first reported in 1993, these 29 individuals were about 80 percent of the human fossil record of the Middle Pleistocene. Every bone is preserved, and the unprecedented completeness of the remains sheds light on Neanderthal evolution, the classification of contemporary fossils, and variations in a single Middle Pleistocene population. Exhumation of the Sima de los Huesos hominins began in the 1980s under the direction of Emiliano Aguirre and, later, Juan Luis Arsuaga, Eudald Carbonell, and José María Bermúdez de Castro.
They have a mosaic of "classic" Neanderthal traits and more "archaic" traits. Like Neanderthals, the brow ridges are inflated; the skull is not as robust in the rear, however, and has a pointed "house-like" profile instead of a rounded "bomb-like" one. Brain volume averages, on the lower end of the Neanderthal range. The teeth are Neanderthal-like, with shovel-shaped incisors and taurodontism, but differ in cusp morphology. The chest and waist are broad and robust like Neanderthals, but the limbs are longer. They may have been large-bodied overall, like other archaic humans, with a height of about and a weight of in both sexes.
The Sima de los Huesos is a chamber in the Cueva Mayor–Cueva Silo cave complex at Atapuerca, and may have been a natural trap for the cave bear Ursus deningeri in particular. The Sima de los Huesos hominins may have been deposited in the pit by other humans, based on the quality of preservation and the predominance of adolescents and young adults over children and the elderly. All were buried at about the same time, and one individual may have been killed with a blunt tool. Some with severe health issues survived for a while, suggesting group care. Many individuals exhibited metabolic and nutritional diseases consistent with insufficient fat reserves during hibernation; any hibernation presumably have lasted for four months.
This population produced Acheulean stone tools, as well as an industry apparently transitioning to the typically-Neanderthal Mousterian culture. They used these tools in butchering and hide- and woodworking, with the mouth as a third hand. The Sima de los Huesos hominins were buried with a single, large Acheulean handaxe, possibly a grave good with symbolic significance. Symbolic thought could indicate use of an early form of language. They may have been efficient hunters — possibly outcompeting local cave hyenas — who pursued deer, rhinoceros, horses, bison, and cave lions in an open woodland environment. They probably ate roots regularly, habitually squatted, and did not use fire.

Research history

Discovery

Spanish engineers P. Sampayo and M. Zuaznávar published an 1868 monograph documenting the caves in the Atapuerca Mountains, noting reports of human fossils in one. Spanish archeologists and Saturio González discovered a cave painting of a horse in Cueva Mayor in 1910, and the area quickly attracted international interest. The eventually-abandoned construction of a railway supplied by material mined from what became known as the Trinchera del Ferrocarril revealed that the Cueva Mayor was part of a larger cave complex: the Cueva Mayor–Cueva Silo complex. Its archeological significance was first understood in 1962 after exploration by the Edelweiss Speleological Group, which identified several sites with Neolithic, Chalcolithic, and Bronze Age artifacts. Trinidad Torres unsuccessfully searched for bear fossils in the Trinchera del Ferrocarril while working on his doctoral thesis, but was pointed by the Edelweiss Spelaeological Group to the unmapped Sima de los Huesos in the Cueva Mayor–Cueva Silo complex. Sampayo and Zuaznávar had marked this as El Silo, a chamber down a vertical shaft in the corner of the spacious Sala de los Cíclopes.
Torres sent four speleologists who identified a wealth of cave-bear fossils and a nearly-complete human-jaw fossil. He notified his PhD advisor, Emiliano Aguirre, who organized further digs. The Sima de los Huesos was difficult to access, low in oxygen and had been disturbed by many visitors over the decades looking for bear-fossil trophies, requiring much more excavation to remove the disturbed sediment. In 1983, Aguirre found three fossil human teeth in his brief visit to the Sima de los Huesos. Removal of sediment began the following year after lights and other necessary infrastructure were installed. In 1987, Aguirre's team installed suspended scaffolding over the floor of the Sima de los Huesos. Large sediment blocks were transported up the vertical shaft, carried from Cueva Mayor with backpacks, driven to the nearby Arlanzón River, dried, sieved, and sorted. The Atapuerca team under Aguirre had reconstructed three crania, one of which was nicknamed "Lazarus".
Aguirre retired in 1990, and left the excavation to his three team leads: Juan Luis Arsuaga, Eudald Carbonell, and José María Bermúdez de Castro. In 1992, a nearly-complete skull was found; at the time, only three other European skulls predating the Late Pleistocene had approached such a level of preservation: Swanscombe, Petralona, and Steinheim. Soon afterwards, another nearly-complete skull was discovered; it was nicknamed "Miguelón", after Spanish cyclist Miguel Indurain. It is one of the best preserved skulls in the human fossil record. In 1994, a nearly-complete pelvis was discovered; at this time, the only similarly-preserved hominin pelvis predating the Late Pleistocene was the 3.2 million-year-old Lucy.
Over 7,000 human fossils and fragments have been recovered from the Sima de los Huesos since then, representing every bone in the skeleton. The material was first thought to be from 32 individuals, but it is more likely 29. It was the most complete sample of the Middle Pleistocene human fossil record from a single site in 1993, 80 percent of the global Middle Pleistocene human fossil record and 85 percent of Middle Pleistocene postcranial fossils. A similarly-rich Middle Pleistocene human fossil collection was found in 2013 with the discovery of Homo naledi in South Africa. The Sima de los Huesos fossils illustrated the range of anatomical variation that could be present in a given population of Middle Pleistocene Europe across gender and age lines, clarifying the relationships among Middle Pleistocene European fossils and the evolution of Neanderthals. The archeological significance of the Sima de los Huesos and other sites in the cave complex led to the declaration by UNESCO of the archeological site of Atapuerca as a World Heritage Site on 30 November 2000. The city of Burgos, about east, opened the Museum of Human Evolution to commemorate its cultural heritage.

