53 results on '"Annett Junginger"'
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2. Lake-Level Changes and Their Paleo-Climatic Implications at the MIS12 Lower Paleolithic (Middle Pleistocene) Site Marathousa 1, Greece
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Ines J. E. Bludau, Penelope Papadopoulou, George Iliopoulos, Max Weiss, Ellen Schnabel, Nicholas Thompson, Vangelis Tourloukis, Charlotte Zachow, Styliani Kyrikou, George E. Konidaris, Panagiotis Karkanas, Eleni Panagopoulou, Katerina Harvati, and Annett Junginger
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Megalopolis ,lignite ,XRF ,Mediterranean ,paleo-lakes ,ostracods ,Science - Abstract
Lithics and cut-marked mammal bones, excavated from the paleo-lake Marathousa 1 (MAR-1) sediments in the Megalopolis Basin, southern Greece, indicate traces of hominin activity occurring along a paleo-shoreline ca. 444,000 years (444 ka) ago. However, the local environment and climatic conditions promoting hominin activity in the area during the MIS12 glacial remain largely unknown. In order to reconstruct the paleo-environment including paleo-lake levels and governing paleo-climatic factors on a high temporal resolution, we analyzed a 6-meter-long sediment sequence from the archeological site MAR-1 and a Bayesian age model was computed for a better age constrain of the different sedimentary units. A multiproxy approach was applied using ostracods, sponge spicules, diatoms, grain sizes, total organic carbon, total inorganic carbon and conventional X-ray fluorescence analysis. The results from the site represent a protected region surrounded by high mountains under the constant influence of water, either as a shallow partly anoxic water body surrounded by reed belts (>463–457 ka,
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- 2021
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3. Modern Sedimentation and Authigenic Mineral Formation in the Chew Bahir Basin, Southern Ethiopia: Implications for Interpretation of Late Quaternary Paleoclimate Records
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Daniel Gebregiorgis, Daniel M. Deocampo, Verena Foerster, Fred J. Longstaffe, Jeremy S. Delaney, Frank Schaebitz, Annett Junginger, Monika Markowska, Stephan Opitz, Martin H. Trauth, Henry F. Lamb, and Asfawossen Asrat
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oxygen isotopes in authegenic clay minerals ,X-ray core scanning ,paleoclimate proxy formation and interpretation ,whole-rock and clay mineralogy ,geochemical modeling ,the Chew Bahir K record ,Science - Abstract
We present new mineralogical and geochemical data from modern sediments in the Chew Bahir basin and catchment, Ethiopia. Our goal is to better understand the role of modern sedimentary processes in chemical proxy formation in the Chew Bahir paleolake, a newly investigated paleoclimatic archive, to provide environmental context for human evolution and dispersal. Modern sediment outside the currently dry playa lake floor have higher SiO2 and Al2O3 (50–70 wt.%) content compared to mudflat samples. On average, mudflat sediment samples are enriched in elements such as Mg, Ca, Ce, Nd, and Na, indicating possible enrichment during chemical weathering (e.g., clay formation). Thermodynamic modeling of evaporating water in upstream Lake Chamo is shown to produce an authigenic mineral assemblage of calcite, analcime, and Mg-enriched authigenic illitic clay minerals, consistent with the prevalence of environments of enhanced evaporative concentration in the Chew Bahir basin. A comparison with samples from the sediment cores of Chew Bahir based on whole-rock MgO/Al2O3, Ba/Sr and authigenic clay mineral δ18O values shows the following: modern sediments deposited in the saline mudflats of the Chew Bahir dried out lake bed resemble paleosediments deposited during dry periods, such as during times of the Last Glacial Maximum and Younger Dryas stadial. Sediments from modern detrital upstream sources are more similar to sediments deposited during wetter periods, such as the early Holocene African Humid Period.
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- 2021
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4. Determining the Pace and Magnitude of Lake Level Changes in Southern Ethiopia Over the Last 20,000 Years Using Lake Balance Modeling and SEBAL
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Markus L. Fischer, Monika Markowska, Felix Bachofer, Verena E. Foerster, Asfawossen Asrat, Christoph Zielhofer, Martin H. Trauth, and Annett Junginger
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African humid period ,precipitation changes ,abrupt and gradual changes ,Chew Bahir ,Lake Abaya ,Lake Chamo ,Science - Abstract
The Ethiopian rift is known for its diverse landscape, ranging from arid and semi-arid savannahs to high and humid mountainous regions. Lacustrine sediments and paleo-shorelines indicate water availability fluctuated dramatically from deep fresh water lakes, to shallow highly alkaline lakes, to completely desiccated lakes. To investigate the role lakes have played through time as readily available water sources to humans, an enhanced knowledge of the pace, character and magnitude of these changes is essential. Hydro-balance models are used to calculate paleo-precipitation rates and the potential pace of lake level changes. However, previous models did not consider changes in hydrological connectivity during humid periods in the rift system, which may have led to an overestimation of paleo-precipitation rates. Here we present a comprehensive hydro-balance modeling approach that simulates multiple rift lakes from the southern Ethiopian Rift (lakes Abaya, Chamo, and paleo-lake Chew Bahir) simultaneously, considering their temporal hydrological connectivity during high stands of the African Humid Period (AHP, ~15–5 ka). We further used the Surface Energy Balance Algorithm for Land (SEBAL) to calculate the evaporation of paleo-lake Chew Bahir's catchment. We also considered the possibility of an additional rainy season during the AHP as previously suggested by numerous studies. The results suggest that an increase in precipitation of 20–30% throughout the southern Ethiopian Rift is necessary to fill paleo-lake Chew Bahir to its overflow level. Furthermore, it was demonstrated that paleo-lake Chew Bahir was highly dependent on the water supply from the upper lakes Abaya and Chamo and dries out within ~40 years if the hydrological connection is cut off and the precipitation amount decreases to present day conditions. Several of such rapid lake level fluctuations, from a freshwater to a saline lake, might have occurred during the termination of the AHP, when humid conditions were less stable. Fast changes in fresh water availability requires high adaptability for humans living in the area and might have exerted severe environmental stress on humans in a sub-generational timescale.
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- 2020
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5. A Phytolith Supported Biosphere-Hydrosphere Predictive Model for Southern Ethiopia: Insights into Paleoenvironmental Changes and Human Landscape Preferences since the Last Glacial Maximum
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Markus L. Fischer, Felix Bachofer, Chad L. Yost, Ines J. E. Bludau, Christian Schepers, Verena Foerster, Henry Lamb, Frank Schäbitz, Asfawossen Asrat, Martin H. Trauth, and Annett Junginger
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predictive vegetation model ,boosted regression trees ,lake balance model ,East African rift system ,Ethiopia ,Chew Bahir ,Geology ,QE1-996.5 - Abstract
During the past 25 ka, southern Ethiopia has undergone tremendous climatic changes, from dry and relatively cold during the Last Glacial Maximum (LGM, 25–18 ka) to the African Humid Period (AHP, 15–5 ka), and back to present-day dry conditions. As a contribution to better understand the effects of climate change on vegetation and lakes, we here present a new Predictive Vegetation Model that is linked with a Lake Balance Model and available vegetation-proxy records from southern Ethiopia including a new phytolith record from the Chew Bahir basin. We constructed a detailed paleo-landcover map of southern Ethiopia during the LGM, AHP (with and without influence of the Congo Air Boundary) and the modern-day potential natural landcover. Compared to today, we observe a 15–20% reduction in moisture availability during the LGM with widespread open landscapes and only few remaining forest refugia. We identify 25–40% increased moisture availability during the AHP with prevailing forests in the mid-altitudes and indications that modern anthropogenic landcover change has affected the water balance. In comparison with existing archaeological records, we find that human occupations tend to correspond with open landscapes during the late Pleistocene and Holocene in southern Ethiopia.
