Buya, Eritrea

Last updated

Buya or Buia is an archaeological site in the Danakil Depression of Eritrea. [1] [2] It is known for the discovery of Madam Buya, [3] a one million-year-old fossil of a Homo erectus skull. [4] Two other expeditions in 2011 and 2012 also unearthed ancient hominid fossils at the site. Archaeologists have uncovered large quantities of animal fossils and lithic tools in the area. [5]

Contents

Map of Buya, Eritrea BuyaEritrea.png
Map of Buya, Eritrea
Archaeological Site In Buya, Eritrea Archaeological Site In Buya, Eritrea.png
Archaeological Site In Buya, Eritrea

Archaeology

Surveys and excavations of the region have led to the identification of hundreds of fossils and artifacts. [6] Much of the artifacts found in the area are acheulean or oldowan. [7] [8]

Skull of Madam Buya Buia UA 31 NMNH.jpg
Skull of Madam Buya

Following a 1994 prospection of the region, surveys were carried out in 1995. [9] These surveys were conducted by the Asmara Department of Mines, the Department of Earth Sciences, the Eritrean Ministry of Energy and Mines, and the University of Florence. [10] Buya was excavated from 1995 to 1997 by a team of Eritrean and Italian paleontologists from the National Museum of Eritrea, and the University of Florence. [11] The material they uncovered was stored in the Asmara Department of Mines. Archaeological work was temporarily halted from 1998 to 1999 by the Ethiopian-Eritrean conflict. Research began again in 2000. They established a laboratory in 2001 within the National Museum of Eritrea for the safekeeping of the fossils. [12] One of the paleontologists, Lorenzo Rook, [13] unearthed fragments of the Homo erectus fossil Madam Buya. [14] [15] The fossil was found inside of ancient lake sediments located within the Danakil Depression. [11]

This skeleton consisted of a nearly complete cranium, [15] two fragments of a pelvis, and two incisors. [16] It lacks a mandible and has no remaining dental crowns. Most of the root canals were missing, although a few were preserved in the maxilla. [17] The root canals show occlusal wear, dentine accumulation, and loss of enamel. [17] [18] The cranium has a long and narrow braincase, round parietooccipital area, bulging occipital lobes, a constricted postorbital area, and a volume of 995 cubic centimeters. [19] It has a more pronounced bossing, large and deeper orbits, larger zygomatic bones with maxilla, a slightly more curved frontal profile, and a thinner endocranium than other archaic human fossils. [20] According to research published in 2022, the maxilla of this fossil are larger than any other known Early Pliocene hominin fossil. [21] Two fossils of permanent teeth with dental crowns and roots, as well as a hip bone fragment, were uncovered in 1995. In 2003 archaeologists uncovered a pubic symphysis fragment at the site. [22] These fossils are all thought to belong to the same individual. [17] Analysis of the pubic symphysis suggests that the skeleton may have belonged to an individual between the ages of 25-30. [22]

The fossil bears characteristics of both Homo erectus skeletons and Homo sapiens skeletons. [23] It has a large brow ridge, oval neurocranium, and wide cheekbones. These traits are all characteristics of a Homo erectus fossil. It also has a cranium which is widest high on the vault, which is a human trait. [11] The fossil contains features of both Early Pleistocene human fossils and Middle Pleistocene fossils, providing archaeologists with evidence of the transition between these two periods. For these reasons, the discovery is considered an important source of information about the development of modern humans. [11] [24] [25] [26] The fossils found at the site were dated to be one million-years-old. [27] [28] Fission-track dating of the fossils dated them to be 0.75±0.16 million years old. Further research led to an estimated age of 1.3±0.3 million years old. [29]

Another team of Italian, French, and Eritrean paleontologists conducted an excavation in 2011. [30] They found another Homo erectus fossil at the site. [31] [32] Massimo Delfino, one of the paleontologists, found the artifact while conducting a routine survey of the area. [33] [34] [35] Another excavator, Husein Omar, discovered a set of 650,000 to 1.4 million-year-old molars. According to Medin, this discovery provided a vital source of information about human development during this time period and an opportunity for further research in Eritrea. [36] In 2012 archaeologists working for the Sapienza University of Rome made another expedition. [37] [38] [39] This project was coordinated with the University of Padua, National Museum of Natural History in Paris, and the University of Turin. [2] [33] [40] They found another million-year-old fossil and some lithic objects. [41] [42] Because of this discovery, the site was nicknamed the "Shrine of the Amygdales" for its large quantity of important archaeological sites. [43] [44] In addition, six traces of 800,000-year-old human footprints have been found in the region. [6] [45]