Dental individual	Cranium	Sex	Age
I		F	Young adult
II			Immature
III		F	Immature
IV		F	Middle-aged
V	15		Middle-aged
VI		F	Young adult
VII		M	Young adult
VIII		M	Young adult
IX			Immature
X		F	Immature
XI		F	Immature
XII		M	Young adult
XIII			Middle-aged
XIV			Immature
XV	17	F	Young adult
XVI	9	F	Immature
XVII		M	Young adult
XVIII		M	Immature
XIX		F	Young adult
XX	6	M	Immature
XXI	5	M	Middle-aged
XXII		M	Young adult
XXIII	16	F	Immature
XXIV		F	Immature
XXV		F	Immature
XXVI	10	F	Young adult
XXVII		M	Young adult
XXVIII		F	Young adult
XXIX		F	Immature

Age and stratigraphy

The Cueva Mayor–Cueva Silo complex is the main cave system of the Atapuerca Mountains, extending over with three levels; Sima de los Huesos is on the lowest one. There are four entrances: Portalón and Galería de las Estatuas on the first level, Sima del Elefante on the second, and Cueva del Silo on the third. Cueva del Silo is the nearest entrance to Sima de los Huesos, via the large Sala de los Cíclopes.
The Sima de los Huesos is underground, and from the entrance to Cueva Mayor. It is long east-to-west, with a mostly horizontal segment, a 30-degree ramp running down, and another horizontal segment. The cave infill is divided into 12 lithostratigraphic units. The ramp has three pits where fossils were collected: Alta, Media, and Baja. There are three chimneys: Chimney 1 between Alta and Sima Top, Chimney 2 between Media and Alta, and Chimney 3 above Sima de los Huesos. Only Chimney 2 is open, leading into the Sala de los Cíclopes on the west and a low inclined conduit on the east. It is the only entrance. Most of the human and carnivore fossils come from a section on the north side near the base of the ramp, in Sima de los Huesos. Over 100 human fossils were also found along the ramp. A few human fossils were recovered from where an eroded area, which were probably moved.
LU-6 is a red clay layer of variable thickness, up to. It is over 80 percent phyllosilicates, of which more than 60 percent is illite which is weakly magnetic. Paleomagnetic dating of the illite indicates that the layer is younger than the Brunhes–Matuyama reversal, about 780,000 years ago. The fossils are mixed with pieces of limestone, speleothems, marl clay chips, and sometimes laminated mud rich in manganese dioxide, forming a bone breccia. There are also in situ speleothems made of calcite rafts formed from undisturbed, seasonal pools of water; uranium–thorium dating of the rafts suggests a minimum age of 410,000–460,000 years. The overlying LU-7 is dated to 428,000 ± 27,000 to 441,000 ± 25,000, or 396,000 ± 35,000 to 429,000 ± 32,000 years ago, based on luminescence dating of orthoclase and quartz respectively. Luminescence dating of quartz grains from the underlying red clay suggests a maximum age of 448,000 ± 15,000 years ago.
The human material probably represents a single population. Limited carnivore damage suggests that the human fossils were largely inaccessible after burial. Only Chimneys 1 and 2 may have been open to the surface at the time of deposit, acting as natural traps for cave bears in particular. The humans may have been intentionally cast down, and the corpses and bones probably slid slowly down the ramp and collected at the bottom.
Similar fossils have also been recovered from the GII and GIII layers of Trinchera Galería about from the Sima de los Huesos. This sequence extends continuously from 408,000–598,000 to 221,000–269,000 years ago. The roughly 300,000-year-old Trinchera Dolina 10.1 layer in the Gran Dolina, about north of Galería, has a rich lithic assemblage and were probably occupied by a population similar to the Sima de los Huesos hominins.