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- 2021
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6. Hydrochemistry and Diatom Assemblages on the Humpata Plateau, Southwestern Angola
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Elena Robakiewicz, Daniela de Matos, Jeffery R. Stone, and Annett Junginger
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water quality ,conductivity ,algae ,pH ,Geology ,QE1-996.5 - Abstract
Diatoms, a common siliceous alga, are effective paleoclimate and pollution indicators. They have been used in northern, eastern, and southern Africa as such because of well-documented ecologies of many taxa. In southwestern Africa, however, the country of Angola lacks similar modern assemblage studies. To close this gap, modern diatoms were sampled across four water bodies on the Humpata Plateau in southwestern Angola in the dry season of July 2019, with in-situ measurements of pH, conductivity, and total dissolved solids and laboratory analysis of cations and anions. This research concludes that bedrock determines local hydrochemistry. In addition, this exploratory study finds that diatoms in southwestern Angola can infer relative conductivities and trophic levels, but limited data hinder interpretations of diatom ecological preferences of pH, temperature, alkalinity, ions, and pollution, requiring further analyses. Such research is beneficial for both African diatomists interested in using accurate transfer functions across Africa to reconstruct paleoclimates as well as local communities and hydrologists interested in understanding water chemistry and pollution, given that these studied sites are vital water resources for local communities on the Humpata Plateau.
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- 2021
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7. Variable Hydroclimate in the Suguta-Turkana Valley, Kenya during the Early Middle-Pleistocene Transition
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Elena Robakiewicz, R. Bernhardt Owen, Alan Deino, Martin Trauth, and Annett Junginger
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The Early Mid-Pleistocene Transition (EMPT) between 1,200–700 ka represents a major global climate transition from dominantly 41,000-year to 100,000-year glacial cycles. The forces and mechanisms behind this transition, and the response of African environments, is not well understood. The active volcanism and tectonics of the East African Rift System (EARS) add complexity to environmental systems and can erase important proxy records, inhibiting studies of lacustrine dynamics. As a result, there is minimal understanding of how this transition impacted the region’s lake systems, with implications for hominin migration. At paleolake Suguta in the northern Kenya Rift, however, flood basalts cap lacustrine EMPT-aged deposits and help preserve these strata and their valuable paleoenvironmental record. This research presents a high-resolution reconstruction of hydrological change from approximately 930 to 830 ka during the EMPT at the Suguta-Turkana Valley in the northern Kenya Rift. Paleolake dynamics are reconstructed from a 41 m sedimentary section using diatom morphology, sedimentology, and x-ray fluorescence analysis. Lake levels varied during the EMPT, particularly from ~885–830 ka, ranging from deep stratified lakes, shallow, well-mixed lakes, and complete desiccation. This record identifies hydroclimate variability at several thousand year-resolution within the Suguta-Turkana Valley during the EMPT, illuminating a period where generally little is known about terrestrial environmental change.
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- 2023
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8. Pleistocene climatic variability in eastern Africa influenced hominin evolution: the 620,000-year climate record from Chew Bahir
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Verena Foerster, Asfawossen Asrat, Christopher Bronk Ramsey, Erik T. Brown, Alan Deino, Matthew Grove, Annette Hahn, Annett Junginger, Stephanie Kaboth-Bahr, Christine S. Lane, Stephan Opitz, Anders Noren, Helen M. Roberts, Ralph Tiedemann, Ralf Vogelsang, Céline M. Vidal, Andrew S. Cohen, Henry F. Lamb, Frank Schaebitz, and Martin H. Trauth
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As a contribution towards a regional environmental context of human-climate interactions, the ICDP co-funded Chew Bahir Drilling Project, a part of the HSPDP (Hominin Sites and Paleolakes Drilling Project), recovered ~280-m long cores of sedimentary strata through continental scientific drilling in southern Ethiopia. The fluvio-lacustrine coring locality in the Chew Bahir basin is situated near key archaeological and paleoanthropological sites, such as the Omo-Kibish where the Omo 1 and 2 Homo sapiens fossils were recovered.Here we present the 620,000-year environmental record from Chew Bahir that provides an extraordinary opportunity to examine the potential influence of climate variability on hominin evolution, cultural innovation and dispersal during the Middle to Late Pleistocene. The near-continuous Chew Bahir record documents 13 environmental episodes that differ in length and character, potentially inducing habitat changes influencing hominin biological and cultural transformation. We infer that long-lasting and relatively stable humid conditions from ~620,000–275,000 years BP (Episodes 1–6) were interrupted by several abrupt and extreme hydroclimatic oscillations. This phase coincided with the appearance of high anatomical diversity in hominin groups. During Episodes 7–9 (~275,000–60,000 years BP), a pronounced pattern of climatic cyclicity was paralleled by the gradual transition from Acheulean to Middle Stone Age technologies, the emergence of H. sapiens in eastern Africa, and a key phase of human social and cultural innovation. Episodes 10–12 (~60,000–10,000 years BP), marked by high-frequency climate oscillations, is contemporaneous with the global dispersal of H. sapiens, facilitated by continued technological innovation and the alignment of humid pulses between eastern Africa and the eastern Mediterranean.Prospectively, the Chew Bahir record represents a crucial component for the Middle and Late Pleistocene in the ongoing efforts of the scientific community (future and upcoming ICDP-funded projects) to address questions in Africa across four topical core areas: paleoclimate, paleoenvironment, basin evolution, and modern lake systems.
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- 2023
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9. Mid-Pleistocene volcano-tectonic fragmentation of the Turkana-Suguta Megalake
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Annett Junginger, Simon Kuebler, Carolina Rosca, R. Bernhard Owen, Alan Deino, Craig Feibel, Martin. H. Trauth, and Hubert Vonhof
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The East African Rift System (EARS) is a key location for studying Plio-Pleistocene paleoclimate and hominin inhabitance. The region experienced profound reorganization during this interval as a response to volcanism, tectonics and climate change, and arguably detailed spatiotemporally coherent climate datasets could provide evidence of causal links between geologic change and hominin evolution. However, continued tectonism, erosion, burial and volcanism obscures much of this information. Despite its rich fossil record, the Turkana basin in the northern Kenya Rift is no exception. It has been hypothesized that Lake Turkana and paleo-Lake Suguta to its south formed one 530-650 km long mega-lake before 221 ka ago, and was a major barrier for E-W dispersal of hominids and other terrestrial fauna. Here we present new information on basin development based on paleolandscape modeling and 87Sr/86Sr analysis on microfossils of newly discovered paleo-lake sequences in the Suguta Valley, permitting reconstruction of volcano-tectonic processes 900-700 ka ago. Contrary to previous assumptions, results suggest that two to three lakes separated by tectono-volcanic barriers formed instead of one mega-lake. These results have implications for previously formulated hypotheses about mega-lakes preventing W-E migration and exchange and suggest that during the early Middle Pleistocene E-W migrations were possible.
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- 2023
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10. Trace element- and Pb isotope fingerprints of natural vs. anthropogenically induced geochemical changes in tropical lake catchments: A case study from lake Naivasha, Kenya
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Carolina Rosca, Annett Junginger, Simon Kübler, and Ronny Schoenberg
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Continuous lake sediment archives integrate valuable information of geodynamic transformations, climatic fluctuations and anthropogenic environmental forcing through time. In many parts of the world, such as sub-Saharan Africa, lake ecosystems are important pillars of biodiversity and wildlife preservation and evolution, as well as political and economic stability, especially with regard to the rapid population growth and increasing food and water demand.Located in the central part of the rift valley region, lake Naivasha is the second largest freshwater lake in Kenya, covers a catchment area of ca. 3400 km2 and is considered a “wetland of international importance” (RAMSAR convention, 2011). Previous studies and real-time observations documented a rapid intensification of agricultural activities ranging from subsidy economy (upper catchment) to industrial-sized horticulture practices (lower catchment) from the second half of the 20th century towards the present. These were suggested to have significantly influenced the drainage systems of the catchment and hydrochemistry of the lake, with potentially negative effects on the entire ecosystem. In addition, potential anthropogenic metal influx from other modern, diffuse sources (such as fossil fuel combustion) due to the increasing anthropogenic density and activities in the immediate vicinity of the lake remain poorly constrained.We analysed major- and trace elements and Pb isotope compositions of lake sediments covering the past ca. 150 years, as well as the surrounding lithologies in order to reconstruct the pathway(s) and source(s) of elemental influx and accumulation into the lake. The characterization of the geological background in this tectonically and volcanologically active region was primarily set on the northern part of the catchment where, the two main lake-feeding rivers Malewa and Gilgil discharge into the lake. Element correlation indices point to i) a strong influence of the local geological background and, ii) a relatively stable catchment for this time-period as seen from sub-parallel REE+Y patterns along the monolith. Lead isotope compositions, on the other hand, show more radiogenic values in the sediment deposited before the 1900’s (206Pb/204Pb: 19.502 – 19.546) and a significant shift towards less radiogenic isotopic ratios from the second half of the 20th century (206Pb/204Pb: 19.228 – 19.304), which persists towards the top of the core. We combine our extended geochemical data with geospatial projections of the land use to build a time-integrated cause-and-effect assessment of metals into lake Naivasha and disentangle the cause for the change in the Pb isotope composition.