Archaeologists have uncovered 213 lithic objects at Buya. According to a 2004 study of the site, they found 133 flakes, 26 choppers, 13 hand-axes, 9 hammerstones, 6 cores, 2 hammers, and 1 trihedral pick. These objects were found across three areas. Area one is located along a gully in the northern part of the region. Area two is located on elevated ground in the northeastern part of the region. Area three is located along the western borders of Buya. 98 flakes, 15 choppers, 8 hammerstones, 4 cores, one hand-axe, one pitted pebble, and one trihedral pick were all found in area one. 78 of these objects contained unworn edges, with only 37 having any wear. The axes and choppers were made from pebbles. The hammerstones were made of quartz arentine. Some of the axes and the pick were made from basalt. The flakes were primarily made from quartz, although marble, basalt, and quartzite were also utilized. 98 total artifacts were recovered from area two. These materials consist of 22 flakes, 10 hand-axes, 9 choppers, and a basalt pebble used as a hammer. Most of the choppers from this area were unworn, with only having patina. The axes are also mostly unworn and are primarily made from schist and basalt. Although marble was used for one of them. The one core is made from marble, and the one hammer is made from an elongated oval-shaped basalt pebble. Only 12 artifacts were found in area three. These consist of 8 flakes, 2 transverse choppers, 1 hand-axe, and a core. The choppers were made from elongated marble pebbles, the hand-axe from a basalt flake, and the core was made from a thick basalt pebble. 6 of the flakes were made from quartz and 2 were made from basalt. There were a small number of objects identified in between these areas. These include 3 basalt flakes, 1 quartz flake, 1 quartz arenite flake, 1 cordiform axe, and a quartz arenite hammerstone. [46]

Paleoecology

Numerous remains of flora and fauna have been found at the site. These fossils have been revealed due to erosion, climate changes, and volcanic activity. [2] The type of animals found at this site are typical for East African Early Pleistocene faunas. Remains of extinct species from this time period found at the site include the Theropithecus oswaldi , [47] Pelorovis oldowayensis , Giraffa jumae, Hexaprotodon , Hippopotamus gorgops, [48] Palaeoloxodon recki , [49] Palaeoloxodon recki ileretensis, Kolpochoerus olduvaiensis , Kolpochoerus majus, Metridiochoerusmodestus, and potentially the Giraffa pygmaea . [50] One potential new species of bull, Bos buiaensis, may have been identified at the site. Bovid fossils found at Buya contain characteristics of aurochs and pelorovis . This indicates that humans may have had a relationship with cattle since the Late Pliocene. [51]

Other remnants of extant animals such as the White rhinoceros, [52] goat, Grévy's zebra, Sitatunga, waterbuck , Cane rat, Kori bustard, Old World monkey, Spotted hyena, and an unspecified Gazella species have been identified. [12] Most of the mammals found at Buya are water-dependent species that inhabit grassland or savanna environments. For example, taxa found at Buya such as the hippopotamus, waterbuck, sitatunga, crocodile, [53] African rock python, Nile monitor lizard, and pelomedusidae are all creatures that rely on water and live in grassland or savanna environments. This indicates that the region consisted of moist grassland or savanna habitats situated near water. [9] [12] Stratigraphic evidence also suggests the reach once was a grassland or savanna located near water. [54] Rare examples of pre-Middle Pleistocene Nile crocodiles have been found in Buya. Very few examples of this species dating back to before the Middle Pleistocene have been identified in Africa. [55] Examples of bird species such as anhinga or burhinus were found in the area. These imply that the region had open water with reed beds near dry areas. Fossils of clarias , a genus of fish, were also identified. [21]

Hundreds of trace fossils were identified in Buya. These fossils can be divided into two categories. One is rosette-shaped trace fossils, the other is ring-shaped fossils. These fossils were likely made by oolitic sand filling in imprints left by the original object. It is unclear what organisms could have made it. It can be inferred that soft-bodied organisms with radial symmetry were responsible for the original imprints. They likely used a pedal disc to create the imprint. Sea anemones were considered as a potential origin of the fossils, however, sea anemone appear in the ocean, whilst these fossils occurred on land. Other species such as scyphoza have been considered, however, the patterns in the ichnofossils are unlike other known animals. It is possible that two new ichnotaxa were responsible for the imprints. Abiogenic origins have also been considered, although, the complexity of the patterns strongly suggest that they have biogenic origins. [56]

Cutmarks in fossilized bones and flesh indicate that a Pleistocene human population may have practiced the butchering of animal carcasses. One bovid fossil bears deep cuts on the neck, near the jugular vein. These cuts were likely made by a lithic tool and intended to decapitate the animal. Another waterbuck fossil shows oblique, short, and straight scratch marks likely also made by a lithic tool, to skin the animal. Another mammalian hip pelvis fossil and a crocodile femur fossil also contain scratch marks indicating that it was skinned. V-shaped cutmarks probably made by a lithic tool were found on the femur of a hippopotamus fossil. They were likely an attempt to detach the leg from the body. Three short and arched cutmarks were identified on the fossil of a hippopotamus tibia. They appear to have been made by stone tools and to have been intended to separate the leg from the joints. Bitemarks found on other fossils and coprolites found at the site indicate the presence of carnivores. [57]