Classification

In a 1993 preliminary report of the human fossil discoveries from Sima de los Huesos, Arsuaga and colleagues noted many Neanderthal traits and characterized the material as an early stage of Neanderthal evolution. When the Sima de los Huesos fossils were discovered, Middle Pleistocene European and African fossils were usually classified as Homo heidelbergensis: a wide-ranging species which was considered the last common ancestor of modern humans and Neanderthals. Arsuaga and colleagues believed that Europe was more isolated from Africa, identified the one-million-year-old Homo antecessor as the last common ancestor, and thought that every Middle Pleistocene European fossil was part of a single population ancestral to Neanderthals. British physical anthropologist Chris Stringer suggested classifying the Sima de los Huesos hominins as archaic Neanderthals in 2002, but conceded they could be an extremely-late H. heidelbergensis group. Arsuaga and colleagues failed to identify Neanderthal apomorphies in the holotype specimen of H. heidelbergensis in 2011, and questioned the applicability of heidelbergensis to specimens with Neanderthal apomorphies. In 2012, Stringer reaffirmed that the Sima de los Huesos hominins should be moved from H. heidelbergensis to H. neanderthalensis. Two years later, Arsuaga and colleagues agreed with Stringer but were unsure whether species or subspecies distinction from H. neanderthalensis was more appropriate.
Mitochondrial DNA was extracted from Femur XIII in 2014 which suggested that the individual shares a closer common ancestor with Central Asian Denisovans than with Neanderthals. In 2016, however, nuclear DNA analysis concluded that the Sima de los Huesos hominins are more closely related to Neanderthals. Because mtDNA is passed from mother to child, the Sima de los Huesos hominins may carry the ancestral Neanderthal-Denisovan mtDNA lineage which was later replaced in Neanderthals by interbreeding with African migrants.
Discoveries of complete mandibles at the Sima de los Huesos site indicate a clear distinction from Mauer 1. Although the Sima de los Huesos cranial and mandibular anatomy has developed most of the Neanderthal apomorphies, the rest of the skeleton retains many ancestral features ; nDNA indicates that they are a distinct group firmly nested in the Neanderthal clade. Their anatomy also suggests that many Neanderthal apomorphies evolved by the mid-Middle Pleistocene; the rest appeared later, near the beginning of the Late Pleistocene, possibly associated with the full speciation of H. neanderthalensis.
The Sima de los Huesos hominins can be grouped as pre-Neanderthals with specimens from Montamaurin-La Niche, Pontnewydd, Steinheim, Swanscombe, and Aroeira. This group may ultimately descend from a Near Eastern source population which dispersed across Europe in the mid-Middle Pleistocene, possibly the one at the contemporaneous Israeli Qesem Cave, which is dentally similar to the Sima de los Huesos hominins. Their timing might coincide with the end of a major glaciation event during Marine Isotope Stage 12 about 450,000 years ago, during the warm interglacial period of Marine Isotope Stage 11. These pre-Neanderthals give way to early Neanderthals by the end of Marine Isotope Stage 7. Early Neanderthals are differentiated by a combination of derived and original Neanderthal traits, and are succeeded by late or classic Neanderthals by the end of Marine Isotope Stage 5e.

Skeleton

Skull

Cranial vault

The Sima de los Huesos material includes 17 skulls. Compared to Neanderthals, the occipital bone is less curved and lacks the characteristic occipital bun. Like modern humans and Neanderthals, the opisthocranion is above the superior nuchal line. The opisthocranion is at the peak of a flat, or slightly convex, semicircular area which extends down to the inion; the area is dotted with circular pits that became smaller and more dense with age. In Neanderthals, this area is characteristically sunken and smaller; it is a variable trait in Middle Pleistocene specimens. Below this area is an occipital torus, much weaker than in Neanderthals. The torus is most noticeable near the center of the occipital bone, and terminates before reaching the asterion. The Swanscombe Skull has a similar occipital morphology, but its torus extends farther.
When the skull is viewed from the back, its sidewalls are parallel and form a shallow sagittal keel running along the midline of the skull like other European Middle Pleistocene specimens. The contour of H. erectus converges more strongly at the top, and in Neanderthals it is rounded. Like Neanderthals but unlike many Middle Pleistocene specimens, the brow ridge is double-arched instead of a single, straight bar. The arches are not divided, but some specimens have a depression on the glabella. When viewed from the top, the skull projects farthest around the glabella.

