Throughout history, communicable diseases have impacted humanity. If present experiences are any indication, diseases must have had significant impact on transforming the economic and social organization of past communities. Some aspects of what is regarded as normal modern human behavior must have emanated from responses to diseases, especially epidemics and pandemics. Unfortunately, few studies have been conducted in this area of archaeological investigations to shed more light on the influence of these on past communities. This is more so in African countries such as Zimbabwe where the history of pandemics stretches only as far as the beginning of colonialism, less than 200 years ago. Although the earliest world epidemic was recorded during the 5th century, it was not until 1918 that Zimbabwe recorded the first incidence of a worldwide epidemic. There is little knowledge on how precolonial communities were affected by global pandemics such as Black Death, the bubonic plague, and similar occurrences. It has to be noted that global pandemics became more threatening as society made the shift to agrarian life around 10,000 years ago. This has led many scholars to regard the adoption of agriculture as the worst mistake in the history of the human race as they argue that the creation of more closely connected communities gave rise to infectious diseases and presented these diseases with the chance to grow into epidemics. Diseases such as influenza, smallpox, leprosy, malaria, and tuberculosis are among those that have thrived since this shift. With its long human history, Africa is well positioned to shed light on the occurrence of global pandemics as well as their distinct impact on communities living in diverse social, economic, and natural environments. As such, it is important to explore the study of diseases, especially epidemics and global pandemics, to augment the worldwide knowledge generated from other continents. This knowledge should also be juxtaposed with what is already known about changing social, economic, and political developments to see the potential impacts that these pandemics had on the human past. The history of migration should be viewed as a potential history of the spread of new diseases. For all the known pandemics, the South African coast has served as the major corridor of transmission of disease pandemics into Zimbabwe. However, archaeologically, it is known that migrations were mostly over land from the northern and eastern regions. It is interesting to delve into how the spread of diseases could have differed when the movements of people over land, rather than coastal ports, are the nodes. Since there are few documentary sources to help in the comprehension of past outbreaks in the precolonial period, archaeological evidence becomes key. Without doubt, human skeletons represent the most ubiquitous source of information on ancient diseases. Zimbabwe has remains that stretch from the Stone Age to historical times. Paleopathology is an underdeveloped discipline in southern Africa, but with increased awareness of the possibilities of the presence of various diseases in prehistory, it is expected to grow.
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The Archaeology and History of Human Diseases in the Zimbabwean Past
Pauline Chiripanhura, Ancila Katsamudanga, and Justen Manasa
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History and Bioarchaeology
Alanna L. Warner-Smith and Shannon A. Novak
Within the history of bioarchaeology, “history” has often been associated with descriptive or typological studies and pitted against “scientific” approaches. Even with this dichotomy, however, bioarchaeologists engage with myriad notions of history to categorize sites and assemblages; to define research foci, research questions, and scales of analysis; and to outline the impact of research. “History” may be used to divide time (and sub-disciplines), separating prehistory from history and placing them under the purview of different specialists. In some instances, bioarchaeologists view the role of bioarchaeological data as contributing to historical research questions and debates within historiography, although this is often dismissed as making bioarchaeology play a “handmaiden” role to history. In other instances, “history” is taken to mean human history in deep time, and bioarchaeologists engage skeletal data comparatively to understand changes across broader geographic and temporal scales, such as transitions to different subsistence or economic practices, urbanization, or “contact” and colonialism. With a focus on the body, however, bioarchaeologists are also well positioned to examine lived experiences across the life course. Moving between scales of analysis, bioarchaeologists keep in view human action and agency and interrogate the ways that human action both shapes and is shaped by broader economic, political, and social structures. In this view, individuals do not passively experience “history” but are active agents in broader change.
Historical bioarchaeology, which tends to be defined as the study of remains from sites and assemblages dating to post-1500 ce, includes both comparative population approaches and those that focus on individuals. These studies bring together various archival, skeletal, and archaeological datasets to refine research methods and/or to uncover biases and limitations of evidence. These datasets are also integrated to generate research questions and insights that could not emerge from any single dataset alone. Increasingly, bioarchaeologists are considering the ethics of research, curation, and stewardship of human remains. The integration of datasets to recover the lived experiences of persons curated in collections has been suggested as one way that bioarchaeologists can contribute to the ongoing debates and policy developments surrounding ethical research and stewardship of human remains.
Article
The OsteoDontoKeratic Culture
Patrick Randolph-Quinney and Anthony Sinclair
The Osteodontokeratic (ODK for short) is a technological and cultural hypothesis first proposed by Raymond A. Dart in 1957, based on fossils recovered from the South African cave site of Makapansgat. Dart proposed that the extinct hominin species Australopithecus prometheus were predatory, cannibalistic meat eaters, and specialized hunters. He suggested that they manufactured and used a toolkit based on the bones (osteo), teeth (donto), and horns (keratic) of prey animals, and that these first tools were evidence for the “predatory transition from ape to man” as a distinct stage in human evolutionary development.
Dart based his hypothesis on the analysis of bones of fossil ungulates and other prey species found at Makapansgat. The parts of the skeleton recovered from the cave were biased toward the skull and limb bones, whilst the thorax, pelvis, and tail were largely absent, indicating a selection agent at work. The bones also exhibited evidence of damage, which Dart suggested could only have been caused by intentional violence. Many of the bones were blackened, which he suggested was due to burning or charring in a controlled fire. In his mind, the hominins of Makapansgat were prodigious hunters who used organic tools to kill their prey, whereupon they cooked and ate the meat, discarding waste bone but utilizing some of the skeletal material to make new tools. Dart developed a detailed typology of complete or modified bones that he indicated could be used as clubs, projectiles, daggers, picks, saws, scoops, and cups—in doing so, he confused form with function.
Dart and the ODK were championed by the American playwright Robert Ardrey across four hugely successful popular science books starting with African Genesis in 1961. Following Dart, these books portrayed our early ancestors as aggressive hunters killing prey and each other, driven by a need to protect their territory. This concept infiltrated popular culture through the opening sequence of Stanley Kubrick’s 2001: A Space Odyssey released in 1968, making the ODK perhaps the most famous scientific claim for an original form of human technology.
Dart’s hypothesis was not widely accepted by contemporary scientists such as Kenneth Oakley, Sherburn Washburn, John Robinson, and C. K. “Bob” Brain, and led Brain to conduct his own field research on the agents of fossil accumulation and site formation processes in South Africa. Brain later demonstrated that the pattern of bone damage and skeletal part representation recorded by Dart at Makapansgat was the result of nonhuman modification, particularly accumulation and dietary processing of ungulate carcasses by large carnivores such as leopard or hyena. Furthermore, the blackening of bone was caused by manganese mineral staining. In testing and falsifying the ODK hypothesis, Brain and fellow researchers laid the experimental groundwork for the discipline of vertebrate taphonomy (the laws of burial and postmortem processes) which is now a cornerstone in paleolithic archaeology and the study of early human origins. It is debatable whether this scientific specialism would exist in its present form without Dart’s claims for the ODK.