Geology and geography

The Buya basin is located in the northwestern part of the Afar Triangle. This area contains a village populated by the Saho people and the Afar people. This town has an economy sustained by irrigation, goat-herding, and trade. [15] In 2000 a camp for people displaced by the Eritrean–Ethiopian War. [58] The archaeological site is located within the Dandiero basin, which is the northern part of the Danakil depression. It is named after the Buya village which is located 100 kilometers south-southeast of Massawa. [59] The excavated site was 500 meters thick and is southeast of Buya by the Alad wells and the Alid volcano. [9] It is covered in grey and white silts and contains river areas with small numbers of marls. [60] The area is built on a basement of Neoproterozoic rock. [61] [62] This rock basement is metamorphic and consists of low-grade dolomitic rock, marble, calcareous meta-sediments, amphibolite gneiss, granite gneiss, and high-grade kyanite schist that came into contact with graphitic slate. [63] [64]

Related Research Articles

<i>Eschrichtius</i> Genus of baleen whale

Eschrichtius is a genus of baleen whale containing two species: the gray whale and the extinct Akishima whale (E. akishimaensis).

The deep-sea smelts are any members of the family Bathylagidae, a distinct group of marine smelts.

<i>Hippopotamus gorgops</i> Extinct species of mammal

Hippopotamus gorgops is an extinct species of the genus Hippopotamus known from remains found in Northern Africa, Eastern Africa, and the Levant. One of the largest hippopotamus species, it first appeared during the late Pliocene-Early Pleistocene, and became extinct during the early Middle Pleistocene.

<i>Hexaprotodon</i> Extinct hippopotamus genus

Hexaprotodon is an extinct genus of hippopotamid known from Asia and possibly Africa and Europe. The name Hexaprotodon means "six front teeth" as some of the fossil forms have three pairs of incisors. The pygmy hippopotamus was historically placed in the genus, but today is generally placed in its own genus. The core Asian members of the genus ranged from the Indian subcontinent to Southeast Asia, and are thought to have had an aquatic ecology similar to that of the living common hippopotamus. The last members of the genus became extinct during the Late Pleistocene, perhaps as recently as 15,000 years ago.

<span class="mw-page-title-main">Sicilian shrew</span> Species of mammal

The Sicilian shrew is a species of mammal in the family Soricidae. It is found in Sicily (Italy) and Gozo (Malta). Its natural habitat is temperate shrubland.

<i>Apateodus</i> Extinct genus of ray-finned fishes

Apateodus is a genus of prehistoric marine ray-finned fish which was described by Woodward in 1901. It was a relative of modern lizardfish and lancetfish in the order Aulopiformes, and one of a number of prominent nektonic aulopiforms of Cretaceous marine ecosystems.

<i>Megalenhydris</i> Extinct genus of giant otter

Megalenhydris barbaricina is an extinct species of giant otter from the Late Pleistocene of Sardinia. It is known from a single partial skeleton, discovered in the Grotta di Ispinigoli near Dorgali, and was described in 1987. It was larger than any living otter, exceeding the size of South American giant otters (Petrolutra), which can reach two meters in length. The species is one of four extinct otter species from Sardinia and Corsica. The others are Algarolutra majori, Lutra castiglionis and Sardolutra ichnusae. It is suggested to have ultimately originated from the much smaller European mainland species "Lutra" simplicidens, which may be more closely related to Lutrogale than to modern Lutra species. The structure of the teeth points to a diet of bottom dwelling fish and crustaceans. A special characteristic of the species is the flattening of the first few caudal vertebrae. This might point to a slightly flattened tail.

Eosaurichthys is an extinct genus of saurichthyid ray-finned fish that lived during the late Permian epoch in what is now China.

<i>Heptanema</i> Extinct genus of fishes

Heptanema is an extinct genus of prehistoric coelacanth from the Middle Triassic (Ladinian) of northern Italy and southern Switzerland.

<i>Felis lunensis</i> Extinct species of felid

Felis lunensis, or the Martelli's cat is an extinct felid of the subfamily Felinae.

<i>Crocodylus anthropophagus</i> Extinct species of reptile

Crocodylus anthropophagus is an extinct species of crocodile from the Pleistocene of Tanzania. It lived 1.84 million years ago. It was a large-sized predator reaching a length of 7.5 m (25 ft).

<i>Sinosaurichthys</i> Extinct genus of fishes

Sinosaurichthys is an extinct genus of saurichthyid ray-finned fish, which existed in south-western China during the Middle Triassic. Fossils have been found in the Upper Member of the Guanling Formation of two localities: Yangjuan of Panxian County, Guizhou Province, and Dawazi of Luoping, Yunnan Province, China.

