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2. The >250-kyr Lake Chala record : A tephrostratotype correlating archaeological, palaeoenvironmental and volcanic sequences across eastern Africa

Author

Martin-Jones, C., Lane, C.S., Blaauw, M., Mark, D.F., Verschuren, D., Van der Meeren, T., Van Daele, M., Wynton, H., Blegen, N., Kisaka, M., Leng, M.J., Barker, P., Martin-Jones, C., Lane, C.S., Blaauw, M., Mark, D.F., Verschuren, D., Van der Meeren, T., Van Daele, M., Wynton, H., Blegen, N., Kisaka, M., Leng, M.J., and Barker, P.

Abstract

Regional tephrostratigraphic frameworks connect palaeoclimate, archaeological and volcanological records preserved in soils or lake sediments via shared volcanic ash (tephra) layers. In eastern Africa, tracing of tephra isochrons between geoarchaeological sequences is an established chronostratigraphic approach. However, to date, few long tephra records exist from sites with continuous depositional sequences, such as lake sediments, which offer the potential to connect local and discontinuous sequences at the regional scale. Long lake sediment sequences may also capture more complete eruptive histories of understudied volcanic centres. Here, we present and date the tephrostratigraphic record of a >250,000-year (>250-kyr) continuous sediment sequence extracted from Lake Chala, a crater lake on the Kenya-Tanzania border near Mt Kilimanjaro. Single-grain glass major and minor element analyses of visible and six cryptotephra layers reveal compositions ranging from mafic foidites and basanites to more evolved tephri-phonolites, phonolites, trachytes and a single rhyolite. Of these, nine are correlated to scoria cone eruptions of neighbouring Mt Kilimanjaro or the Chyulu volcanic field ∼60 km to the north; seven are correlated to phonolitic eruptions of Mt Meru, ∼100 km to the west; and four to voluminous trachytic eruptions of Central Kenyan Rift (CKR) volcanoes located ∼350 km to the north. The only rhyolitic tephra layer, a cryptotephra, correlates to the 73.7-ka BP (before present, taken as 1950 CE) Younger Toba Tuff (YTT) from Sumatra. Two of the CKR tephra layers provide direct ties with terrestrial sequences relevant to Middle Stone Age archaeology of the eastern Lake Victoria basin in Kenya. Absolute age estimates obtained by direct 40Ar/39Ar dating of 10 tephra layers are combined with six 210Pb and 162 14C dates covering the last 25-kyr and the well-constrained known age of the YTT to build a first absolute chronology for the full Lake Chala sediment sequence. T

Published
2024

3. Revisiting afro-alpine Lake Garba Guracha in the Bale Mountains of Ethiopia: rationale, chronology, geochemistry, and paleoenvironmental implications

Author

Bittner, L., Bliedtner, M., Grady, D., Gil-Romera, G., Martin-Jones, C., Lemma, B., Mekonnen, B., Lamb, H. F., Yang, H., Glaser, B., Szidat, S., Salazar, G., Rose, N. L., Opgenoorth, L., Miehe, G., Zech, W., Zech, M., Heisenberg Chair of Physical Geography with Focus on Paleoenvironmental Research, Institute of Geography, Technical University of Dresden, Dresden, Germany, Department of Physical Geography, Institute of Geography, Friedrich-Schiller-University Jena, Jena, Germany, Department of Geography and Earth Sciences, Aberystwyth University, Aberystwyth, UK, Department of Geo-Environmental Processes and Global Change, CSIC, Pyrenean Institute of Ecology, Zaragoza, Spain, Limnology Unit, Department of Biology, Ghent University, Gent, Belgium, Institute of Agronomy and Nutritional Sciences, Soil Biogeochemistry, Martin-Luther-Universität Halle-Wittenberg, Halle, Germany, Environmental Change Research Centre, University College London, London, UK, Department of Chemistry and Biochemistry and Oeschger Centre for Climate Change Research, University of Bern, Bern, Switzerland, Department of Geography, University of Marburg, Marburg, Germany, Institute of Soil Science and Soil Geography, University of Bayreuth, Bayreuth, Germany, Bittner, L [0000-0003-2521-5596], Apollo - University of Cambridge Repository, and Bittner, L. [0000-0003-2521-5596]

Subjects
Radiocarbon dating, 010506 paleontology, 010504 meteorology & atmospheric sciences, Sedimentation rate, Aquatic Science, 01 natural sciences, law.invention, law, 540 Chemistry, Paleoclimatology, Afro-alpine, Sedimentary organic matter, Glacial period, Younger Dryas, Paleolimnology, Sedimentology, Holocene, 0105 earth and related environmental sciences, Earth-Surface Processes, Original Paper, ddc:551, XRF scanning, 570 Life sciences, biology, Physical geography, Geology, Biomarkers, Chronology
Abstract

