Elands Bay Cave

Elands Bay Cave
Map showing the location of Elands Bay Cave
Location Elands Bay, Western Cape Province, South Africa
Coordinates 32°19′03.5″S 18°19′04.6″E / 32.317639°S 18.317944°E / -32.317639; 18.317944Coordinates: 32°19′03.5″S 18°19′04.6″E / 32.317639°S 18.317944°E / -32.317639; 18.317944

Elands Bay Cave is located in South Africa off the Atlantic coast of Western Cape Province. The weather has continuously become drier since the inhabitation by hunter-gatherers in the Later Pleistocene. It is an important site to excavate because the data can explain relationships with people and landscape, the role of climate change that could have determined or influenced subsistence changes, and the impact of pastoralism and agriculture on hunter-gatherer communities.[1]

History of Research

Rock paintings at Eland's Bay Cave, South Africa Photo taken in 1979. From left to right, Merrick Posnansky, John Parkington and J. Desmond Clark.

Renowned archeologist John Parkington excavated Elands Bay Cave in the 1970's providing vast information of the cave's inhabitants. Parkington frequently used methods of comparing various characteristics in his findings in order to highlight phases of transformations at Elands Bay Cave.[2] Other archaeologists and specialists have analyzed the findings from Parkington. Parkington, Cartwright, Cowling, Baxter, and Meadows (2000), analyzed wood charcoal and pollen data from Elands Bay Cave to explain the environmental change. Klein, in 2001 studied fossil remains and faunal data to indicate hunter-gatherer behavioral and cultural adaptations. In 1999, Cowling, Cartwright, Parkington, & Allsopp researched wood charcoal in order to explain environmental changes. Woodborne, Hart, & Parkington (1995) researched seal bones to construct the timing and the duration of hunter-gatherer coastal journeys. Orton (2006) examined raw materials to produce a lithic sequence for the Later Stone Age in Elands Bay Cave. Lastly, Matthews (1999) used taphonomy and previous research by Peter Andrews to understand the formation and interpretation of micromammals at Elands Bay Cave.

Environment

Heavier rainfall and different ocean levels allowed Elands Bay Cave to be a lush environment in the past. Testing of faunal remains, bones, and wood charcoals provided evidence of wetter conditions in the terminal Pleistocene. During that time, the environment consisted of colder weather with heavier rain fall which created vegetation that was different than it is today.[3] Now, it has become a drier environment with different species residing there. Rainfall from 9,600 to 13,600 years ago produced 400mm comparable to today’s 300mm.[4] The recent environment conditions in Elands Bay Cave consist of mild weather with an approximated 200-250 mmyr of rainfall occurring every winter.[5]

With the change of climatic atmosphere, eventually, Elands Bay Cave became drier and the soil conditions turned to sand. Dense shrubs are maintained by older sand creating patches of subtropical plants in the area.[6] The change created a downfall that affected availability of daily food sources like drinkable water, mussels, and shellfish.

Transitions from the last glaciation to the Holocene had a huge impact on the vegetation and the wildlife that grazed there.[7] It is speculated that because of aridity, inhabitants took a hiatus from Elands Bay Cave. Lack of evidence concerning 8,000 to 4,400 and 4,000 BP supports the theory of a gap.[8]

Excavations

Elands Bay Cave was excavated in the 1970’s and onwards to test coastal and seasonal mobility. Faunal remains were excavated in the 70’s; the bones were examined and compared to the ones in the South Africa Museum in Cape Town. Cartwright and Parkington (1997) excavated 6,700 fragments of wood charcoal that were retrieved through dry sieving large soil samples of 39 collections. Excavation of wood charcoal and pollen in the cave suggests that last glacial maximum had wetter conditions with lush forests and Afromontane elements 20,000 years ago.[9] There were also varieties of charcoal tested from 20,000, 13,500, and 10,500 years ago. Searching for micromammal remains deposits are sieved through 12mm and 3mm.[10] Taphonomy became a great tool for formation of microfaunal collection.[11] Excavations in Elands Bay Cave and surrounding areas support a hypothesis of migration in winter months. Assemblages of shellfish findings portray that the theory of shellfish changing in size during prehistoric times because of environment was overthrown and was replaced by consuming large amounts of shellfish at the time. Observations and excavations were done in Elands Bay Cave in order to properly identify species of fish bones with accurate representation in specific levels. Excavations that were conducted from 1970 to 1978 in Elands Bay Cave concluded that there was a stratified sequence of deposits that dated to the late Pleistocene.[12] Excavations after 4,000 BP concluded that there were 13 different species of fishes, 6 of which are still found today in the aquatic milieus.[13] This led to the conclusion that fishing had changed and that people from Elands Bay Cave fished right outside the cave off the coast.