<span class="mw-page-title-main">Saurichthyiformes</span> Extinct order of fishes

Saurichthyiformes is an extinct order of ray-finned fish which existed in Asia, Africa, Australia, Europe and North America, during the late Permian to early Middle Jurassic. Saurichthyiiformes comprise two families, Saurichthyidae and Yelangichthyidae. Yelangichthyidae is monotypic, containing only the genus Yelangichthys. The gar or needlefish-like Saurichthyidae is primarily known from the genus Saurichthys. Additionally, the subgenera SaurorhynchusCostasaurichthys, Eosaurichthys, Lepidosaurichthys, and Sinosaurichthys are frequently used to group species, and are sometimes considered separate genera. Species are known from both marine end freshwater deposits. They had their highest diversity during the Early and Middle Triassic. Their phylogenetic position is uncertain, while they have often been considered members of Chondrostei, and thus related to living sturgeons and paddlefish, phylogenetic analysis of well-preserved remains has considered this relationship equivocal. They may actually belong to the stem-group of Actinopterygii, and thus not closely related to any living group of ray-finned fish.

<i>Pythonichthys</i> Genus of fishes

Pythonichthys is a genus of eels of the family Heterenchelyidae that occur in tropical waters of the eastern Pacific Ocean off of Panama and in the Atlantic Ocean near the Caribbean Sea and the west coast of Africa. It contains the following described species:

<i>Talpa tyrrhenica</i> Extinct species of mammal

Talpa tyrrhenica, also known as the Tyrrhenian mole, is an extinct species of mole belonging to the genus Talpa. It was endemic to the Mediterranean islands of Corsica and Sardinia during the Pleistocene epoch.

<i>Hemibos</i> Extinct genus of mammal

Hemibos is an extinct even-toed ungulate, belonging to the family Bovidae. Its fossil remains were found across Asia and Europe, including findings from China, the Italian Peninsula, the Iberian Peninsula, the State of Palestine, Israel, Pakistan, and India.

"Crocodylus" gariepensis is an extinct species of crocodile that lived in southern Africa during the Early Miocene about 17.5 million years ago (Ma). Fossils have been found along a bank of the Orange River in Namibia, near its border with South Africa.

Rhagapodemus is a genus of extinct rodent from the Miocene to Pleistocene periods. Most species are known from European localities, although R. debruijni comes from India.

<i>Tharosaurus</i> Genus of dicraeosaurid dinosaurs

Tharosaurus is an extinct genus of dicraeosaurid sauropod dinosaur from the Middle Jurassic Jaisalmer Formation of India. The genus contains a single species, T. indicus, known from several vertebrae and a rib. Tharosaurus represents the earliest diplodocoid currently known and the first described from India.

Bos buiaensis is an extinct species of cattle. The species is known from a million year old skull fossil found at the archaeological site of Buya, Eritrea in 2003. It was reassembled by excavators from over one hundred shards.

