Isimila Stone Age Site
Isimila Stone Age Site is a prehistoric site located approximately 16 km south of Iringa town within the Iringa region in the Southern Highlands of Tanzania. The site harbors a significant manifestation of the Middle Pleistocene archaeological assemblage of Acheulean stone tools, including handaxes, cleavers, picks, scrapers, and cores. The Isimila archaeological site is positioned at ca. 1650 meters above sea level, and it is dated around 500 kya, with the lowest Lukingi member deposited between 500 kya and 900 kya. Its discovery in 1951 was a stroke of luck, as an amateur archaeologist serendipitously observed the first stone artifact and animal bones. The site is known for its dramatic landscape of eroded sandstone pillars and canyons, features recognized by Tanganyika colonial administrators and geographers since the 1920s as caused by rapid soil erosion. Since 1957, Isimila has been gazetted as a reserved area under The Monument Preservation Ordinance of Tanganyika. Isimila was the first site recognized as a national historic site under the Antiquities Act of 1964.
Discovery and research
D.A. McCleman, a South African amateur archaeologist from St Peters School of Johannesburg, made the initial discovery of the Isimila Prehistoric Site on May 2, 1951, while traveling with his friend by road from Nairobi to Johannesburg. The initial collection was then donated to the South African Archaeological Survey, including seventeen hand axes, seven cleavers, one small Levallois core, and one backed blade. The collection was described and reported by Prof Van Riet Lowe of the South African Archaeological Survey. He further informed Dr. Louis Leakey about the discovery for future research consideration. Shortly after, the report impressed Prof Clark Howell from Washington University in St. Louis, who set to visit the site in September 1954 with the information provided by Prof Van Riet Lowe . Howell's brief site visit enabled him to establish a rough sketch of the site, stratigraphic illustrations, and collected surface-exposed artifacts, including 90 handaxes, 50 cleavers, and several retouched flakes and cores.The Isimila prehistoric site became widely known to the scientific community through extensive excavations by the University of Chicago scholars during the 1957-58 field seasons. These excavations revealed a sequence of Pleistocene deposits and a rich collection of Acheulean artifacts, which were subsequently published in various scientific journals and reports. The findings from these excavations were instrumental in highlighting the importance of Isimila as a key site for understanding the technological and cultural developments of early humans in East Africa. The Isimila prehistoric site has been actively excavated until 2017. Its research relevance has persisted until today for its conservation status and sustainability, faunal composition, geology, and stone tools technologies.
Geology and chronology
The Isimila site is predominantly characterized by Precambrian crystalline rock. This rock's nature and distribution are closely associated with the archaeological stratigraphic deposits at Isimila . The rock is a metamorphic type identified as typical bedrock from the Palaeoproterozoic Usagaran domain. The rock is composed of a wide variety that early humans at Isimila used for stone tool making, such as granite, amphibolite, pegmatites, dyke rocks, quartz, and quartzite. The Isimilar geomorphology and geological compositions formed gradually at the beginning of the Pleistocene with the influence of tectonic movements and climatic change. Tectonic activities, including faulting and tilting of landmasses spanning at a local scale, played a significant role in Isimila's formation during the early Pleistocene. These geological transformations corresponded to substantial climatic changes that affected the landscape and vegetation, where the dry and wet climates influenced erosion and sediment deposition manifested in archaeological records. The geologic forces created topographical features and exposed geological formations suitable for early hominins' raw materials procurement for tool making and habitation. The climate influenced the shift in rainfall and increased seasonality, whereas, the tectonic activities and erosions influenced the formation of new soil that transformed dense vegetation into bushland vegetation during the middle Pleistocene. This vegetation became suitable for inhabiting large mammals and hominins at the Isimila site.The geological sequence at the site measures approximately 18 meters in thickness, exposed along the interconnected Northern and Southern branches of the Isimila stream, which flows westward into the Kipolwi River, a tributary of the Little Ruaha. The site is notable for its extensive silty-clay deposits dominated by fine to medium-grained clastic materials in light brown, gray, pale yellow, and pale olive colors, called the Isimila Formation . The Isimila Formation was initially divided into five stratigraphic units named sand 1-5. Further, the formations were divided into two primary members:
Lisalamagasi Member: This member includes previously classified Sands 1 and 2. The geologic formation features a complex sedimentary structure characterized by the repetitive layering of silt, silty clay, and clay deposits. This geological unity is characterized by the juxtaposition of large cutting tools and natural cobbles that indicate strong periods of erosion during this occupational window. This sequence has been recently dated using optically stimulated luminescence methods, enabling precise dating of this stratigraphic sequence and establishing its depositional age from approximately 400 kya to 500 kya. The Lisalamagasi horizon correlates geologically and archaeologically with the Kalambo Falls Prehistoric Site in Zambia. Further, refined dates with faunal correlation have been assigned this layer's deposition to a dating range of approximately 500 kya to 300 kya, indicating its correlation to Olorgasaillie's lower Oltulelei Formations. The chronology of this layer and its correlation to similar archaeological sites in Eastern Africa enriches a corroborative understanding of the cultural and environmental dynamics that shaped human behavior during this period.