Stratigraphy and Dating

There are 60 radiocarbon dates that display activity in times of Holocene, a large part of terminal Pleistocene, and last glacial maximum.[14] Stratigraphy dating and the Middle Stone Age artefacts are at the base, then ashy loam's before 20,000 years ago BP, lastly topped with shell middens. Upper shell middens range from 3,800 to 300 BP, though there was a disturbance of accumulation from 7,900 years ago that stopped for about 4,000 years. Around 11,000 to 9,000 years ago the terrestrial fauna began to change. Shell middens from the Holocene are on top of Pleistocene soil that was accumulated from the last glacial period.[15] Prior to 9,000 BP, seals do not appear to be seasonal at Elands Bay Cave. The seal collection was divided into two collections: upper ranging from 1,400 BP and lower ranging from 10,000 BP to 9,500 BP.[16] Charcoal that was 40,000 years old was studied. Proteoid fynbos was able to be harvested because of improved soils in 12,450 BP to 13,600 BP. In the terminal Pleistocene, approximately 16,000 to 8,000 years ago, ostrich egg shells and animal bones were introduced to the cave. Establishment of non-micro lithic industry was discovered to be from 10,000 BP continuing on to 8900 BP.[17] It is found that major increase of formal tools took place in 9,500 BP.[18] The transitions of tool assemblages in Elands Bay Cave are assumed to be from 8,800 to 8,500 BP.[19] In 8,000 BP Holocene, Elands Bay Cave had microlithics for the first time. Radiocarbon dates indicate that Albany Industry was in use circa 13,000 and 9,000 BP.[20]

Findings

Artefacts and Faunal Remains

Elands Bay Cave is perceived as the central site because it includes the largest sample sizes and covers more time spans.[21] Elands Bay Cave has been used at different times for various purposes; evidence found at the cave suggests that there is a series of overlapping events that are in no constant order. The research that has been done in the cave concludes that people lived there around 4,400 to 3,000 years ago and that hunting and gathering was alive and well until the 17th century AD. Migration patterns were found due to shell midden evidence from marine resources archeologists found displaying exploitation from that time. All the research contributes in various ways of monitoring stratigraphic anomalies within Elands Bay Cave.

Culture

Group sizes varied at different points, some were just a few families and at other times there could have been up to 100 people. Either way, a community was built. Hunter-gatherers became more advanced in the Later Stone age compared to the Middle Stone Age. Expansion of hearths found inside Elands Bay Cave illustrates that people were skillful with fire. It also indicates cultural evolution by gathering together when it was dark or cold outside. They also discovered that hunter-gatherers stored food underground in containers and used ostrich eggs as portable water vessels. People from the Later Stone Age seemed to have gathered the most remains from fish and aerial birds which indicate artefactual observation conclusion of people fishing and fowling routinely.[22]

Seal Bones

Seal mandibles that were found at the cave were compared to mandibles from South Africa Museum and Department of Sea Fisheries Collection. The upper division of seals collection explained that seals were hunted during winter and spring months. This implies that hunter-gatherers would purposefully plan to be at the Elands Bay Cave at those times. The lower collection finds that there was no seasonal correlation to habitation and that the seals were 2 years old. The study of seal mandibles aid in gaining understanding of deaths and predict probable seasonal migration. Through carbon isotope testing, upper level dating of seal bones were found to not be consistent with findings of human remains at the same time. These findings were all to demonstrate that the cave was accessible and used to easily capture seals pups. Animal bones demonstrate drastic change in vegetation. Seal bones are plentiful after 11,000 to 10,000 BP.[23] Bones used to identify seals in Elands Bay Cave are mainly limb skeletal, such as the humeri. They are not easily confused with other wildlife skeletal because their bones do not have marrow cavity. During 11,000 to 10,000 BP sea levels rose, this allowed seals to be exploited through hunting.[24]