References

  1. Tewolde, Azeb (2018). "The Archives of Eritrea as a Primary Source of Information for the Eritrean Cultural Heritage: Its Nature and Accessibility". Rassegna di Studi Etiopici. 2 (49): 11–22. ISSN   0390-0096. JSTOR   48564342.
  2. 1 2 3 "Buya: the origin of the first Homo sapiens". Eritrea Ministry Of Information. 2012-11-23. Archived from the original on October 7, 2023. Retrieved 2023-10-21.
  3. Niraj Mishra, Mohammad Alam (2013). "GEO-ARCHAEOLOGICAL ENDOWMENTS AND THE TOURISM DEVELOPMENT IN ERITREA" (PDF). Journal for Geography. Archived (PDF) from the original on November 6, 2023.
  4. "Buia UA 31 | The Smithsonian Institution's Human Origins Program". humanorigins.si.edu. 2 September 2020. Archived from the original on November 10, 2023. Retrieved 2023-11-10.
  5. "La "signora di Buya", un milione di anni fa". Corriere della sera (in Italian). May 15, 2004. p. 59. Archived from the original on December 22, 2015.
  6. 1 2 "Eritrea: Discovery of Ancient Human Remains in BUYA-UA31 – Eriswiss". www.eriswiss.com. Archived from the original on November 6, 2023. Retrieved 2023-11-06.
  7. admin (2007-06-01). "Le industrie paleolitiche del bacino di Buya (Dancalia, Eritrea): prime osservazioni". Istituto Italiano di Preistoria e Protostoria (in Italian). Archived from the original on July 29, 2022. Retrieved 2023-11-06.
  8. Rook, Lorenzo & Libsekal, Y & Kibreab, A & Russom, R & Tecle, TM & Abbate, Ernesto. (2002). The Buia Project: a collaborative geo-paleontological and paleoanthropological research project in Eritrea. Journal of Human Evolution. 42. A29-A30.
  9. 1 2 3 Abbate, Ernesto; Bondioli, Luca; Collina, Carmine; Coppa, Alfredo; Delfino, Massimo; Ghinassi, Massimiliano; Libsekal, Yosief; Macchiarelli, Roberto; Martínez-Navarro, Bienvenido (2023), Beyin, Amanuel; Wright, David K.; Wilkins, Jayne; Olszewski, Deborah I. (eds.), "Buia, Eritrea", Handbook of Pleistocene Archaeology of Africa : Hominin behavior, geography, and chronology, Cham: Springer International Publishing, pp. 243–261, doi:10.1007/978-3-031-20290-2_14, ISBN   978-3-031-20290-2 , retrieved 2023-10-21
  10. Delfino, M.; Abbate, E.; Balter, V.; Bondioli, L.; Candilio, F.; Carnevale, G.; Coppa, C.; Ghezzo, E.; Ghinassi, M.; Libsekal, Y.; Macchiarelli, R.; Martin, J.E.; Martínez-Navarro, B.; Medin, T.; Papini, M. (2016). "The Buia Project: a summary of two decades of vertebrate paleontology in the Early Pleistocene of Eritrea". International Conference on Eritrean Studies "The Way Forward". Asmara, Eritrea.
  11. 1 2 3 4 Schuster, Angela (1998). "New Skull from Eritrea". archive.archaeology.org. Archived from the original on August 20, 2023. Retrieved 2023-10-21.
  12. 1 2 3 Rook, Lorenzo (2004-01-01). "The large fossil mammals from Buia (Eritrea): systematics, biochronology and paleoenvironments". Rivista Italiana di Paleontologia e Stratigrafia.
  13. Almécija, Sergio (2023-07-12), "Lorenzo Rook", Humans, Columbia University Press, pp. 255–257, doi: 10.7312/alme20120-063 , ISBN   978-0-231-55398-8
  14. "National Museum of Eritrea". museu.ms. Archived from the original on October 21, 2021. Retrieved 2023-11-06.
  15. 1 2 3 Libsekal, Yosief (2008). "Multiplying and Sharing Heritage Values: Planning Conservation and Site Management at the Acheulean Sites of Buya, Eritrea". Conservation and Management of Archaeological Sites. 10 (3): 251–263. doi:10.1179/175355209X452796. ISSN   1350-5033. S2CID   110336117.
  16. "Ritrovamenti di ominidi in Dancalia eritrea | Dancalia" (in Italian). Archived from the original on May 12, 2023. Retrieved 2023-11-06.
  17. 1 2 3 Macchiarelli, Roberto & Bondioli, Luca & CHECH, MARIO & Coppa, Alfredo & Fiore, Ivana & RUSSOM, REZENE & VECCHI, FRANCESCO & LIBSEKAL, YOSIEF & Rook, Lorenzo. (2004).The Late Early Pleistocene human remains from Buia, Danakil Depression, Eritrea. Rivista Italiana di Paleontologia e Stratigrafia. 110. 133-144. 10.13130/2039-4942/5768.