Lukingi Member: This member includes previously referred to as Sand 3, 4, and 5 units. The archaeological remains in this layer exhibit earlier developmental stages of tool-making, differing from the more advanced stages of the Lisalamagasi formation. Diverse sediment types, including sandstone, silty clay, mbuga, and sand-clay, characterize the Lukingi member. The results of the biostratigraphic comparison indicated that the patterns of faunal extinctions recovered from Isimila Sand 4 are comparable to Oldupai Gorge Bed IV and Olorgesailie successions, which were dated to around 600 kya to 700 kya. The recent dating has been obtained through Electron Spin resonance on faunal remains and sediment at Isimila for Sands 3 and 4, indicating the deposition dates for this member ranging between 500 kya and 900 kya, spanning the later Early Pleistocene to the early Middle Pleistocene. The Lukingi horizon chronology correlates with the Olorgesailie formation < 8–10/11.
Stone tools assemblage
The Isimila prehistoric site is renowned for its rich collection of Acheulean stone tools. Isimila was considered in determining the compositions of typical Acheulean assemblages in East Africa. The Lisamagalasi formation at Isimila indicates that the upper part of the stratigraphic unity was intensively occupied compared to the lower level, which suggests occasional occupations in the temporal span or transitional level. The predominant tool types are large cutting tools, including cleavers, handaxes, and picks. Few knives and a low proportion of core scrapers have been reported from this level. The Acheulean large cutting tools are finely made and well-refined, indicating the improvement of knapping skills from the older Lukingi layers. Handaxe morphologies are predominantly ovate and long-ovate, characterized by advanced edge modifications for trimming, straightness, and symmetry. The raw materials of the stone tools in the Lisamagalasi formation are distinctive according to the tool types, where the large cutting tools are predominantly made from mylonite and granite. In contrast, small-sized flakes are made from quartz and quartzite.An abundance of various tool types characterizes the Lukingi formation. The upper level of this formation is characterized by abundant cleavers exceeding any other levels at the Isimila formation with various morphologies, including parallel-sided, convergent, and divergent. Other than cleavers, the most common tools in the upper level of this formation comprise handaxes, knives, and heavy-duty scrapers. The middle level of this formation is characterized by small and core tools made from quartz with few LCTs, such as cleaves, handaxes, scrapers, picks, choppers, and discoids. The lowermost levels of Lukingi formation have yielded abundant small to medium-sized flakes, cores, choppers, debitage, and sporadic proto-bifaces. The interpretation of this occurrence suggested the pre-paleolake occupations at Isimila.
As in many other East African Acheulean occupations, the Acheulean stone tools assemblage of Isimila was recognized as belonging to three main categories. The first category is the traditional Acheulean, which predominantly consists of > 60 % of Large Cutting Tools, including cleavers, handaxes, picks, and knives, as seen from the upper level of Lukingi formation to the upper of Isimila formation. The second category consists of seemingly equivalent proportions of the LCTs and the small flaked tools and cores, whereas at Isimila, small tools predominate of the assemblage in the middle of Lukingi formation. The third category comprises the assemblage minus the LCTs and is mainly represented by small flakes, as evident in the lowermost level of Lukingi formation. These variations are widely recognized in many Acheulean assemblages worldwide. The variation of Acheulean tools and raw materials types potentially signifies different ecological adjustments related to resource procurement regarding subsistence and technology.