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- 2023
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11. Sedimentary ancient <scp>DNA</scp> of rotifers reveals responses to 200 years of climate change in two Kenyan crater lakes
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Margaret Kyalo‐Omamo, Annett Junginger, Johanna Krueger, Laura S. Epp, Kathleen R. Stoof‐Leichsenring, Stefanie Rohland, Martin H. Trauth, and Ralph Tiedemann
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Aquatic Science - Published
- 2023
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12. Buffering new risks?: environmental, social and economic changes in the Turkana Basin during and after the African Humid Period
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Elisabeth Hildebrand, Katherine M Grillo, Kendra L Chritz, Markus L Fischer, Steven T Goldstein, Anneke Janzen, Annett Junginger, Rahab N Kinyanjui, Emmanuel Ndiema, Elizabeth Sawchuk, Amanuel Beyin, and Susan K Pfeiffer
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Archeology ,Global and Planetary Change ,Ecology ,Paleontology ,Earth-Surface Processes - Abstract
This paper evaluates risk-oriented frameworks for explaining environmental, social, and economic changes faced by fishing and herding communities in the Turkana Basin during and after the African Humid Period (AHP, 15?5?ka). The orbitally-forced AHP created moist conditions, high lake levels, and unusual hydrological connections across much of northern and eastern Africa. As arid conditions set in and rainfall decreased between 5.3 and 3.9?ka in eastern Africa, Lake Turkana (NW Kenya) shrank dramatically. Shoreline retreat coincided with an expansion of open plains, creating new ecological conditions and potential opportunities for early herders in the basin. In this changing landscape, economies shifted from food procurement (fishing/hunting aquatic resources) to food production (herding), likely through both in-migration by pastoralists and adoption of herding by local fishers. Early pastoralists also built at least seven megalithic pillar sites that served as communal cemeteries during this time. Recent research has shown that local environmental dynamics ? both during and after the AHP ? were complex, demanding a more careful interrogation of the notion that post-AHP life entailed new and/or heightened risks. Risk-buffering strategies might include mobility, diversification, physical storage, and exchange. Archaeologists working around Lake Turkana have proposed that economic shifts from fishing to pastoralism entailed increased mobility as a risk-buffering strategy to deal with aridity and resource unpredictability, and that pillar sites ? as fixed landmarks in an unstable landscape ? provided settings for congregation and exchange amongst increasingly mobile herding communities. However, recent research has shown that local environmental dynamics in the Lake Turkana basin ? both during and after the AHP ? were more complex than previously thought, necessitating re-evaluation of the notion that post-AHP life entailed new and/or heightened risks. Here, we explore risk buffering strategies (e.g. mobility, diversification, physical storage and/or exchange) as only one category of potential explanation for the new social practices observed in the region at this time. Gauging their applicability requires us to (a) assess the spatial mobility of communities and individuals interred at pillar sites; (b) evaluate whether and how mobility strategies may have changed as pastoralism supplanted fishing; and (c) examine alternative explanations for social and economic changes. Introduction Understanding risk in fishinghunting-gathering and pastoral economies - Considering risk in FHG economies - Risk perception and strategic action in pastoral economic contexts - Evaluating relations between mobility, risk, and reliability Climate and ecology records during and after the AHP - Lake sediments - Botanical records - Herbivore isotope records The archaeological record - Fisher-hunter-gatherers around Lake Turkana during the African Humid Period - Middle Holocene aridity and the advent of herding - “Before and after” versus processes of change Discussion: Ways forward - Fisher-hunter-gatherer groups during the African Humid Period - The advent of pastoralism - Mobility Conclusions
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- 2022
13. 58. Ammer River Valley (south-western Germany)
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Shaddai Heidgen, Annett Junginger, and Elena Marinova
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Science & Technology ,Plant Sciences ,Plant Science ,Life Sciences & Biomedicine ,Ecology, Evolution, Behavior and Systematics - Abstract
ispartof: GRANA vol:61 issue:3 pages:235-237 status: published
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- 2022
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14. Palaeoenvironment and potential resources for early Holocene subsistence in the Ammer River Valley (Germany) based on palaeoecological and bioarchaeological evidence
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Shaddai Heidgen, Annett Junginger, Stefan Klingler, Jörg Bofinger, Martin Ebner, Oliver Nelle, Elena Marinova, Tanja Märkle, Raiko Krauß, and Tatiana Miranda
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Palynology ,010506 paleontology ,geography ,education.field_of_study ,geography.geographical_feature_category ,Floodplain ,Archaeological record ,Population ,Wetland ,010502 geochemistry & geophysics ,01 natural sciences ,Archaeology ,Deciduous ,Dominance (ecology) ,education ,Holocene ,0105 earth and related environmental sciences ,Earth-Surface Processes - Abstract
The Upper Neckar and Ammer River valleys in southwestern Germany correspond to the southwestern limit of the overall distribution of the oldest Linear Bandkeramik (LBK) culture. More than 200 Neolithic sites are known from this region, with one of the oldest sites located in the vicinity of the village Ammerbuch-Pfaffingen, 10 km west of Tubingen, Germany. The archaeological record suggests that settlement activities occurred here between approximately 6300 and 6030 BP (modelled ca. 5290-4900 calBC). Despite the various on-site activities, little is known about the environment and its resources that were available prior to and after the LBK arrival. We here present the first results of a palynological study of a 2.4 m section from two parallel, overlapping 16 m (in total) sediment cores. The cores were retrieved in 2018 from a palaeo-wetland (Ammer palaeo-mire) only 0.7 km distant from the LBK settlement “Lusse” and 2.5 km from the LBK settlement “Unteres Feld”. Pollen, spores, charcoal and plant macro-remains indicate three major periods of vegetational development between 10,650 and 7870 calBP. Accordingly, between 10,650 and 10,150 calBP, deciduous oak forests with strong participation of hazel (Corylus avellana) and open vegetation dominated by Artemisia, Chenopodiaceae and diverse species of the Asteraceae family were spread around a shallow palaeo-wetland of ~3 km2. From 10,150 to 8400 calBP, vegetation around the palaeo-wetland turns into a mixed oak forest with an even more prominent presence of hazel. From 8400 to 7870 calBP, a noticeable dominance of mixed oak forests is established in the surroundings and the palaeo-lake turns into a river floodplain. It is highly probable that, at the time of the arrival of the LBK, diverse natural plant resources were available from a mixture of trees, herbs and wetland taxa. The bioarchaeological evidence from the following LBK are based on the analysis of seeds/fruits and wood charcoal from ‘Lusse’ and ‘Unteres Feld’ and complements the information on land use for the period after the pollen record stops. The results suggest that the alluvial wetland area continued to provide food resources, together with the mixed oak forests which were also targeted by the LBK population. Apart from cultivation, LBK land-use caused an increase in the light-demanding forest component. The current study integrates the usually rarely available palaeo-ecological records from near LBK sites with on-site bioarchaeological evidence and thus delivers valuable insights on the environment at the beginning of farming in Central Europe.
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- 2020
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15. The Great Lakes of Turkana – a Novel Perspective on the African Humid Period
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Markus Lothar Fischer and Annett Junginger
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The Lake Turkana region in northern Kenya and southern Ethiopia is famous for its fossil richness including key sites for human evolution studies. Modern Lake Turkana is the last of numerous mega-paleo-lakes, that has persisted to dry up completely at the end of the last African Humid Period (AHP, 15 – 5 ka). The adjacent paleo-lakes Suguta (2,000 km²) and Chew Bahir (2,500 km²), which are desiccated today, have formed together with paleo-lake Turkana (20,000 km²) a N-S oriented mega-lake during the AHP that has being separated only by small morphological Barriers. While Turkana, Suguta and Chew Bahir have been part of intensive research during the past decades, paleo-lake Chalbi with 10,000 km² in size just 10 km east of Lake Turkana was out of sight for most archaeologists and geoscientist. Here we present the first attempts for enhancing our understanding of the paleoenvironmental consequences of paleo-lake Chalbi close to one of the key regions in human evolution.