  18. Zanolli, Clément; Bondioli, Luca; Coppa, Alfredo; Dean, Christopher M.; Bayle, Priscilla; Candilio, Francesca; Capuani, Silvia; Dreossi, Diego; Fiore, Ivana; Frayer, David W.; Libsekal, Yosief; Mancini, Lucia; Rook, Lorenzo; Medin Tekle, Tsegai; Tuniz, Claudio (2014-09-01). "The late Early Pleistocene human dental remains from Uadi Aalad and Mulhuli-Amo (Buia), Eritrean Danakil: Macromorphology and microstructure". Journal of Human Evolution. 74: 96–113. doi:10.1016/j.jhevol.2014.04.005. ISSN   0047-2484. PMID   24852385.
  19. Beaudet, Amélie; Bruner, Emiliano (2017-08-01). "A frontal lobe surface analysis in three archaic African human fossils: OH 9, Buia, and Bodo". Comptes Rendus Palevol. Hominin biomechanics, virtual anatomy and inner structural morphology: From head to toe. A tribute to Laurent Puymerail. 16 (5): 499–507. Bibcode:2017CRPal..16..499B. doi:10.1016/j.crpv.2016.12.002. hdl: 2263/62831 . ISSN   1631-0683.
  20. Bruner, Emiliano; Bondioli, Luca; Coppa, Alfredo; Frayer, David W.; Holloway, Ralph L.; Libsekal, Yosief; Medin, Tsegai; Rook, Lorenzo; Macchiarelli, Roberto (2016). "The endocast of the one-million-year-old human cranium from Buia (UA 31), Danakil Eritrea". American Journal of Physical Anthropology. 160 (3): 458–468. doi:10.1002/ajpa.22983. ISSN   0002-9483. PMID   27040007.
  21. 1 2 Reynolds, Sally C.; Bobe, René, eds. (2022). African Paleoecology and Human Evolution. Cambridge: Cambridge University Press. ISBN   978-1-107-07403-3.
  22. 1 2 Bondioli, Luca; Coppa, Alfredo; Frayer, David W.; Libsekal, Yosief; Rook, Lorenzo; Macchiarelli, Roberto (2006-04-01). "A one-million-year-old human pubic symphysis". Journal of Human Evolution. 50 (4): 479–483. doi:10.1016/j.jhevol.2006.01.001. ISSN   0047-2484. PMID   16499949.
  23. Dong, Rui; Pei, Shaojun; Guan, Mengcen; Yau, Shek-Chung; Yin, Changchuan; He, Rong L.; Yau, Stephen S.-T. (2022). "Full Chromosomal Relationships Between Populations and the Origin of Humans". Frontiers in Genetics. 12: 5. doi: 10.3389/fgene.2021.828805 . ISSN   1664-8021. PMC   8847220 . PMID   35186019.
  24. NgCheong-Lum, Roseline; Orr, Tamra (2020-04-15). Eritrea. Cavendish Square Publishing, LLC. p. 6. ISBN   978-1-5026-5578-3.
  25. "Eritrea: Discovery of New Fossil | ECSS | Eritrean Center for Strategic Studies". Archived from the original on June 5, 2023. Retrieved 2023-10-21.
  26. "What do we know about the one million year old Eritrean Homo Sapiens?". Eritrea Ministry Of Information. 2021-10-27. Archived from the original on December 1, 2022. Retrieved 2023-11-10.
  27. Report of the detailed findings of the Commission of Inquiry on Human Rights in Eritrea (PDF). United Nations. June 5, 2015. p. 20. Archived (PDF) from the original on September 16, 2023.
  28. Bevin, Amaneul (2009). Archaeological Investigation of the Buri Peninsula and Gulf of Zula, Red Sea Coast of Eritrea (Thesis). Stony Brook University. p. 12.
  29. Balestrieri, Maria & BIGAZZI, GIULIO & NORELLI, PIO & Oddone, Massimo. (2004). Fission-Track Dating of a tephra layer in the Alat Formation of the Dandiero Group (Danakil Depression, Eritrea).. RIVISTA ITALIANA DI PALEONTOLOGIA E STRATIGRAFIA. 110. 45-49. 10.13130/2039-4942/5763.
  30. Avenir, Sciences et (2011-01-14). "Un nouveau crâne d'Homo ergaster découvert en Erythrée". Sciences et Avenir (in French). Archived from the original on February 4, 2023. Retrieved 2023-11-09.
  31. Figuerola, Pere. "Aprenent dels amfibis i rèptils com a estil de vida". www.icp.cat (in Catalan). Archived from the original on February 1, 2023. Retrieved 2023-11-09.
  32. "Un frammento nel deserto: Ricercatore di Romano trova pezzo di osso di un milione di anni fa". La Sentinella (in Italian). February 7, 2011. Archived from the original on November 9, 2023. Retrieved November 9, 2023.
  33. 1 2 Lupi, Luca. "Scoperto a Buia (Dancalia eritrea) un nuovo cranio umano | Dancalia" (in Italian). Archived from the original on March 27, 2023. Retrieved 2023-11-06.
  34. "Un nuovo cranio umano a Buya". National Geographic . Archived from the original on March 18, 2011.
  35. "Tornati alla luce resti di nostro progenitore vissuto un milione di anni fa". UNIVPM. Archived from the original on November 9, 2023. Retrieved 2023-11-09.
  36. "Over 1.5 Million Year-old Human Skeleton Discovered in Buya, Eritrea". TesfaNews. 2011-12-25. Archived from the original on October 21, 2023. Retrieved 2023-10-21.