Wood and Pollen Findings

Before 4,000 BP people from Elands Bay Cave would gather wood from moister plants that would grow in different areas.[25] Pollen in small denominations is discovered from the last glacial maximum but none from past that time.[26] This is presented through the connection of higher moisture availability supporting fuel wood accessibility and variety. Samples of wood charcoal and pollen that are 17,000 to 20,000 years old (terminal Pleistocene) show a connection to vegetation rather than rainfall. Recent charcoal resembles xeric thicket and states that vegetation was more diverse.[27] There is a drainage system that has gone through Elands Bay Cave, the Velorenvlei. It is speculated that the connection from that drainage system to Elands Bay Cave has a significant impact on the collection of pollen that is found in Elands Bay Cave.[28] It is revealed that the moisture in the soil has been deteriorating from at least 4,000 years ago; other observations conclude similar findings because of evidence from pollen and faunal remains from the same epochs.[29]

Middens

Stratigraphy finds that the cave sediment is mainly composed of ashy soil covered by middens. There was 40 cubic meters of shell middens found from the Holocene period. Aside from mussel shells, middens consisted of ostrich shells and other marine shells.[30] It was discovered that ostrich eggs, used as water containers, were sometimes repurposed as beads after breaking. Some wood charcoal from 40,000 years ago from the terminal Holocene (300 years ago) to early late Pleistocene revealed that it was beyond range of carbon dating. There was only 25-44 g/m3 microfaunal found.[31] In early Holocene, limpets overshadow any other shells in the midden levels. There are four stratigraphic levels of middens that are described. Stages 1,2, and 3 are the top three levels; they are believed to be dated to around 1,500 to 600 BP.[32] The lower stage, level 4, is understood to be dated no older that 1,500 BP.[33]

Taphonomy

Archeological evidence supports taphonomy investigations in order to rule out assumptions of extinction or depletion of wildlife. It is important to identify who the predator is before environment analysis. It was found that the study of taphonomy was important because it allowed us to distinguish who is responsible for the collection and establishment of habits and behaviors of different species. They found which predator species contributed to micromammal accumulations and with this, helped recreate the environment they lived in. Remains from different predator birds show that the Barn Owl was not the only airborne wildlife using the cave as a shelter.[34]

Bones

There were remains of sheep bones found at Elands Bay Cave between 2,000 and 1,500 BP. The first bone collectors in Elands Bay Cave were discovered to be people from the Stone Age.[35] Some bones were gnawed and chewed, which predicted the habitation of carnivores and porcupines.[36] Evidence suggests that mole rats could have been introduced by people bringing them when they migrated to Elands Bay Cave or, the more likely suggestion is that they were brought by Eagle owls after 10,000 BP. There are fluctuations in evidence which are reflections of periods when the owls used the cave. Fossil samples from mole rat humeri’s were collected and tested. Jaws and foot bones are the most common bones used to identify species since they are long-lasting and easy to identify even when in pieces.[37] Over time there was a reduction in mole rat sizes in the collections, likely because of weather and environmental changes. This would explain the appearance of certain animals like hedgehogs since they favor wetter climates. Some animals such as the Cape horse became extinct and others like the hedgehog came about. This could be seen through fossils found in soil deposits.

Fish

Fauna remains found increased intake of fish. This is a reflection of higher sea levels from the conversion of the last glaciation to the Holocene.[38] In excavations from 1970 to 1978, it was discovered that the most common fish bones were from Steenbras when there was lack of fish gorges in the area.[39] While species range from level to level, Sparidae are very common in the remainder of the Holocene.

Shellfish

Shellfish remains discovered after 4,000 BP indicates an increase of shellfish assemblages which then become a dietary staple.[40] This was produced because the coastline became part of the cave’s basin. A high percentage, 90%, of shell middens from the Holocene period were black mussels.[41] These types of findings in an area would indicate a settlement with shellfish being a large portion of their daily nutritional intake. In Elands Bay Cave there were three main shell middens remains: Black mussels, and two different classes of limpets.[42] The shells that were found had not reached full adulthood within the cave, which leads archeologists to believe that they were an essential part of their diet.[43] There were notable different sizes outside the cave but it is speculated that it is because of the consumption inside the cave that the mussels were accessible and therefore, there was a slim chance for the shellfish to reach mature age.

Artefacts

Stone Tools

Until 9,000 years ago in the Late Pleistocene and early Holocene, stone tools were made out of quartz. There was an abundance of vein quartz, even if found in small forms like pebbles. Even though the principal material of the tools was quartz, other materials were also found in sizable quantities.[44] These include a substantial amount of hornfels, tough siltstones, and dolerite.[45] Aside from quartz and silcrete, the other materials are unknown on how they got to the location. Quality raw materials are suspected to have been brought from other regions. It is also suggested that they could have manifested through trade or simply carried in from migration.