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- 2022
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16. Hydroclimate changes in eastern Africa over the past 200,000 years may have influenced early human dispersal
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Stephan Opitz, Christopher Bronk Ramsey, Walter Duesing, Ralf Vogelsang, Melanie J. Leng, Christine Lane, Frank Schaebitz, Jonathan R. Dean, Alan L. Deino, Andrew S. Cohen, Helen M. Roberts, Finn Viehberg, Martin H. Trauth, Melissa S. Chapot, Céline Vidal, Asfawossen Asrat, Henry F. Lamb, Verena Foerster, Annett Junginger, Ralph Tiedemann, Stefanie Kaboth-Bahr, Asrat, Asfawossen [0000-0002-6312-8082], Lamb, Henry F. [0000-0003-0025-0766], Foerster, Verena [0000-0002-3480-5769], Opitz, Stephan [0000-0003-0416-542X], Viehberg, Finn A. [0000-0003-0253-2222], Junginger, Annett [0000-0003-3486-0888], Ramsey, Christopher Bronk [0000-0002-8641-9309], Chapot, Melissa S. [0000-0001-7945-0175], Lane, Christine S. [0000-0001-9206-3903], Roberts, Helen M. [0000-0001-9649-2377], Vidal, Céline [0000-0002-9606-4513], Apollo - University of Cambridge Repository, Asrat, A [0000-0002-6312-8082], Lamb, HF [0000-0003-0025-0766], Foerster, V [0000-0002-3480-5769], Opitz, S [0000-0003-0416-542X], Viehberg, FA [0000-0003-0253-2222], Junginger, A [0000-0003-3486-0888], Ramsey, CB [0000-0002-8641-9309], Chapot, MS [0000-0001-7945-0175], Lane, CS [0000-0001-9206-3903], Roberts, HM [0000-0001-9649-2377], and Vidal, C [0000-0002-9606-4513]
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13 Climate Action ,010506 paleontology ,Rift ,010504 meteorology & atmospheric sciences ,Ecology ,article ,Climate change ,37 Earth Sciences ,3705 Geology ,3709 Physical Geography and Environmental Geoscience ,704/286 ,01 natural sciences ,Arid ,Geography ,Habitat ,Lake basin ,Paleoclimatology ,General Earth and Planetary Sciences ,Biological dispersal ,Montane ecology ,631/181/414 ,704/106/413 ,0105 earth and related environmental sciences ,General Environmental Science - Abstract
Reconstructions of climatic and environmental conditions can contribute to current debates about the factors that influenced early human dispersal within and beyond Africa. Here we analyse a 200,000-year multi-proxy paleoclimate record from Chew Bahir, a tectonic lake basin in the southern Ethiopian rift. Our record reveals two modes of climate change, both associated temporally and regionally with a specific type of human behavior. The first is a long-term trend towards greater aridity between 200,000 and 60,000 years ago, modulated by precession-driven wet-dry cycles. Here, more favorable wetter environmental conditions may have facilitated long-range human expansion into new territory, while less favorable dry periods may have led to spatial constriction and isolation of local human populations. The second mode of climate change observed since 60,000 years ago mimics millennial to centennial-scale Dansgaard-Oeschger cycles and Heinrich events. We hypothesize that human populations may have responded to these shorter climate fluctuations with local dispersal between montane and lowland habitats.
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- 2021
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17. How dry was the LGM? A Biosphere-Hydrosphere modelling approach for the paleo-lake Chew Bahir and Omo-River catchment in southern Ethiopia
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Martin H. Trauth, Markus L. Fischer, Annett Junginger, and Felix Bachofer
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Shore ,geography ,geography.geographical_feature_category ,Drainage basin ,Climate change ,Last Glacial Maximum ,Vegetation ,modelling ,East African Rift ,paleo-lake ,hydrosphere ,Environmental science ,Physical geography ,Precipitation ,Orographic lift - Abstract
The formation of the East African Rift System led to the emergence of large topographical contrasts in southern Ethiopia. This extreme topography is in turn responsible for an extreme gradient in the distribution of precipitation between the dry lowlands (~500 mm a-1) in the surrounding of Lake Turkana and the moist western Ethiopian Highlands (~2,000 mm a-1). As a consequence, the prevailing vegetation is fractionated into a complex mosaic that includes desert scrubland along the Lake Turkana shore, woodlands and wooded grasslands in the Omo-River lowlands and the paleo-lake Chew Bahir catchment, afro-montane forests of the Ethiopian Highlands, and afro-alpine heath in most elevated parts. During the past 25 ka, southern Ethiopia has been exposed to significant climate changes, from a dry and cold Last Glacial Maximum (LGM, 25-18 ka BP) to the African Humid Period (AHP, 15-5 ka BP), and back to present-day dry conditions. These shifts in temperature and precipitation may have affected the vegetation pattern and landscape in the area, but environmental data especially from LGM times are rare. This is because in times of a dry climate the paleo-lake Chew Bahir was dried up and hence the climate record in lake sediments was interrupted.In this study, we investigate the hydrological conditions during the LGM using a previously-developed lake balance model (LBM) for southern Ethiopia, which is now coupled with a new predictive vegetation model (PVM) to better understand the biosphere-hydrosphere interactions and thus possible precipitation thresholds. The PVM is based on the method of boosted regression trees using elevation and monthly precipitation as input to predict land-cover, tree-cover and vegetation greenness for a ~1 km grid covering the Omo-River, paleo-lake Chew Bahir, Lake Chamo and Lake Abaya catchments. We linked the PVM and the resulting land surface parameters with the LBM to model the impact of a changing land-cover to the actual evaporation. Furthermore, we used the glycerol dialkyl glycerol tetraethers (GDGT) based paleo-temperature and tropical lapse rate reconstructions from Mount Kenya to consider the orographic temperature distribution in southern Ethiopia during the LGM. Using both, we simulated different precipitation amounts from 100% to 50% compared to the modern-day multi-annual averages and their effect on vegetation and lake levels of paleo-lake Chew Bahir. Our biosphere-hydrosphere modelling approach suggests 25 to 30% lower moisture availability during the LGM compared to the modern conditions and provides a high-resolution spatial reconstruction of the potential prevailing vegetation in the southern Ethiopian region.
- Published
- 2021
18. The uranium isotopic composition of lacustrine Holocene stromatolites from the East African Rift System
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Ashley Martin, Monika Markowska, Annett Junginger, and Stefan Weyer
- Subjects
chemistry ,East African Rift ,Geochemistry ,chemistry.chemical_element ,Uranium ,Isotopic composition ,Holocene ,Geology - Published
- 2021
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19. EARLY MIDPLEISTOCENE LACUSTRINE DYNAMICS AT PALEOLAKE SUGUTA, KENYA
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Elena Robakiewicz, Martin H. Trauth, Alan L. Deino, R. Bernhart Owen, and Annett Junginger
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Paleontology ,Geology - Published
- 2021
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20. Occurrence and ecological risk assessment of heavy metals in agricultural soils of Lake Chilwa catchment in Malawi, Southern Africa
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Annett Junginger, Wisdom Changadeya, Chisomo Mussa, Timothy Biswick, and Harold Wilson Tumwitike Mapoma
- Subjects
Cadmium ,geography ,geography.geographical_feature_category ,General Chemical Engineering ,General Engineering ,Drainage basin ,General Physics and Astronomy ,chemistry.chemical_element ,Wetland ,Soil contamination ,Mercury (element) ,chemistry ,Environmental chemistry ,Soil water ,General Earth and Planetary Sciences ,Environmental science ,General Materials Science ,Microwave digestion ,Arsenic ,General Environmental Science - Abstract
Understanding the levels and associated ecological risk caused by heavy metals is important for the sustainable management and utilization of Lake Chilwa catchment, an important ecosystem in Malawi providing fertile lands for agriculture and a designated wetland ratified by the Ramsar convention in 1997. Concentrations of chromium (Cr), copper (Cu), nickel (Ni), lead (Pb), zinc (Zn), arsenic (As), mercury (Hg) and cadmium (Cd) were analyzed from 22 soil sampling locations. Extraction and quantification were achieved by microwave digestion and Inductively Coupled Plasma Optical Emission Spectrometer, respectively. Mean values were detected in the following order; Zn > Cr > Ni > Cu > Pb > As. Strong correlations were observed between As and Pb (r = 0.85), Cr and Ni (r = 0.82), Cu and Ni (r = 0.81), Cr and Cu (r = 0.8), and Pb and Zn (r = 0.73) suggesting similar sources of input. Principal component analysis revealed that Cu, Pb, Zn and As originate from anthropogenic activities, while Cr and Ni were geogenic. The ecological risk caused by these metals, calculated by the Ecological Risk Index (RI) method, showed a low to moderate ecological risk. The wetland areas had higher overall concentrations and RI values compared to the rest of the catchment. It is therefore important to enforce measures to manage and control these levels to avoid their damaging effects.