Previous paleolimnological studies demonstrated that the sediments of Garba Guracha, situated at 3950 m asl in the afro-alpine zone of the Bale Mountains of Ethiopia, provide a complete Late Glacial and Holocene paleoclimate and environmental archive. We revisited Garba Guracha in order to retrieve new sediment cores and to apply new environmental proxies, e.g. charcoal, diatoms, biomarkers, and stable isotopes. Our chronology is established using 210Pb dating and radiocarbon dating of bulk sedimentary organic matter, bulk n-alkanes, and charcoal. Although bedrock was not reached during coring, basal ages confirm that sedimentation started at the earliest ~ 16 cal kyr BP. The absence of a systematic age offset for the n-alkanes suggests that “pre-aging” is not a prominent issue in this lake, which is characterised by a very small afro-alpine catchment. X-ray fluorescence scans and total organic carbon contents show a prominent transition from minerogenic to organic-rich sediments around 11 cal kyr BP coinciding with the Holocene onset. While an unambiguous terrestrial versus aquatic source identification seems challenging, the n-alkane-based Paq proxy, TOC/N ratios, δ13C values, and the sugar biomarker patterns suggest a predominantly autochthonous organic matter source. Supraregional climate events, such as the African Humid Period, the Younger Dryas (YD), a 6.5 cal kyr BP short drying event, and the 4.2 cal kyr BP transition to overall drier climate are recorded in our archive. The Garba Guracha record suggests that northern hemisphere forcings played a role in the Eastern African highland paleoclimate., Deutsche Forschungsgemeinschaft http://dx.doi.org/10.13039/501100001659

Published
2020
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4. Revisiting afro-alpine Lake Garba Guracha in the Bale Mountains of Ethiopia: rationale, chronology, geochemistry, and paleoenvironmental implications

Author

Bittner, L., primary, Bliedtner, M., additional, Grady, D., additional, Gil-Romera, G., additional, Martin-Jones, C., additional, Lemma, B., additional, Mekonnen, B., additional, Lamb, H. F., additional, Yang, H., additional, Glaser, B., additional, Szidat, S., additional, Salazar, G., additional, Rose, N. L., additional, Opgenoorth, L., additional, Miehe, G., additional, Zech, W., additional, and Zech, M., additional

Published
2020
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5. History of scoria-cone eruptions on the eastern shoulder of the Kenya–Tanzania Rift revealed in the 250-ka sediment record of Lake Chala near Mount Kilimanjaro

Author

Martin-Jones, C., Lane, C., Van Daele, M., Meeren, T.V.D., Wolff, C., Moorhouse, H., Tomlinson, E., Verschuren, D., Martin-Jones, C., Lane, C., Van Daele, M., Meeren, T.V.D., Wolff, C., Moorhouse, H., Tomlinson, E., and Verschuren, D.

Abstract

Reconstructions of the timing and frequency of past eruptions are important to assess the propensity for future volcanic activity, yet in volcanic areas such as the East African Rift only piecemeal eruption histories exist. Understanding the volcanic history of scoria-cone fields, where eruptions are often infrequent and deposits strongly weathered, is particularly challenging. Here we reconstruct a history of volcanism from scoria cones situated along the eastern shoulders of the Kenya-Tanzania Rift, using a sequence of tephra (volcanic ash) layers preserved in the similar to 250-ka sediment record of Lake Chala near Mount Kilimanjaro. Seven visible and two non-visible (crypto-) tephra layers in the Lake Chala sequence are attributed to activity from the Mt Kilimanjaro (northern Tanzania) and the Chyulu Hills (southern Kenya) volcanic fields, on the basis of their glass chemistry, textural characteristics and known eruption chronology. The Lake Chala record of eruptions from scoria cones in the Chyulu Hills volcanic field confirms geological and historical evidence of its recent activity, and provides first-order age estimates for seven previously unknown eruptions. Long and well-resolved sedimentary records such as that of Lake Chala have significant potential for resolving regional eruption chronologies spanning hundreds of thousands of years.

Published
2020

6. Glass compositions and tempo of post-17 ka eruptions from the Afar Triangle recorded in sediments from lakes Ashenge and Hayk, Ethiopia

Author

Martin-Jones, C. M., Lane, C. S., Pearce, N. J. G., Smith, V. C., Lamb, H. F., Oppenheimer, C., Asrat, A., Schaebitz, F., Martin-Jones, C. M., Lane, C. S., Pearce, N. J. G., Smith, V. C., Lamb, H. F., Oppenheimer, C., Asrat, A., and Schaebitz, F.

Abstract

Numerous volcanoes in the Afar Triangle and adjacent Ethiopian Rift Valley have erupted during the Quaternary, depositing volcanic ash (tephra) horizons that have provided crucial chronology for archaeological sites in eastern Africa. However, late Pleistocene and Holocene tephras have hitherto been largely unstudied and the more recent volcanic history of Ethiopia remains poorly constrained. Here, we use sediments from lakes Ashenge and Hayk (Ethiopian Highlands) to construct the first <17 cal ka BP tephrostratigraphy for the Afar Triangle. The tephra record reveals 21 visible and crypto-tephra layers, and our new database of major and trace element glass compositions will aid the future identification of these tephra layers from proximal to distal locations. Tephra compositions include comendites, pan-tellerites and minor peraluminous and metaluminous rhyolites. Variable and distinct glass compositions of the tephra layers indicate they may have been erupted from as many as seven volcanoes, most likely located in the Afar Triangle. Between 15.3-1.6 cal. ka BP, explosive eruptions occurred at a return period of <1000 years. The majority of tephras are dated at 7.5-1.6 cal. ka BP, possibly reflecting a peak in regional volcanic activity. These findings demonstrate the potential and necessity for further study to construct a comprehensive tephra framework. Such tephrostratigraphic work will support the understanding of volcanic hazards in this rapidly developing region. (C) 2016 The Authors. Published by Elsevier B.V.