Discussion

Elands Bay Cave was not always occupied. There are conflicting theories of seasonal migration to the cave just like in the Early Holocene. Yet, lack of evidence of seals in Elands Bay Cave at that time leads some to suggest that it was not a seasonal habitation. Since there are no signs of transitions even with the vast diverse archeologically evidence of faunal and artifact remains, it suggests to some that people did live there for a long time not just occasionally. Hunter-gatherers were able to understand and use the land at a local and regional scale. This is demonstrated with the large amount of seal evidence in faunal collection in the terminal Pleistocene. Migration could have been an occurrence because of harsh weather and less agricultural resources which would lead them to find a location that produced more dietary supplements.

Although charcoal analysis proved faunal diversity, more research is needed to close gaps in charcoal records. Changing behavior, creating culture, and emergence of new systems need to still be studied in depth in order to gain a greater sense of the historical Elands Bay Cave community.

References

  1. Parkington, John (1988). "The Pleistocene/Holocene transition in the Western Cape, South Africa, observations from Verlorenvlei". BAR Int.
  2. Parkington, John (1988). "The Pleistocene/Holocene transition in the Western Cape, South Africa, observations from Verlorenvlei". BAR Int.
  3. Parkington, J., Cartwright, C., Cowling, R. M., Baxter, A., & Meadows, M (2000). "Palaeovegetation at the last glacial maximum in the Western Cape, South Africa: wood charcoal and pollen evidence from Elands Bay Cave". South African Journal of Science.
  4. Cowling, R., Cartwright, C., Parkington, J., & Allsopp, J. (1999). "Fossil wood charcoal assemblages from Elands Bay Cave, South Africa: implications for Late Quaternary vegetation and climates in the winter‐rainfall fynbos biome.". Journal of Biogeography.
  5. Cowling, R., Cartwright, C., Parkington, J., & Allsopp, J. (1999). "Fossil wood charcoal assemblages from Elands Bay Cave, South Africa: implications for Late Quaternary vegetation and climates in the winter‐rainfall fynbos biome.". Journal of Biogeography.
  6. Cowling, R., Cartwright, C., Parkington, J., & Allsopp, J. (1999). "Fossil wood charcoal assemblages from Elands Bay Cave, South Africa: implications for Late Quaternary vegetation and climates in the winter‐rainfall fynbos biome.". Journal of Biogeography.
  7. Klein, R. G., & Cruz-Uribe, K. (1987). "Large mammal and tortoise bones from Elands Bay Cave and nearby sites, western Cape Province, South Africa". Papers in the prehistory of the western Cape, South Africa.
  8. Klein, R. G., & Cruz-Uribe, K. (1987). "Large mammal and tortoise bones from Elands Bay Cave and nearby sites, western Cape Province, South Africa". Papers in the prehistory of the western Cape, South Africa.
  9. Parkington, J., Cartwright, C., Cowling, R. M., Baxter, A., & Meadows, M (2000). "Palaeovegetation at the last glacial maximum in the Western Cape, South Africa: wood charcoal and pollen evidence from Elands Bay Cave". South African Journal of Science.
  10. Matthews, Thalassa (1999). "Taphonomy and the Micromammals from Elands Bay Cave". The South African Archaeological Bulletin.
  11. Matthews, Thalassa (1999). "Taphonomy and the Micromammals from Elands Bay Cave". The South African Archaeological Bulletin.
  12. Poggenpoel, C. A. (1987). "The implications of fish bone assemblages from Eland's Bay Cave, Tortoise Cave and Diepkloof for changes in the Holocene history of Verlorenvlei". Papers in the Prehistory of the Western Cape, South Africa.
  13. Poggenpoel, C. A. (1987). "The implications of fish bone assemblages from Eland's Bay Cave, Tortoise Cave and Diepkloof for changes in the Holocene history of Verlorenvlei". Papers in the Prehistory of the Western Cape, South Africa.
  14. Cartwright, C., & Parkington, J (1997). "The wood charcoal assemblages from Elands Bay Cave, southwestern Cape: principles, procedures and preliminary interpretation". The South African Archaeological Bulletin.
  15. Cartwright, C., & Parkington, J (1997). "The wood charcoal assemblages from Elands Bay Cave, southwestern Cape: principles, procedures and preliminary interpretation". The South African Archaeological Bulletin.
  16. Woodborne, S., Hart, K., & Parkington, J. (1995). "Seal bones as indicators of the timing and duration of hunter-gatherer coastal visits". Journal of Archaeological Science.
  17. Orton, Jayson (2006). "The Later Stone Age lithic sequence at Elands Bay, Western Cape, South Africa: raw materials, artefacts and sporadic change". Southern African Humanities.
  18. Orton, Jayson (2006). "The Later Stone Age lithic sequence at Elands Bay, Western Cape, South Africa: raw materials, artefacts and sporadic change". Southern African Humanities.
  19. Orton, Jayson (2006). "The Later Stone Age lithic sequence at Elands Bay, Western Cape, South Africa: raw materials, artefacts and sporadic change". Southern African Humanities.
  20. Klein, R. G., & Cruz-Uribe, K (1987). "Large mammal and tortoise bones from Elands Bay Cave and nearby sites, western Cape Province, South Africa". Papers in the prehistory of the western Cape, South Africa.