- Published
- 2020
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21. Human responses to hydroclimate fluctuations over the last 200 kyr in Ethiopia
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Daniel M. Deocampo, Alan L. Deino, R. Lupien, James Rusell, Christine Lane, Frank Schäbitz, Jonathan R. Dean, Stefanie Kaboth-Bahr, Henry F. Lamb, Verena Foerster, Helen M. Roberts, Christopher Bronk Ramsey, Annett Junginger, Walter Duesing, Stefan Opitz, Christina Günter, Andrew S. Cohen, Asfawossen Asrat, Melissa S. Chapot, and Melanie J. Leng
- Abstract
Humans have been adapting to more demanding habitats in the course of their evolutionary history. Nevertheless, environmental changes coupled with overpopulation naturally limit competition for resources. In order to find such limits, reconstructions of climate and population changes are increasingly used for the continent of our origin, Africa. However, continuous and high-resolution records of climate-human interactions are still scarce. Using a 280 m sediment core from Chew Bahir*, a wide tectonic basin in southern Ethiopia, we reconstruct the paleoenvironmental conditions during the development of Homo sapiens. The complete multiproxy record of the composite core covers the last ~600 ka , allowing tests of hypotheses about the influence of climate change on human evolution and technological innovation from the Late Acheulean to the Middle/Late Stone Age, and on dispersal within and out of Africa. Here we present results from the uppermost 100 meters of the Chew Bahir core, spanning the last 200 kiloyears (ka). The record shows two modes of environmental change that are associated with two types of human mobility. The first mode is a long-term trend towards a more arid climate, overlain by precession-driven wet-dry alternation. Through comparison with the archaeological record, humid episodes appear to have led to the opening of ‘green’ networks between favourable habitats and thus to increased human mobility on a regional scale. The second mode of environmental change resembles millennial-scale Dansgaard-Oeschger and Heinrich events, which seem to coincide with enhanced vertical mobility from the Ethiopian rift to the highlands, especially in the time frame between ~65–21 ka BP. The coincidence of climate change and human mobility patterns help to define the limiting conditions for early Homo sapiens in eastern Africa.___________________* cored in the context of HSPDP (Hominin Sites and Paleolakes Drilling Project) and CRC (Collaborative Research Centre) 806 “Our way to Europe”
- Published
- 2020
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22. Assessing the role of climate change in human evolution and dispersal: a 600,000-year record from Chew Bahir, southern Ethiopia
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Christopher Bronk Ramsey, Martin H. Trauth, Helen M. Roberts, Christine Lane, Melissa S. Chapot, Frank Schaebitz, Andrew S. Cohen, Alan L. Deino, Asfawossen Asrat, Céline Vidal, Christina Guenter, Stefanie Kaboth-Bahr, Henry F. Lamb, Verena Foerster, Annett Junginger, Walter Duesing, and Daniel M. Deocampo
- Subjects
Geography ,Human evolution ,Ecology ,Climate change ,Biological dispersal - Abstract
What role did climate dynamics play in the evolution and dispersal of Homo sapiens within and beyond Africa, and in key cultural innovations? Were gradual climatic changes, rapid shifts from wet to dry, or short-term climate flickers the main driver of human evolution and migration? As a contribution towards an enhanced understanding of those possible human-climate interactions the Chew Bahir Drilling Project, part of the Hominin Sites and Paleolakes Drilling Project (HSPDP) and the Collaborative Research Center (CRC) 806 “Our way to Europe”, recovered two ~280 m-long sediment cores from a deep, tectonically-bound basin in the southern Ethiopian rift in late 2014. The Chew Bahir record covers the past ~600 ka of environmental history, a critical time period that includes the transition from the Acheulean to the Middle Stone Age, and the origin and dispersal of Homo sapiens. Here we present the results from our multi-proxy study of the Chew Bahir 280 m-long composite core, providing a detailed and high-resolution record of eastern Africa’s climate oscillations during the last ~600 ka. To determine sediment age we used a Bayesian model to combine ages derived from radiocarbon dating of ostracodes, optically-stimulated luminescence (OSL) dating of quartz, Argon-Argon (40Ar/39Ar) dating of feldspar grains from some key (micro)tephra layers, and correlation on the basis of geochemistry of a tephra unit in the core to a known and dated tephra in the outcrop. We used high-resolution geophysical and geochemical indicators, such as the established aridity proxy K, sediment colour and authigenic minerals to differentiate between climate fluctuations on different time scales and magnitudes. Our results show that the full proxy record from Chew Bahir can be divided into three phases with similar trends in central tendency and dispersion. Phase I from ~600 to ~430 kyr BP shows a long-term shift from humid to arid conditions while slightly increasing the variability and ending with the most extreme oscillations between full humidity and extreme aridity. The transition into Phase II (~430 to ~200 kyr BP) is marked by a pronounced millennial-scale humidity increase. Phase II reflects generally more humid conditions and there is evidence of double humidity increase tendency. Firstly, between ~430 and ~315 kyr BP (Phase IIa), and again from ~280 to ~195 kyr BP (Phase IIb), with only slight changes in long-term variability. Since ~200 kyr BP (Phase III), a long-term aridification trend sets in, similar to Phase I, but with a distinct increase in variability and amplitudes. All of these changes would have had significant implications for shaping our ancestors’ living environments, both broadening and limiting their options in response to the different degrees and rates of climatic stress. The Chew Bahir record, one of the very few long terrestrial environmental records from continental eastern Africa, can contribute to testing the influence of low versus high latitude climate change in driving the expansion, contraction and fragmentation of early human habitats.
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- 2020
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23. Insights into the African Humid Period from fossil stromatolites and Etheria elliptica shells from the Chew Bahir Basin, southern Ethiopia
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Ashley Martin, Hubert B. Vonhof, Asfawossen Asrat, Monika Markowska, Hervé Bocherens, Bahru Zinaye, Markus L. Fischer, Peter Nickolaus, and Annett Junginger
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Oceanography ,Geography ,Period (geology) ,Etheria elliptica ,Structural basin - Abstract
In the context of human evolution and dispersal in Africa, it is important to understand past climate conditions and changes as possible drivers of these processes. One of the most recent climatic events was the end of the African Humid Period (AHP) at around 5 ka BP. This was marked by a decrease in precipitation following a long wet-phase in northern and eastern Africa, which caused many lakes to decrease in size or even desiccate. Although the termination of the AHP is well known, the timing and rate of the transition from wet to dry conditions is still heavily debated. To investigate the termination of the AHP at a high temporal resolution (subdecadal and subannual), fossil stromatolites and Etheria elliptica shells from paleo-shorelines in the Chew Bahir Basin, southern Ethiopia, were collected. Today, Lake Chew Bahir is a deltaic swamp, however in past pluvials a large lake was present that likely overflowed and connected to other basins similar to other amplifier lakes in the East African Rift System. Radiocarbon dating, oxygen and carbon stable isotope analyses, trace element analyses and petrographic mapping of stromatolite laminae structure were conducted. A strong correlation between δ18O and δ13C shows that paleo-lake Chew Bahir likely experienced highly evaporative conditions and indicate an endorheic state of the basin in times of stromatolite growth at 7.1, 5.8, 4.7 and 4.6 ka BP. Furthermore, our findings suggest highly fluctuating environmental conditions during these times and demonstrate that the transition to drier conditions was not a strictly linear trend. In summary, the stromatolites and Etheria elliptica shells are an excellent environmental archive due to their high temporal resolution, precise dating (± 30 yrs) and an indication of the paleo-lake water depth. These types of records provide insights to past changes in freshwater availability, the variability of which would have had large consequences for humans living in the region.