  37. Moriconi, Tiziana (2012-04-04). "Ecco il Santuario delle amigdale". Galileo (in Italian). Archived from the original on November 9, 2023. Retrieved 2023-11-09.
  38. "Homo sapiens scoperto in Eritrea il santuario delle amigdale". Gaianews.it (in Italian). 2012-04-05. Archived from the original on June 28, 2022. Retrieved 2023-11-09.
  39. "Il "santuario delle amigdale", scoperta italiana in Eritrea". Scienze fanpage (in Italian). 2012-04-05. Archived from the original on August 12, 2022. Retrieved 2023-11-09.
  40. admin_med (2011-02-01). "ROMA. Un'equipe internazionale guidata dalla Sapienza ha rinvenuto in Eritrea nuovi fossili ..." Archeologia online - Archeomedia (in Italian). Archived from the original on August 25, 2020. Retrieved 2023-11-09.
  41. "Eritrea, resti umani nel bacino di Buya". lastampa.it (in Italian). 2012-04-05. Archived from the original on September 28, 2020. Retrieved 2023-11-07.
  42. Dolce, Marilena (2012-04-11). "Eritrea, le origini dell'uomo". EritreaLive (in Italian). Archived from the original on March 23, 2023. Retrieved 2023-11-09.
  43. "Danakil, an Italian team discovered the 'Shrine of the Amygdales'". 9Colonne (in Italian). Archived from the original on November 9, 2023. Retrieved 2023-11-09.
  44. "In Eritrea un'importante scoperta archeologica". www.turismo.it (in Italian). Archived from the original on September 27, 2022. Retrieved 2023-11-09.
  45. raimoq, IIIRራ | (2018-05-30). "[VIDEO] Eritrea: Discovery of Ancient Human Remains in BUYA-UA31". IIIRራ | raimoq.com. Archived from the original on November 6, 2023. Retrieved 2023-11-06.
  46. Martini, Fabio; Libsekal, Yosief; Filippi, Omar; Ghebre/Her, Asmeret; Kashay, Habtom; Kiros, Asmeret; Martino, Gabriele; Okubatsion, Dawit; Segid, Amaha; Solomon, Tekeste; Teka, Zelalem; Yosief, Dessale; Yamane, Samuel (2004-12-31). "Characterization of Lithic Complexes from Buia (Dandiero Basin, Danakil Depression, Eritrea)". Rivista Italiana di Paleontologia e Stratigrafia. 110. doi:10.13130/2039-4942/5767. ISSN   2039-4942. Archived from the original on November 9, 2023.
  47. Rook, Lorenzo; Ghinassi, Massimiliano; Libsekal, Yosief; Martínez-Navarro, Bienvenido; Medin, Tseqai; Papini, Mauro (2010-12-01). "Stratigraphic context and taxonomic assessment of the large cercopithecoid (Primates, Mammalia) from the late Early Pleistocene palaeoanthropological site of Buia (Eritrea)". Journal of Human Evolution. 59 (6): 692–697. doi:10.1016/j.jhevol.2010.07.018. ISSN   0047-2484. PMID   20828786.
  48. Pandolfi, Luca; Martino, Roberta; Belvedere, Matteo; Martínez-Navarro, Bienvenido; Medin, Tsegai; Libsekal, Yosief; Rook, Lorenzo (2023-05-15). "The latest Early Pleistocene hippopotami from the human-bearing locality of Buia (Eritrea)". Quaternary Science Reviews. 308: 108039. Bibcode:2023QSRv..30808039P. doi:10.1016/j.quascirev.2023.108039. ISSN   0277-3791. S2CID   258024770.
  49. Ferretti, Marco & Ficcarelli, Giovanni & Libsekal, Yosieph & Tecle, Tewelde & Rook, Lorenzo. (2003). Fossil elephants from Buia (Northern Afar Depression, Eritrea) with remarks on the systematics of Elephas recki (Proboscidea, Elephantidae). Journal of Vertebrate Paleontology. 23. 244-257.
  50. Medin, Tsegai; Martínez-Navarro, Bienvenido; Rivals, Florent; Libsekal, Yosief; Rook, Lorenzo (2015-08-01). "The late Early Pleistocene suid remains from the paleoanthropological site of Buia (Eritrea): Systematics, biochronology and eco-geographical context". Palaeogeography, Palaeoclimatology, Palaeoecology. 431: 26–42. Bibcode:2015PPP...431...26M. doi:10.1016/j.palaeo.2015.04.020. ISSN   0031-0182.
  51. Martínez-Navarro, Bienvenido; Rook, Lorenzo; Papini, Mauro; Libsekal, Yosief (2010-02-01). "A new species of bull from the Early Pleistocene paleoanthropological site of Buia (Eritrea): Parallelism on the dispersal of the genus Bos and the Acheulian culture". Quaternary International. Quaternary Changes of Mammalian Communities Across and Between Continents. 212 (2): 169–175. Bibcode:2010QuInt.212..169M. doi:10.1016/j.quaint.2009.09.003. ISSN   1040-6182.