  21. Klein, R. G., & Cruz-Uribe, K (1987). "Large mammal and tortoise bones from Elands Bay Cave and nearby sites, western Cape Province, South Africa". Papers in the prehistory of the western Cape, South Africa.
  22. Klein, R (2001). "Southern Africa and modern human origins". ournal of Anthropological Research.
  23. Klein, R. G., & Cruz-Uribe, K (1987). "Large mammal and tortoise bones from Elands Bay Cave and nearby sites, western Cape Province, South Africa". Papers in the prehistory of the western Cape, South Africa.
  24. Cowling, R., Cartwright, C., Parkington, J., & Allsopp, J. (1999). "Fossil wood charcoal assemblages from Elands Bay Cave, South Africa: implications for Late Quaternary vegetation and climates in the winter‐rainfall fynbos biome". Journal of Biogeography.
  25. Cowling, R., Cartwright, C., Parkington, J., & Allsopp, J. (1999). "Fossil wood charcoal assemblages from Elands Bay Cave, South Africa: implications for Late Quaternary vegetation and climates in the winter‐rainfall fynbos biome". Journal of Biogeography.
  26. Cowling, R., Cartwright, C., Parkington, J., & Allsopp, J. (1999). "Fossil wood charcoal assemblages from Elands Bay Cave, South Africa: implications for Late Quaternary vegetation and climates in the winter‐rainfall fynbos biome". Journal of Biogeography.
  27. Parkington, J., Cartwright, C., Cowling, R. M., Baxter, A., & Meadows, M (2000). "Palaeovegetation at the last glacial maximum in the Western Cape, South Africa: wood charcoal and pollen evidence from Elands Bay Cave". South African Journal of Science.
  28. Cowling, R., Cartwright, C., Parkington, J., & Allsopp, J. (1999). "Fossil wood charcoal assemblages from Elands Bay Cave, South Africa: implications for Late Quaternary vegetation and climates in the winter‐rainfall fynbos biome". Journal of Biogeography.
  29. Cowling, R., Cartwright, C., Parkington, J., & Allsopp, J. (1999). "Fossil wood charcoal assemblages from Elands Bay Cave, South Africa: implications for Late Quaternary vegetation and climates in the winter‐rainfall fynbos biome". Journal of Biogeography.
  30. Parkington, John (1976). "Coastal settlement between the mouths of the Berg and Olifants Rivers, Cape Province". The South African Archaeological Bulletin.
  31. Matthews, Thalassa (1999). "Taphonomy and the Micromammals from Elands Bay Cave". The South African Archaeological Bulletin.
  32. Klein, R. G., & Cruz-Uribe, K (1987). "Large mammal and tortoise bones from Elands Bay Cave and nearby sites, western Cape Province, South Africa". Papers in the prehistory of the western Cape, South Africa.
  33. Klein, R. G., & Cruz-Uribe, K (1987). "Large mammal and tortoise bones from Elands Bay Cave and nearby sites, western Cape Province, South Africa". Papers in the prehistory of the western Cape, South Africa.
  34. Matthews, Thalassa (1999). "Taphonomy and the Micromammals from Elands Bay Cave". The South African Archaeological Bulletin.
  35. Klein, R. G., & Cruz-Uribe, K (1987). "Large mammal and tortoise bones from Elands Bay Cave and nearby sites, western Cape Province, South Africa". Papers in the prehistory of the western Cape, South Africa.
  36. Klein, R. G., & Cruz-Uribe, K (1987). "Large mammal and tortoise bones from Elands Bay Cave and nearby sites, western Cape Province, South Africa". Papers in the prehistory of the western Cape, South Africa.
  37. Klein, R. G., & Cruz-Uribe, K (1987). "Large mammal and tortoise bones from Elands Bay Cave and nearby sites, western Cape Province, South Africa". Papers in the prehistory of the western Cape, South Africa.
  38. Klein, R. G., & Cruz-Uribe, K (1987). "Large mammal and tortoise bones from Elands Bay Cave and nearby sites, western Cape Province, South Africa". Papers in the prehistory of the western Cape, South Africa.
  39. Poggenpoel, C. A (1987). "The implications of fish bone assemblages from Eland's Bay Cave, Tortoise Cave and Diepkloof for changes in the Holocene history of Verlorenvlei". Papers in the Prehistory of the Western Cape, South Africa.
  40. Poggenpoel, C. A (1987). "The implications of fish bone assemblages from Eland's Bay Cave, Tortoise Cave and Diepkloof for changes in the Holocene history of Verlorenvlei". Papers in the Prehistory of the Western Cape, South Africa.
  41. Buchanan, W. F., Hall, S. L., Henderson, J., Olivier, A., Pettigrew, J. M., Parkington, J. E., & Robertshaw, P. T (1978). "Coastal shell middens in the Paternoster area, south-western Cape". The South African Archaeological Bulletin.
  42. Buchanan, W. F., Hall, S. L., Henderson, J., Olivier, A., Pettigrew, J. M., Parkington, J. E., & Robertshaw, P. T (1978). "Coastal shell middens in the Paternoster area, south-western Cape". The South African Archaeological Bulletin.
  43. Buchanan, W. F., Hall, S. L., Henderson, J., Olivier, A., Pettigrew, J. M., Parkington, J. E., & Robertshaw, P. T (1978). "Coastal shell middens in the Paternoster area, south-western Cape". The South African Archaeological Bulletin.
  44. Orton, Jayson (2006). "The Later Stone Age lithic sequence at Elands Bay, Western Cape, South Africa: raw materials, artefacts and sporadic change". Southern African Humanities.
  45. Bailey, G., & Parkington, J (1988). The archaeology of prehistoric coastlines. Great Britain: Cambridge University Press. ISBN 0 521 25036 6.