- Published
- 2020
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24. Lake level changes and their paleo-climatic implications at the middle Pleistocene excavation of MAR-1, southern Greece
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Nicholas Thompson, Eleni Panagopoulou, Katarina Harvati, Max Weiss, Vangelis Tourloukis, Ellen Schnabel, Annett Junginger, Ines J. E. Bludau, and Panagiotis Karkanas
- Subjects
Pleistocene ,Excavation ,Archaeology ,Geology - Abstract
In the fossil-rich sediments of the Megalopolis Basin, southern Greece, the remains of an ancient paleo-lake alternate between detrital units and lignite seams deposited during the Middle Pleistocene. The detrital sediments of MAR-1 (480-420 kyr) between two lignite seams are where lithics and elephant bones with cut-marks have been systematically excavated indicating hominin activity along a paleo-shoreline circa 440 kyr. Based on current knowledge, lignite seams formed during interglacials, while the silty-clay-rich deposits in between were deposited under glacial conditions. However, the paleoenvironmental and paleoclimatic conditions on shorter times-scales, leading to the preservation of hominin activity in the area, remain largely unknown. In order to reconstruct the paleo-environment including paleo-lake levels and thus sedimentation patterns and their governing paleo-climatic factors, we analyzed a high resolution 5-meter long sediment sequence from the archaeological site MAR-1. For the reconstruction, a multiproxy approach was applied using microfossils, grain-size, and geochemical analysis such as total organic carbon, total inorganic carbon, X-ray diffraction, and conventional X-ray fluorescence. Diatoms were often too corroded to be of use, most likely due to a combination of alkaline water conditions and the influence of silicate sponges. The results of the analyses revealed that MAR-1, located between lignite unit II and III, experienced multiple lake level oscillations mostly following insolation changes suggesting that several short-term wet-dry-wet cycles occurred during the investigated period, which must have impacted flora and fauna, including hominins, in the area. This research was conducted under the auspices of the Ephoreia of Paleoanthropology and Speleology, Greek Ministry of Culture, and was supported by the European Research Council (PaGE, CROSSROADS).
- Published
- 2020
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25. One Million Years of Human-Landscape Interaction in the Ethiopian and Kenyan Rift-System
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Annett Junginger and Simon Kuebler
- Subjects
Kenya ,Rift ,Geography ,Socioeconomics - Abstract
Landscapes form the basis for the development of human habitats. Studying human-landscape interactions thus requires an understanding of the character and evolution of landscapes on different temporal and spatial scales. In Africa, key anthropological sites are often associated with the tectonically active sectors of the East African Rift. But the landscapes inhabited by our ancestors have undergone massive changes over time, changes driven by climatic variability as well as long-term geomorphological and tectonic processes. River courses have changed, lakes expanded and then disappeared, and volcanic and tectonic activity formed steep fault scarps and barriers. Here we present a review of archaeological, paleo-climatological, paleo-limnological, tectonic and soil nutrients data sets of the southern Ethiopian and Kenyan Rift System in Eastern Africa of the past 1 Million years. Results suggest that tectonic processes and climatic change created a unique suite of landscape features potentially advantageous for human inhabitance. The combined analysis thus allows the quantification of styles and rates of surface modification, which in turn can be used for reconstructing ancient landscapes.
- Published
- 2020
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26. Human environmental interactions during the Neolithization of the Ammer Valley: first results integrating paleo-ecological and bio-archaeological evidence
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Raiko Krauß, Stefan Klingler, Jörg Bofinger, Shaddai Heidgen, Oliver Nelle, Tatiana Miranda, Martin Ebner, Elena Marinova, Annett Junginger, and Elisabeth Stephan
- Subjects
Geography ,Ecology ,Archaeological evidence - Abstract
The Upper Neckar and Ammer river valleys in southwestern Germany correspond to the southwestern limit of the overall distribution of the oldest Linear Bandkeramik (LBK) culture. More than 200 Neolithic sites are known from this region with one of the oldest sites located in the vicinity of the village Ammerbuch-Pfäffingen, around 10 km west of Tübingen, Germany. The archaeological record suggests that settlement activities occurred here between 7260 and 7110 cal BP (or 5310-5160 cal BC). Despite the various activities at the settling site itself, little is known about the environmental impact of the first settlers on the area, ranging from the introduction of farming and animal husbandry with impacts to the forests due to pasture and collection of wood, as well as possible control of water bodies. We here present the first results of a palynological study of two parallel, overlapping 8 m long sediment cores that were retrieved in 2018 from a shallow paleo-lake only a few hundred meters distant from the excavation site. The composite core allows environmental reconstruction of the area between 11540 and 7000 cal BP, based on six radiocarbon dates. Pollen analysis indicates mixed oak forests and an increase of light-demanding vegetation (i.e. Quercus, Corylus, Betula). Current analyses on micro- and macro-charcoal are going to reveal the natural or anthropogenic induced causes of paleo-fire events and Non-Pollen-Palynomorphs (NPP), including dung spores, unravel the possible presence of herbivores (including domestic ones) in the area. The results of the current study and its integration into the bioarchaeological record are relevant even beyond the region providing the usually rarely available paleoecological records from close proximity of an LBK site and thus deliver valuable insights on the environmental settings at the beginning of farming in central Europe.
- Published
- 2020
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27. MODERN DIATOM COMMUNITIES ON THE HUMPATA PLATEAU IN SOUTHWESTERN ANGOLA
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Jeffery R. Stone, Annett Junginger, Daniela deMatos, and Elena Robakiewicz
- Subjects
geography ,Diatom ,Oceanography ,Plateau ,geography.geographical_feature_category ,biology ,biology.organism_classification ,Geology - Published
- 2020
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28. The Trace Element Composition of a Range of Modern and Archean Microbial Carbonates
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Ashley Martin, Caroline Unruh, Marina Lazarov, Monika Markowska, Annett Junginger, Karl Bischoff, Allan Chivas, and Stefan Weyer
- Published
- 2020
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29. Towards an understanding of climate proxy formation in the Chew Bahir basin, southern Ethiopian Rift
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Asfawossen Asrat, Christina Günter, Kai Hauke Krämer, Daniel M. Deocampo, N. Stroncik, Verena Foerster, Annett Junginger, and Martin H. Trauth
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Rift ,010504 meteorology & atmospheric sciences ,Earth science ,Paleontology ,Authigenic ,Structural basin ,010502 geochemistry & geophysics ,Oceanography ,01 natural sciences ,Mineral alteration ,Paleoclimatology ,ddc:550 ,Chronozone ,Institut für Geowissenschaften ,Younger Dryas ,Clay minerals ,Ecology, Evolution, Behavior and Systematics ,Geology ,0105 earth and related environmental sciences ,Earth-Surface Processes - Abstract
Deciphering paleoclimate from lake sediments is a challenge due to the complex relationship between climate parameters and sediment composition. Here we show the links between potassium (K) concentrations in the sediments of the Chew Bahir basin in the Southern Ethiopian Rift and fluctuations in the catchment precipitation/evaporation balance. Our micro-X-ray fluorescence and X-ray diffraction results suggest that the most likely process linking climate with potassium concentrations is the authigenic illitization of smectites during episodes of higher alkalinity and salinity in the closed -basin lake, due to a drier climate. Whole-rock and clay size fraction analyses suggest that illitization of the Chew Bahir clay minerals with increasing evaporation is enhanced by octahedral Al-to-Mg substitution in the clay minerals, with the resulting layer charge increase facilitating potassium-fixation. Linking mineralogy with geochemistry shows the links between hydroclimatic control, process and formation of the Chew Bahir K patterns, in the context of well-known and widely documented eastern African climate fluctuations over the last 45,000 years. These results indicate characteristic mineral alteration patterns associated with orbitally controlled wet-dry cycles such as the African Humid Period (similar to 15-5 ka) or high-latitude controlled climate events such as the Younger Dryas (similar to 12.8-11.6 ka) chronozone. Determining the impact of authigenic mineral alteration on the Chew Bahir records enables the interpretation of the previously established pXRF-derived aridity proxy K and provides a better paleohydrological understanding of complex climate proxy formation.
- Published
- 2018
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30. Abrupt or gradual? Change point analysis of the late Pleistocene–Holocene climate record from Chew Bahir, southern Ethiopia
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Henry F. Lamb, Verena Foerster, Annett Junginger, Martin H. Trauth, Frank Schaebitz, and Asfawossen Asrat
- Subjects
010506 paleontology ,010504 meteorology & atmospheric sciences ,Pleistocene ,Climate change ,01 natural sciences ,Arts and Humanities (miscellaneous) ,Ice core ,Paleoclimatology ,Period (geology) ,General Earth and Planetary Sciences ,Physical geography ,Stadial ,Younger Dryas ,Geology ,Holocene ,0105 earth and related environmental sciences ,Earth-Surface Processes - Abstract
We used a change point analysis on a late Pleistocene-Holocene lake-sediment record from the Chew Bahir basin in the southern Ethiopian Rift to determine the amplitude and duration of past climate transitions. The most dramatic changes occurred over 240 yr (from similar to 15,700 to 15,460 yr) during the onset of the African Humid Period (AHP), and over 990 yr (from similar to 4875 to 3885 yr) during its protracted termination. The AHP was interrupted by a distinct dry period coinciding with the high-latitude Younger Dryas stadial, which had an abrupt onset (less than similar to 100 yr) at similar to 13,260 yr and lasted until similar to 11,730 yr. Wet-dry-wet transitions prior to the AHP may reflect the high-latitude Dansgaard-Oeschger cycles, as indicated by cross-correlation of the potassium record with the NorthGRIP ice core record between similar to 45-20 ka. These findings may contribute to the debates regarding the amplitude, and duration and mechanisms of past climate transitions, and their possible influence on the development of early modern human cultures.