  52. Delfino, Massimo & Candilio, Francesca & Carnevale, Giorgio & Coppa, Alfredo & Medin, Tsegai & Pavia, Marco & Rook, Lorenzo & Urciuoli, Alessandro & Villa, Andrea. (2018). The early Pleistocene vertebrate fauna of Mulhuli-Amo (Buia area, Danakil Depression, Eritrea). Bollettino della Societa Paleontologica Italiana. 57. 10.4435/BSPI.2018.02.
  53. Delfino, Massimo & SEGID, AMAHA & Okubamichael, Desale & SHOSHANI, JEHESKEL & Rook, Lorenzo & LIBSEKAL, YOSIEF. (2004). Fossil reptiles from the Pleistocene Homo-Bearing locality of buia (Eritrea, Northern Danakil Depression). Rivista Italiana di Paleontologia e Stratigrafia. 110. 51-60. 10.13130/2039-4942/5764.
  54. Ghinassi, Massimiliano; Libsekal, Yosief; Papini, Mauro; Rook, Lorenzo (2009-09-15). "Palaeoenvironments of the Buia Homo site: High-resolution facies analysis and non-marine sequence stratigraphy in the Alat formation (Pleistocene Dandiero Basin, Danakil depression, Eritrea)". Palaeogeography, Palaeoclimatology, Palaeoecology. 280 (3): 415–431. Bibcode:2009PPP...280..415G. doi:10.1016/j.palaeo.2009.06.029. ISSN   0031-0182.
  55. Delfino, Massimo; Segid, Amaha; Yosief, Dessale; Shoshani, Jeheskel; Rook, Lorenzo; Libsekal, Yosief (March 22, 2004). "Fossil Reptiles From the Pleistocene Homo Bearing Locality of Buya" (PDF). Rivista Italiana di Paleontologia e Stratigrafia. 110: 51–60. Archived (PDF) from the original on December 8, 2021.
  56. Abbate, Ernesto; Bruni, Piero; Landucci, Francesco; Pellicanò, Giannantonio (2012). "Unusual Ichnofossils in Homo Erectus-Bearing Beds of the Pleistocene Lake Deposits in Central-Eastern Eritrea, East Africa". PALAIOS. 27 (1/2): 97–104. Bibcode:2012Palai..27...97A. doi:10.2110/palo.2011.p11-054r. ISSN   0883-1351. JSTOR   41511638. S2CID   130709126.
  57. Fiore, Ivana; Bondioli, Luca; Coppa, Alfredo; Macchiarelli, Roberto; Russom, Rezene; Kashay, Habtom; Solomon, Tekeste; Rook, Lorenzo; Libsekal, Yosief (2004-12-31). "Taphonomic Analysis of the Late Early Pleistocene Bone Remains from Buia (Dandiero Basin, Danakil Depression, Eritrea):Evidence for Large Mammal and Reptile Butchering". Rivista Italiana di Paleontologia e Stratigrafia. 110. doi:10.13130/2039-4942/5766. ISSN   2039-4942.
  58. "ICC Briefing No. 1: Internally Displaced Persons' (IDP) Camps in Eritrea - Eritrea | ReliefWeb". reliefweb.int. 2000-09-25. Archived from the original on May 22, 2023. Retrieved 2023-11-06.
  59. Melake, Tekeste (2008). Archaeo-historical Research on Eritrea. National Museum of Eritrea. p. 5. ISBN   978-99948-50-00-6.
  60. Abbate, Ernesto; Albianelli, Andrea; Azzaroli, Augusto; Benvenuti, Marco; Tesfamariam, Berhane; Bruni, Piero; Cipriani, Nicola; Clarke, Ronald J.; Ficcarelli, Giovanni; Macchiarelli, Roberto; Napoleone, Giovanni; Papini, Mauro; Rook, Lorenzo; Sagri, Mario; Tecle, Tewelde Medhin (1998). "A one-million-year-old Homo cranium from the Danakil (Afar) Depression of Eritrea". Nature. 393 (6684): 458–460. Bibcode:1998Natur.393..458A. doi:10.1038/30954. ISSN   1476-4687. PMID   9623999. S2CID   205000929.
  61. Papini, Mauro; Ghinassi, Massimiliano; Libsekal, Yosief; Rook, Lorenzo (2014-01-02). "Facies associations of the northern Dandiero Basin (Danakil depression, Eritrea, including the Pleistocene Buya homo site)". Journal of Maps. 10 (1): 126–135. Bibcode:2014JMaps..10..126P. doi:10.1080/17445647.2013.862748. ISSN   1744-5647. S2CID   140538441.
  62. Abbate, Ernesto; Woldehaimanot, Beraki; Bruni, Piero; Falorni, Paola; Papini, Mauro; Sagri, Mario; Girmay, Simret; Tecle, Tewelde Medhin (2004-12-31). "Geology of the Homo-Bearing Pleistocene Dandiero Basin (Buia Region, Eritrean Danakil Depression)". Rivista Italiana di Paleontologia e Stratigrafia. 110. doi:10.13130/2039-4942/5761. ISSN   2039-4942.
  63. Teklesenbet, Andemariam; Eysteinsson, Hjálmar; Karl Rosenkjær, Guðni; Karlsdóttir, Ragna (2010). "Resistivity Survey in Alid Geothermal Area, Eritrea" (PDF). Proceedings World Geothermal Congress: 1. Archived (PDF) from the original on October 21, 2023.
  64. Beyene, Andemariam (2012). Multidimensional inversion of MT data from Alid Geothermal area, Eritrea; comparison with geological structures and identification of a geothermal reservoir (PDF) (Magister Scientiarum thesis). University of Iceland. p. 5. Archived from the original (PDF) on August 16, 2017.