Brain

The average brain volume for the 15 Sima de los Huesos skulls for which a metric is calculable is, ranging from. The average is comparable to other Middle Pleistocene non-erectus specimens, which are known to range from, and on the lower end of the range for Neanderthals, which are known to range from.
Like other archaic humans, the parietal lobe was proportionally smaller than in modern humans. Compared to Neanderthals, the Sima de los Huesos brain was generally broader. The encephalic rostrum was more expanded than in H. erectus, but thinner and narrower than in Neanderthals. The left hemisphere is typically bigger than the right in Neanderthals and modern humans, related to an expanded Broca's area associated with language acquisition; in the Sima de los Huesos hominins, brain asymmetry is variable. Like Neanderthals, the temporal lobe is narrow. The occipital lobe is larger than in modern humans but much smaller than Neanderthals.

Face

The mid-face exhibits prognathism to a similar degree as other Middle Pleistocene specimens, but not as much as Neanderthals. The face and nose are much wider than Neanderthals, and the cheeks are higher. Like Neanderthals and most modern humans but unlike H. erectus, the bottom rim of the piriform aperture is raised. Like in Neanderthals, the anterior nasal spine and inferior nasal concha at the base of the piriform aperature are fused; the lateral crests are well-defined, extending to the nasal spine. Unlike Neanderthals, the floor of the nasal cavity is flat instead of sloping.
Dental and jaw anatomy is generally Neanderthal-like, and the regions of the temporal bone that are functionally relevant to chewing align closely with Neanderthals. The tooth rows are square-shaped, like the Petralona skull and some Neanderthals. The mandible is primarily Neanderthal-like, but has multiple mental foramina, a high mylohyoid line at the level of the third molar, and a more vertical and developed chin. The female jaws are much smaller and have smoother muscle attachments, especially at the gonoid and coronoid process of the mandible. This degree of sexual dimorphism is larger than in modern humans.
The upper teeth are Neanderthal-like, with large and strongly shovel-shaped incisors and canines and taurodontism in the molars. Tubercles, far more common on Neanderthal teeth, are infrequently found on the incisors, canines, and molars. The back teeth are smaller and less complex than in most other archaic humans, and more similar to recent humans. The lower incisors and canines have somewhat weaker shoveling than in Neanderthals. The morphology of the lower premolars and molars are Neanderthal-like, with greater variation in cusp size and shape.

Size

Like other archaic populations, the Sima de los Huesos hominins seem to have had much heavier skeletons than modern humans; this supported greater muscle mass and an overall heavier build. The skeletal weight of the Sima de los Huesos hominins may have been about 36 percent greater than that of modern humans.
Based on 19 complete male and 5 complete female long bones, average adult height was rather tall for archaic humans:, respectively. Sexing the femora by anatomic landmarks reassigns some of the assumed-male femora as female, with one possibly-female femur belonging to someone weighing. Large female body size may not have been uncommon in archaic humans.
The body mass of the complete male Pelvis 1 may have belonged to someone in weight, possibly up to. "Elvis" has one of the highest estimated weights of an archaic human.
Based on the tarsus, average height was about for males and for females, with an average weight of. The highest weight estimate is, similar to "Elvis". Based on metatarsals and phalanges, average size was and for males and females, respectively. Middle Pleistocene height estimates range from — with a few taller individuals — and Neanderthals were slightly shorter on average.

Postcranium

Before the discovery of the Sima de los Huesos hominins, characterization of the Early and Middle Pleistocene human body plan was based almost exclusively on the Kenyan Turkana Boy. This specimen was originally reconstructed to resemble the narrower modern-human body plan rather than the stockier Neanderthal body plan, implying that the Neanderthal body plan was a presumed adaptation to cold climates. Every bone in the human skeleton is represented by the Sima de los Huesos material, and postcranial remains are about half of the material.