- Published
- 2018
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31. Holocene rainfall runoff in the central Ethiopian highlands and evolution of the River Nile drainage system as revealed from a sediment record from Lake Dendi
- Author
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Janet Rethemeyer, Frank Schaebitz, Finn Viehberg, Annett Junginger, Volker Wennrich, Gerhard Schmiedl, Bernd Wagner, and Anne Kolvenbach
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010506 paleontology ,Global and Planetary Change ,geography ,geography.geographical_feature_category ,010504 meteorology & atmospheric sciences ,Drainage basin ,Oceanography ,Monsoon ,01 natural sciences ,Aridification ,Clastic rock ,Crater lake ,Precipitation ,Physical geography ,Younger Dryas ,Geology ,Holocene ,0105 earth and related environmental sciences - Abstract
A 12 m long sediment sequence was recovered from the eastern Dendi Crater lake, located on the central Ethiopian Plateau and in the region of the Blue Nile headwaters. 24 AMS radiocarbon dates from bulk organic carbon samples indicate that the sediment sequence spans the last ca. 12 cal kyr BP. Sedimentological and geochemical data from the sediment sequence that were combined with initial diatom information show only moderate change in precipitation and catchment runoff during that period, probably due to the elevated location of the study region in the Ethiopian highlands. Less humid conditions prevailed during the Younger Dryas (YD). After the return to full humid conditions of the African Humid Period (AHP), a ~2 m thick tephra layer, probably originating from an eruption of the Wenchi crater 12 km to the west of the lake, was deposited at 10.2 cal kyr BP. Subsequently, single thin horizons of high clastic matter imply that short spells of dry conditions and significantly increased rainfall, respectively, superimpose the generally humid conditions. The end of the AHP is rather gradual and precedes relatively stable and less humid conditions around 3.9 cal kyr BP. Subsequently, slightly increasing catchment runoff led to sediment redeposition, increasing nutrient supply, and highest trophic states in the lake until 1.5 cal kyr BP. A highly variable increase in clastic matter indicates fluctuating and increasing catchment runoff over the last 1500 years. The data from Lake Dendi show, in concert with other records from the Nile catchment and the Eastern Mediterranean Sea (EMS), that the Blue Nile discharge was relatively high between ca. 10.0 and 8.7 cal kyr BP. Subsequent aridification peaked with some regional differences between ca. 4.0 and 2.6 cal kyr BP. Higher discharge in the Blue Nile hydraulic regime after 2.6 cal kyr BP is probably triggered by more local increase in rainfall, which is tentatively caused by a change in the influence of the Indian Ocean monsoon.
- Published
- 2018
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32. A Phytolith Supported Biosphere-Hydrosphere Predictive Model for Southern Ethiopia: Insights into Paleoenvironmental Changes and Human Landscape Preferences since the Last Glacial Maximum
- Author
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Henry F. Lamb, Felix Bachofer, Martin H. Trauth, Annett Junginger, Asfawossen Asrat, Chad Yost, Frank Schäbitz, Markus L. Fischer, Christian Schepers, Ines J. E. Bludau, and Verena Foerster
- Subjects
QE1-996.5 ,African humid period ,paleoenvironment ,Pleistocene ,boosted regression trees ,Biosphere ,Geology ,Last Glacial Maximum ,Vegetation ,LGM ,lake balance model ,Water balance ,Geography ,last glacial maximum ,Effects of global warming ,Phytolith ,phytoliths ,General Earth and Planetary Sciences ,Ethiopia ,Chew Bahir ,Physical geography ,predictive vegetation model ,East African rift system ,predictive modeling ,Holocene - Abstract
During the past 25 ka, southern Ethiopia has undergone tremendous climatic changes, from dry and relatively cold during the Last Glacial Maximum (LGM, 25–18 ka) to the African Humid Period (AHP, 15–5 ka), and back to present-day dry conditions. As a contribution to better understand the effects of climate change on vegetation and lakes, we here present a new Predictive Vegetation Model that is linked with a Lake Balance Model and available vegetation-proxy records from southern Ethiopia including a new phytolith record from the Chew Bahir basin. We constructed a detailed paleo-landcover map of southern Ethiopia during the LGM, AHP (with and without influence of the Congo Air Boundary) and the modern-day potential natural landcover. Compared to today, we observe a 15–20% reduction in moisture availability during the LGM with widespread open landscapes and only few remaining forest refugia. We identify 25–40% increased moisture availability during the AHP with prevailing forests in the mid-altitudes and indications that modern anthropogenic landcover change has affected the water balance. In comparison with existing archaeological records, we find that human occupations tend to correspond with open landscapes during the late Pleistocene and Holocene in southern Ethiopia.
- Published
- 2021
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33. 25,000 YEARS OF MOISTURE VARIABILITY BASED ON DIATOM CONDUCTIVITY RECONSTRUCTION AT LAKE NAKURU, CENTRAL KENYA RIFT
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Jens Mingram, Elena Robakiewicz, Martin H. Trauth, Annett Junginger, and Andreas G.N. Bergner
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Diatom ,Rift ,Moisture ,biology ,Geochemistry ,Conductivity ,biology.organism_classification ,Geology - Published
- 2019
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34. Reply to the comment on 'Environmental change and human occupation of southern Ethiopia and northern Kenya during the last 20,000 years. Quaternary Science Reviews 129: 333–340'
- Author
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Henry F. Lamb, Verena Foerster, Annett Junginger, Frank Schaebitz, Ralf Vogelsang, Asfawossen Asrat, and Martin H. Trauth
- Subjects
010506 paleontology ,Archeology ,Global and Planetary Change ,Geography ,010504 meteorology & atmospheric sciences ,Environmental change ,Environmental protection ,Quaternary science ,Geology ,Socioeconomics ,01 natural sciences ,Ecology, Evolution, Behavior and Systematics ,0105 earth and related environmental sciences - Published
- 2016
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35. Habitat conditions, spatial distribution and trichome morphology of different species of Tillandsia growing on trees on the Ilha Grande Island, Brazil
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Tatiana Miranda, Annett Junginger, Anita Roth-Nebelsick, and Martin Ebner
- Subjects
0106 biological sciences ,Canopy ,Ecology ,Tillandsia ,biology ,Humidity ,Plant Science ,Microsite ,Spatial distribution ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Trichome ,Habitat ,Epiphyte ,Ecology, Evolution, Behavior and Systematics ,010606 plant biology & botany - Abstract
Epiphytes living in the canopy face the problem of being exposed to varying levels of air humidity, temperature and insolation, according to both local climate and growing site conditions. This study addresses interrelationships between a) vertical distribution of Tillandsia species on phorophytes of Ilha-Grande Island in tropical Brazil; b) micrometeorological conditions at the different epiphyte habitats and growing sites; c) diurnal changes in plant water content and d) morphological traits of Tillandsia leaves with respect to absorptive scales. For this purpose, five vertical zones of different height and exposure were defined within the canopy, which are characterized by specific epiphyte associations. It was found that the Tillandsia species are heterogeneously distributed within tree canopies. The most exposed sites are colonized almost exclusively by T. usneoides whereas less exposed zones are settled by different assemblages of all other considered Tillandsia species. Microsite conditions (temperature and humidity) were shown to be substantially different, with quite extreme conditions at the sites preferred by T. usneoides. Despite its apparently stressful habitat, T. usneoides showed the lowest decrease of daily water content. All considered Tillandsia species differed significantly with respect to size and density of their absorptive scales. Also, density and size of scales differed within the leaves in a species-specific manner. Tillandsia usneoides was distinctly different from all other considered species by showing the longest scales and a high scale density which was uniform over the leaves. The results demonstrate the unique ability of T. usneoides to cope with drought stress. The outcomes support the assumption that leaf and scale morphology of Tillandsia are correlated with habitat. Probably, a dense mat of filiform leaves covered with scales showing long wing cells – as shown by T. usneoides – is particularly suitable for harvesting atmospheric water.