Parkington, John (1988). "The Pleistocene/Holocene transition in the Western Cape, South Africa, observations from Verlorenvlei". BAR Int.

Parkington, J., Cartwright, C., Cowling, R. M., Baxter, A., & Meadows, M. (2000). "Palaeovegetation at the last glacial maximum in the Western Cape, South Africa: wood charcoal and pollen evidence from Elands Bay Cave". South African Journal of Science.

Cowling, R., Cartwright, C., Parkington, J., & Allsopp, J. (1999). "Fossil wood charcoal assemblages from Elands Bay Cave, South Africa: implications for Late Quaternary vegetation and climates in the winter‐rainfall fynbos biome.". Journal of Biogeography.

Klein, R. G., & Cruz-Uribe, K. (1987). "Large mammal and tortoise bones from Elands Bay Cave and nearby sites, western Cape Province, South Africa". Papers in the prehistory of the western Cape, South Africa.

Matthews, Thalassa (1999). "Taphonomy and the Micromammals from Elands Bay Cave". The South African Archaeological Bulletin.

Poggenpoel, C. A. (1987). "The implications of fish bone assemblages from Eland's Bay Cave, Tortoise Cave and Diepkloof for changes in the Holocene history of Verlorenvlei". Papers in the Prehistory of the Western Cape, South Africa.

Cartwright, C., & Parkington, J. (1997). "The wood charcoal assemblages from Elands Bay Cave, southwestern Cape: principles, procedures and preliminary interpretation". The South African Archaeological Bulletin.

Woodborne, S., Hart, K., & Parkington, J. (1995). "Seal bones as indicators of the timing and duration of hunter-gatherer coastal visits". Journal of Archaeological Science.

Orton, Jayson (2006). "The Later Stone Age lithic sequence at Elands Bay, Western Cape, South Africa: raw materials, artefacts and sporadic change". Southern African Humanities.

Klein, R (2001). "Southern Africa and modern human origins". Journal of Anthropological Research.

Parkington, John (1976). "Coastal settlement between the mouths of the Berg and Olifants Rivers, Cape Province.". The South African Archaeological Bulletin.

Buchanan, W. F., Hall, S. L., Henderson, J., Olivier, A., Pettigrew, J. M., Parkington, J. E., & Robertshaw, P. T (1978). "Coastal shell middens in the Paternoster area, south-western Cape". The South African Archaeological Bulletin.

Bailey, G., & Parkington, J (1988). The archaeology of prehistoric coastlines. Great Britain: Cambridge University Press. ISBN 0 521 25036 6.

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