Published
2017

7. Reprint of Glass compositions and tempo of post-17 ka eruptions from the Afar Triangle recorded in sediments from lakes Ashenge and Hayk, Ethiopia

Author

Martin-Jones, C. M., Lane, C. S., Pearce, N. G., Smith, V. C., Lamb, H. F., Oppenheimer, C., Asrat, A., Schaebitz, F., Martin-Jones, C. M., Lane, C. S., Pearce, N. G., Smith, V. C., Lamb, H. F., Oppenheimer, C., Asrat, A., and Schaebitz, F.

Abstract

Numerous volcanoes in the Afar Triangle and adjacent Ethiopian Rift Valley have erupted during the Quaternary, depositing volcanic ash (tephra) horizons that have provided crucial chronology for archaeological sites in eastern Africa. However, late Pleistocene and Holocene tephras have hitherto been largely unstudied and the more recent volcanic history of Ethiopia remains poorly constrained. Here, we use sediments from lakes Ashenge and Hayk (Ethiopian Highlands) to construct the first <17 cal ka BP tephrostratigraphy for the Afar Triangle. The tephra record reveals 21 visible and crypto-tephra layers, and our new database of major and trace element glass compositions will aid the future identification of these tephra layers from proximal to distal locations. Tephra compositions include comendites, pantellerites and minor peraluminous and metaluminous rhyolites. Variable and distinct glass compositions of the tephra layers indicate they may have been erupted from as many as seven volcanoes, most likely located in the Afar Triangle. Between 15.3-1.6 cal. ka BP, explosive eruptions occurred at a return period of <1000 years. The majority of tephras are dated at 7.5-1.6 cal. ka BP, possibly reflecting a peak in regional volcanic activity. These findings demonstrate the potential and necessity for further study to construct a comprehensive tephra framework. Such tephrostratigraphic work will support the understanding of volcanic hazards in this rapidly developing region. (C) 2016 The Author(s). Published by Elsevier B.V.

Published
2017

10. History of scoria-cone eruptions on the eastern shoulder of the Kenya-Tanzania Rift revealed in the 250-ka sediment record of Lake Chala near Mount Kilimanjaro

Author

Emma L. Tomlinson, Maarten Van Daele, Catherine Martin-Jones, Christian Wolff, Heather Moorhouse, Christine Lane, Dirk Verschuren, Thijs Van der Meeren, Martin-Jones, C [0000-0003-1823-9784], and Apollo - University of Cambridge Repository

Subjects
010506 paleontology, Cinder cone, TEPHRA, CHYULU HILLS, 010502 geochemistry & geophysics, 01 natural sciences, Mount, Chyulu Hills volcanic field, Paleontology, Arts and Humanities (miscellaneous), KAPTHURIN, East African Rift, Earth and Planetary Sciences (miscellaneous), KA, Tephra, tephrochronology, 0105 earth and related environmental sciences, CHEMICAL CLASSIFICATION, geography, Rift, geography.geographical_feature_category, Mount Kilimanjaro volcanic field, Biology and Life Sciences, FORMATION, EVOLUTION, Kilimanjaro volcanic field, Lake Chala, Volcano, Earth and Environmental Sciences, MONOGENETIC VOLCANIC FIELD, Scoria, Tephrochronology, MIDDLE STONE-AGE, AFRICAN RIFT, GEOCHEMISTRY, Geology, Volcanic ash, tephra glass geochemistry
Abstract

Reconstructions of the timing and frequency of past eruptions are important to assess the propensity for future volcanic activity, yet in volcanic areas such as the East African Rift only piecemeal eruption histories exist. Understanding the volcanic history of scoria-cone fields, where eruptions are often infrequent and deposits strongly weathered, is particularly challenging. Here we reconstruct a history of volcanism from scoria cones situated along the eastern shoulders of the Kenya-Tanzania Rift, using a sequence of tephra (volcanic ash) layers preserved in the similar to 250-ka sediment record of Lake Chala near Mount Kilimanjaro. Seven visible and two non-visible (crypto-) tephra layers in the Lake Chala sequence are attributed to activity from the Mt Kilimanjaro (northern Tanzania) and the Chyulu Hills (southern Kenya) volcanic fields, on the basis of their glass chemistry, textural characteristics and known eruption chronology. The Lake Chala record of eruptions from scoria cones in the Chyulu Hills volcanic field confirms geological and historical evidence of its recent activity, and provides first-order age estimates for seven previously unknown eruptions. Long and well-resolved sedimentary records such as that of Lake Chala have significant potential for resolving regional eruption chronologies spanning hundreds of thousands of years.

Published
2020

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