Torso

The rib material is largely fragmented, with only a complete first, 11th, and 12th rib identified. Because the first rib is thicker dorsoventrally and the pelvis is bigger anteroposteriorly and mediolaterally than in modern humans and Neanderthals, the Sima de los Huesos hominins may have had an expanded thorax like Neanderthals. A wide thorax and pelvis may have been an ancestral condition for humans, but this is difficult to ascertain because few postcranial remains predate the Late Pleistocene.
The pelvic cavity of "Elvis" is so wide that a modern human baby would be able to pass through it; a female's would have been even wider. This could indicate that the Sima de los Huesos hominins were born with a larger head and brain volume. A broad pelvis would impede abduction at the hip joint, and was offset by a flaring iliac crest and a long femoral neck. This would still have made movement more energetically expensive, especially over long distances, than for modern humans.
The atlas is wide dorsoventrally, like in Neanderthals ; the axis is shortened top to bottom. The atlanto-axial joint is mediolaterally expanded. Like other archaic humans, the spinous process of the sixth and seventh neck vertebrae are long and horizontal. The shorter, more stable neck of Neanderthals and the Sima de los Huesos hominins could be related to balance with the broad chest and pelvis; the semicircular canals in the inner ear are similar to those of Neanderthals, but the posterior canal is lower and the anterior canal does not have the same degree of torsion. If functional, the differences could be related to the larger average body size of the Sima de los Huesos hominins.
Like Neanderthals, the lumbar vertebrae exhibit lumbar hypolordosis than modern humans. Like modern humans, Turkana Boy, and the australopithecine Paranthropus robustus, the transverse processes jut out of the vertebra dorsolaterally ; dorsal orientation is not seen in Neanderthals.

Limbs

There is a sulcus on the dorsal side of the axillary border of almost all the shoulder blades, as opposed to the ventral sulcus of all other hominin specimens. This could have functional implications for the mobility and structure of the shoulder joint. The glenoid fossa is taller and narrower than modern humans. Like in Neanderthals, the head of the humerus has an oval cross-section, the lesser tubercle is bigger, the deltoid tuberosity is narrower, the bone of the shaft is thicker, and the olecranon fossa is broader and deeper. The ulna and radius are usually characteristically Neanderthal, but some instead fall within the range of variation of modern humans, implying Neanderthals lost some variability here. The ulna and radius are longer than in Neanderthals. The hand is well-adapted for mobility and a precision-grip, like Neanderthals and modern humans.
The femur has a flattened neck like other archaic humans; its shaft is mediolaterally expanded near the top, the neck-to-shaft angle is low, the gluteal tuberosity is large, there is not a true pilaster, and the bone is thicker. These differences may be related to supporting the heavier, more robust archaic skeleton, and compensating for the broad pelvis. Like Neanderthals, the patella has deeper articular surfaces which could be related to stability. The articular surfaces of the tibia are flat, and the proximal epiphysis has a large retroversion angle which would have stabilized the knee during intense activity. Habitual squatting is evidenced by hypertrophy of the medial malleolus and wearing near the ankle on about one-fourth of the tibiae. The tibial pilaster is robust, which is only seen in the 400,000-year-old English Boxgrove Man. Compared to Neanderthals, the tibiae are proportionally longer. Longer legs would mean they were more energetically efficient while walking than Neanderthals, but the quadriceps muscle had less mechanical advantage. Like in Neanderthals, the tibial shaft is ellipsoid as opposed to the triangular shaft of modern humans, Boxgrove Man, and Kabwe 1. The fibula indicates that the gastrocnemius and soleus muscles were shorter than in modern humans, indicating a higher energy cost when moving.
Like other archaic humans, the talus bone is tall, broad, and rectangular ; the head is narrower than in Neanderthals and modern humans. The shape of the bone may have improved up-and-down motion in the ankle. Still, like in Neanderthals, the smaller malleolar fossa on the fibula indicates a narrower range of dorsiflexion than in modern humans but better stabilizes the ankle. The heel bone is long, like Neanderthals, which may have improved shock absorption to compensate for the larger build. The Sima de los Huesos hominins were probably bigger than Neanderthals, and the sustentaculum talus projects farther out than in Neanderthals. As in Neanderthals, the phalanges and third to fifth metatarsals have a broad base and the big toe is wider. The metatarsals and phalanges are generally broader and more robust than in Neanderthals, which may be related to their larger size. They probably walked and ran with the forefoot striking the ground first.

Pathology

Diseases

Cranium 5 has severe dental decay, moderate gum disease, and alveolar osteitis on the left side. All of its teeth have excessive wearing. There is extensive alveolar bone loss which caused overeruption of the teeth; at least one-third of the root of every tooth is exposed. This individual seemed to have been treating his gum disease with a toothpick, and similar toothpick grooves are found in isolated teeth in the Sima de los Huesos. The lower left third molar is chipped. The upper left first premolar was badly chipped in life, exposing the pulp cavity. The wound appears to have become chronically infected, leading to periapical cyst and fistula formation with remodeling of the surrounding bone. The lower left incisors also formed cysts, with pulp cavity exposure probably stemming from excessive loading and wearing in life; the upper incisors are similarly ground down. The infection seems to have progressed to orbital cellulitis in the eye, and may have progressed to terminal sepsis.
About 40 percent of the teeth have enamel hypoplasia, resulting from bouts of nutritional stress peaking at about 3½ years of age. This could indicate the weaning age, which was probably around four years of age in Neanderthals. Neanderthals had higher rates and more intense bouts of hypoplasia because their subsistence strategies were less efficient, or because they lived in harsher environments.
Based on joint degeneration, "Elvis" may have lived for over 45 years. He had lumbar kyphosis, L5–S1 spondylolisthesis, and Baastrup disease in L4 and 5. These would have caused lower back pain, and may indicate group care.
The adolescent Cranium 14 was diagnosed with lambdoid single-suture craniosynostosis. This is a rare condition in modern humans, occurring in fewer than six of every 200,000 individuals. The individual died at around age 10, suggesting that it was not abandoned due to deformity, and received the same quality of care as other children.

Hibernation hypothesis

Antonis Bartsiokas and Juan-Luis Arsuaga in a 2020 publication argued that the Sima de los Huesos hominins underwent hibernation during the harsh winter months. They argued that the adolescents in particular have pathologies consistent with chronic metabolic and malnutritional diseases, which could be consistent with insufficient fat reserves during hibernation. The adults do not seem to have suffered to the same degree. Hibernation can be induced in modern humans with injection of 5′-AMP which is normally produced by brown adipose tissue in hibernating animals.
The Sima de los Huesos fossils have several signs of chronic kidney disease–mineral and bone disorder, indicated by frequent osteitis fibrosa and renal osteodystrophy. They also have signs of vitamin D deficiency, with resultant hypocalcemia and secondary hyperparathyroidism. These diseases appear altogether in hibernating animals with insufficient fat stores. Fat deficiency halts lipolysis, preventing the release of vitamin D stored in fat cells. It also boosts cortisol levels to aid fat catabolism at the expense of serum calcium levels, and hypercortisolism ultimately progresses to kidney disease. Fat deficiency is a major source of hibernation mortality.
The relevant pathologies are:

Regular bouts of extreme, cyclical vitamin D deficiency caused lines of arrested growth in bone consistent with rickets. The pubescent Cranium 9 has four such osteoplaques of rachitic hyperostosis: four short adolescent growth spurts separated by arrested growth, a pattern characteristic of arousal from torpor. This individual may have emerged from hibernation four times in a four-month hibernation period.
"Elvis" has several brown tumors, part of the recovery process from severe CKD–MBD, rickets, and 2HPT.
Some fossils have calcified soft tissue consistent with calcium pyrophosphate dihydrate crystal deposition disease. In bats, this is caused by increased production of adenosine triphosphate during lipolysis of brown adipose tissue to produce heat during periods of arousal from hibernation.
The population seems to have had subperiosteal new bone growth and consequent bone resorption in many places, resulting from severe rickets, 2HPT, and osteomalacia as a consequence of ROD during healing.
Some ribs have the rachitic rosary stemming from renal rickets and 2HPT.

Like the cave bears at the site, the Sima de los Huesos hominins may have developed hibernation to cope with the frigid, lean winters; one adolescent cave-bear specimen has subperiosteal new bone growth resulting from rickets. The age of the Sima de los Huesos hominins is skewed towards adolescents, which is also observed in hibernation-related mortality. Hibernation does not seem to have been practiced by Neanderthals, possibly because they were metabolically better at withstanding the cold and were efficient hunters capable of sustaining themselves year-round.

Violence

Crania 3, 5, 7, 9, 11, 13, 14, and 17 have several perimortem fractures. These fractures may have occurred while falling down the shaft — not necessarily while they were alive, but near the time of death. Four percent of the long-bone material has perimortem fracturing, without major injuries. American archeologist Erik Trinkaus noticed a similar pattern in Neanderthals, and suggested that individuals who could not walk while moving between cave sites were left behind. If true, only individuals without major trauma to the lower limbs would be found at cave sites. It is unclear if this applies to Sima de los Huesos. The only pathological foot specimen is a fourth metatarsal with a periosteal reaction to a presumed march fracture, a minor injury common in barefoot runners.
Cranium 17 has two nearly identical, connected, rectangular perimortem depression fractures on the left frontal squama. The injuries are at an acute angle, with different trajectories: 32.5°–44.8° and 49.2°, respectively. They are consistent with powerful blunt-force trauma, passing through the bone into the brain. The identical shape suggests that they were caused by the same object, and their different trajectories suggest that they were caused by two separate actions; it is improbable that the individual incurred these fractures from falling into the Sima de los Huesos or being struck by randomly-falling limestone blocks. The fractures may be the result of an intentional attack by another human with a tool in their right hand, resulting in death.
Evidence exists that the Sima de los Huesos hominins were predominantly right-handed, and in forensic medicine multiple blows to the face above the hat brim are normally interpreted as an assault. This indicates that the Cranium 17 individual was dead before they were dropped into the Sima de los Huesos, and was probably interred by other humans. Perimortem fracturing on the Cranium 5 frontal and left parietal and the Cranium 11 left parietal may have also resulted from interpersonal violence. No defensive injuries on the arms have been discovered.
Interpersonal violence is difficult to find in the fossil record. By 2015, the only other specimens with strong evidence of this in the human fossil record were the Neanderthal Shanidar 3 and the modern human Sunghir 1.

Culture

Paleoenvironment

The Sima de los Huesos hominins were associated with an unusually-diverse carnivore assemblage: the cave bear U. deningeri, wolf, red fox, cave lion Panthera fossilis, European jaguar, cave lynx, pine marten, least weasel, European polecat, and European badger. This may indicate a highly-productive ecosystem. Rodents and other small mammals are far less common and large herbivores are absent, consistent with the characterization of the site as a natural pitfall trap. The cave hyena is absent, and the Sima de los Huesos hominins may have been outcompeting them in the region. At TD10.1, there is evidence of cave-lion hunting and butchery; exploitation of carnivores is rare in the Middle Pleistocene, and this may have been a sporadic occurrence. U. deningeri is the most common animal at the site, but is not found anywhere else in the Sierra de Atapuerca. They may have been susceptible to falling into the Sima de los Huesos, since they needed to seek out hibernation caves. Three human ribs are peeled, and may have been fed on by a bear that fell in.
Several well-preserved bat fossils and significant guano accumulation were also found, probably representing overwintering roosts. Early Pleistocene deposits seem to indicate that bats roosted in the area year-round, but seasonally in the Middle Pleistocene when human activity increased. Although the deteriorating climate may have altered roosting behavior, their inability to recover during warmer periods may indicate that they were disturbed by human activity. The rodent fossils are well-preserved, with no signs of digestion, so they probably tunneled in through a small crevice.
The Gran Dolina TD10.1 and Galería GII and GIII sites had fallow deer Dama clactoniana, red deer, roe deer Capreolus priscus, giant deer Praemegaceros solilhacus, narrow-nosed rhinoceros, wild horses, European wild asses, wood bison, and Bonal tahr. These herbivores could have been prey. Like Neanderthals, the Sima de los Huesos hominins may have had a hyper-carnivorous diet comparable to contemporary lions. Galería seems to have also been a natural trap, and humans may have been making sporadic, planned trips to the site as a complementary settlement area to harvest animals which fell in. TD10.1 was most likely occupied long-term, and the inhabitants seem to have been transporting the most nutritious parts of a prey item back to the cave.
The Sima de los Huesos hominins probably lived during one of the coldest glacial phases of the last million years, which caused aridity in Iberia. Present winter temperatures in the Atapuerca Mountains can drop to, and it could have been colder during glacial periods. The mammal assemblage indicates a savannah-like, open woodland environment. Humans and lions seem to have followed Europe's expanding open-woodland corridors, and the pollen record indicates the spread of grass at this time. Pine was predominant in addition to grasses, followed by mesic plants such as oak, birch, and beech. Extensive vertical scratches on teeth indicate that the Sima de los Huesos hominins commonly chewed abrasive foods such as unwashed roots and stems. Females tended to have longer scratches in the lower teeth, suggesting that their diet may differed from males.

Stone tools

No stone tools were found in the Sima de los Huesos, since it was probably never inhabited. The Galería and Gran Dolina sites, on the other hand, have expansive stone assemblages. Knapping techniques evolved over time, but the Galería assemblage generally fits into the Acheulean industry. TD10.1 could represent a transition to the Mousterian industry, a Middle Paleolithic technology associated with Neanderthals.
There is little debitage in Galería, suggesting that the tools were primarily made offsite, with only quick, simple retouching onsite. This suggests that the site was a temporary base camp. In GIIa, the tool assemblage is primarily simple lithic flakes followed by retouched tools and unmodified cobble. Retouched tools were usually made of chert and quartz, and large cutting tools were primarily made from quartzite. Unusually, cobble seems to have shaped the larger tools. Larger tools were produced more frequently from pre-prepared flakes instead of cobble in GIIb, and quartzite is often replaced by sandstone, chert, and limestone. It is possible that GIIb is a new group from GIIa, with different tool-making traditions. These trends continue into GIII, but the knappers stopped shaping the base of the tool. Fewer and more efficient strikes were used in GIII, cleaving bigger flakes from a core but making the end product less standardized. The tools are also generally shorter and wider.
TD10.1 preserves over 20,000 stone tools, one of the archeologically-richest sites in the Atapuerca Mountains. This probably represents long- and short-term occupation. Flakes and debitage predominate over large cutting tools and a complete chaîne opératoire. TD10.1 is otherwise comparable to GIII. Tools were primarily made of chert, but sandstone and quartzite became more popular. Some chert seems to have been collected from a source away, an unexpectedly-long distance to obtain resources for an early group of humans. These tools were probably used extensively for butchering, hide- and woodworking. Dental wearing suggests that every individual commonly used their mouth as a third hand to bite animal skin or vegetable fibers with their front teeth, while cutting the material with a tool.
Knapping techniques are generally nonstandardized, but the gradual shift in raw materials caused the longitudinal method to become less common than the orthogonal method. In Galería, this was gradually replaced by the centripetal method in combination with the longitudinal method. In TD10.1, the centripetal and discoidal methods became more popular.

Fire

The Sima de los Huesos hominins were probably not using fire, withstanding the cold climate with their large body size, high activity levels and metabolic heat. Quality evidence of fire use in Europe appears after an interglacial during Marine Isotope Stage 9. A 400,000-year-old site in Barnham, Suffolk, has evidence of burned tools and iron pyrite, which has been recently used as a fire striker. This suggests that at least some European populations at this time had the ability to create fire, but fire creation in non-modern humans is still debated.

Burial

Peculiarities in the taphonomy of the Sima de los Huesos hominins suggest that they were intentionally buried by other humans instead of falling down a natural pitfall, like the many cave bears at the site. About half of the Sima de los Huesos material is from adolescents between 15 and 18 years of age. Infants are absent; children under age 10 are unusually rare, given the high infant mortality of recent hunter-gatherer societies. The few individuals who seem to have lived past age 30 apparently did not survive into their 40s, based on tooth wear. The over-representation of young adults instead of children and the elderly suggests that the accumulation does not represent multiple generations who lived and died in the cave, but a single high-mortality event. A lack of stone tools also suggests that this was not a living space. Because the entire skeleton is well-represented by a number of individuals found in the same narrow layer of sediment, the bodies were probably deposited intact in the Sima de los Huesos at around the same time. For the most part, they lack carnivore damage. Because Cranium 17 has two identical, fatal injuries, the individual was probably already killed — possibly by another human — before being deposited into the Sima de los Huesos.
An Acheulean handaxe was deposited with the bodies, the only stone artifact found at the site. It is made of high-quality veined quartzite, and was large: and. The axe lacks any indication of wearing or use, unless it was scrubbed away by sand over time. In the context of intentional burial, Carbonell and colleagues suggested that it was left as a grave good — an early example of complex symbolic thinking.

Language

The Sima de los Huesos hominins may have used an early form of language, given the evidence of intentional burial and symbolic thinking. They had a modern, human-like hyoid bone, but this trait can exist without language and human speech capacity. Judging by dental striation, they seem to have been primarily right-handed; handedness is related to the lateralization of brain function typically associated with language processing in modern humans.
The middle-ear bones are comparable to Neanderthals and modern humans, suggesting that they could distinguish the higher frequencies necessary to discern speech. However, their ear anatomy suggests that the Sima de los Huesos hominins had different hearing capacities than Neanderthals and modern humans. Like chimpanzees, the ear canal is long; the eardrum and oval window are small and at a low angle. Uniquely, the tympanic cavity and aditus are large. The cochlea is more constricted than Neanderthals in the first turn, reminiscent of chimpanzees. Like Neanderthals and modern humans, the third turn is short but more strongly curved.