- Published
- 2020
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36. A new multicopter based unmanned aerial system for pollen and spores collection in the atmospheric boundary layer
- Author
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Claudio Crazzolara, Martin Ebner, Andreas Platis, Tatiana Miranda, Jens Bange, and Annett Junginger
- Abstract
The application of a new particle collection system (PCS) onboard a multicopter unmanned aerial vehicle (UAV) is presented as a new unmanned aerial system (UAS) approach for in-situ measurement of the concentration of aerosol particles such as pollen grains and spores in the atmospheric boundary layer (ABL). A newly developed impactor is used for high efficiency particle extraction onboard the multicopter UAV. An air volume flow of 0.2 m3 per minute through the impactor is provided by a battery powered blower and measured with an onboard mass flow sensor. A bell mouth shaped air intake of the PCS is arranged and oriented on the multicopter UAV to provide substantially isokinetic sampling conditions by advantageously using the airflow pattern generated by the propellers of the multicopter UAV. More than thirty aerosol particle collection flights were carried out near Tübingen in March 2017 at altitudes of up to 300 m above ground level (a.g.l.), each with a sampled air volume of 2 m3. Pollen grains and spores of various genera as well as charcoal and fine dust particles were collected and specific concentrations of up to 100 particles per m3 were determined by visual microscopic analysis. The pollen concentration values measured with the new UAS matches well with the pollen concentration data published by the Stiftung Deutscher Polleninformationsdienst (PID) and by MeteoSchweiz. A major advantage of the new multicopter based UAS is the possibility of the identification of collected aerosol particles and the measurement of their concentration with high temporal and spatial resolution, which can be used inter alia to improve the data base for modelling the propagation of aerosol particles in the ABL.
- Published
- 2018
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37. ENVIRONMENTAL HISTORY AND HUMAN EVOLUTION IN EASTERN AFRICA: THE 550,000-YEAR CLIMATE RECORD FROM THE CHEW BAHIR BASIN, AN HSPDP KEY SITE IN SOUTHERN ETHIOPIA
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Christina Guenter, Martin H. Trauth, Daniel M. Deocampo, Asfawossen Asrat, Andrew S. Cohen, Christine Lane, Frank Schaebitz, Henry F. Lamb, Verena Foerster, Anders Noren, Annett Junginger, Walter Duesing, Jonathan R. Dean, Helen M. Roberts, Alan L. Deino, and Melanie J. Leng
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Geography ,Human evolution ,Key (lock) ,Climate record ,Physical geography ,Structural basin ,Environmental history - Published
- 2018
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38. Environmental change and human occupation of southern Ethiopia and northern Kenya during the last 20,000 years
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Frank Schaebitz, Asfawossen Asrat, Martin H. Trauth, Henry F. Lamb, Verena Foerster, Annett Junginger, and Ralf Vogelsang
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Archeology ,Global and Planetary Change ,Environmental change ,Ecology ,Archaeological record ,Pastoralism ,Geology ,Before Present ,Structural basin ,Prehistory ,Paleoclimatology ,Biological dispersal ,Institut für Geowissenschaften ,Ecology, Evolution, Behavior and Systematics - Abstract
Our understanding of the impact of climate-driven environmental change on prehistoric human populations is hampered by the scarcity of continuous paleoenvironmental records in the vicinity of archaeological sites. Here we compare a continuous paleoclimatic record of the last 20 ka before present from the Chew Bahir basin, southwest Ethiopia, with the available archaeological record of human presence in the region. The correlation of this record with orbitally-driven insolation variations suggests a complex nonlinear response of the environment to climate forcing, reflected in several long-term and short-term transitions between wet and dry conditions, resulting in abrupt changes between favorable and unfavorable living conditions for humans. Correlating the archaeological record in the surrounding region of the Chew Bahir basin, presumably including montane and lake-marginal refugia for human populations, with our climate record suggests a complex interplay between humans and their environment during the last 20 ka. The result may contribute to our understanding of how a dynamic environment may have impacted the adaptation and dispersal of early humans in eastern Africa. (C) 2015 Elsevier Ltd. All rights reserved.
- Published
- 2015
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39. Episodes of environmental stability versus instability in Late Cenozoic lake records of Eastern Africa
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Martin H. Trauth, Frank Schaebitz, Andreas G.N. Bergner, Verena Foerster, Annett Junginger, and Mark A. Maslin
- Subjects
Geologic Sediments ,Pleistocene ,Genetic Speciation ,Climate ,Climate change ,Environment ,Structural basin ,Paleontology ,Cultural Evolution ,Paleoclimatology ,Animals ,Humans ,Ecology, Evolution, Behavior and Systematics ,Holocene ,Rift ,Hominidae ,Models, Theoretical ,Biological Evolution ,Kenya ,Lakes ,Anthropology ,Biological dispersal ,Institut für Geowissenschaften ,Ethiopia ,Physical geography ,Animal Distribution ,Cenozoic ,Geology - Abstract
Episodes of environmental stability and instability may be equally important for African hominin speciation, dispersal, and cultural innovation. Three examples of a change from stable to unstable environmental conditions are presented on three different time scales: (1) the Mid Holocene (MH) wet dry transition in the Chew Bahir basin (Southern Ethiopian Rift; between 11 ka and 4 ka), (2) the MIS 5-4 transition in the Naivasha basin (Central Kenya Rift; between 160 ka and 50 ka), and (3) the Early Mid Pleistocene Transition (EMPT) in the Olorgesailie basin (Southern Kenya Rift; between 1.25 Ma and 0.4 Ma). A probabilistic age modeling technique is used to determine the timing of these transitions, taking into account possible abrupt changes in the sedimentation rate including episodes of no deposition (hiatuses). Interestingly, the stable-unstable conditions identified in the three records are always associated with an orbitally-induced decrease of insolation: the descending portion of the 800 kyr cycle during the EMPT, declining eccentricity after the 115 ka maximum at the MIS 5-4 transition, and after similar to 10 ka. This observation contributes to an evidence-based discussion of the possible mechanisms causing the switching between environmental stability and instability in Eastern Africa at three different orbital time scales (10,000 to 1,000,000 years) during the Cenozoic. This in turn may lead to great insights into the environmental changes occurring at the same time as hominin speciation, brain expansion, dispersal out of Africa, and cultural innovations and may provide key evidence to build new hypotheses regarding the causes of early human evolution. (C) 2015 Elsevier Ltd. All rights reserved.
- Published
- 2015
- Full Text
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40. Atlantic forcing of Western Mediterranean winter rain minima during the last 12,000 years
- Author
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Abdeslam Mikdad, Birgit Schneider, Michael Strupler, Thomas C. Brachert, Christoph Zielhofer, Najib El Hamouti, Jens Bussmann, Sébastien Joannin, Steffen Mischke, Marc De Batist, Rik Tjallingii, Jennifer Campbell, Andreas Stele, Tobias Lauer, William J. Fletcher, Annett Junginger, Katrin Spitzer, Renard Centre of Marine Geology (RCMG), Universiteit Gent, Institut des Sciences de l'Evolution de Montpellier ( ISEM ), Université de Montpellier ( UM ) -Institut de recherche pour le développement [IRD] : UR226-Centre National de la Recherche Scientifique ( CNRS ), Centre National de la Recherche Scientifique ( CNRS ), German Research Centre for Geosciences - Helmholtz-Centre Potsdam ( GFZ ), Laboratoire des Sciences du Climat et de l'Environnement [Gif-sur-Yvette] ( LSCE ), Université de Versailles Saint-Quentin-en-Yvelines ( UVSQ ) -Commissariat à l'énergie atomique et aux énergies alternatives ( CEA ) -Université Paris-Saclay-Centre National de la Recherche Scientifique ( CNRS ), Universiteit Gent = Ghent University [Belgium] (UGENT), Institut des Sciences de l'Evolution de Montpellier (UMR ISEM), École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Centre National de la Recherche Scientifique (CNRS)-Institut de recherche pour le développement [IRD] : UR226, Centre National de la Recherche Scientifique (CNRS), German Research Centre for Geosciences - Helmholtz-Centre Potsdam (GFZ), Laboratoire des Sciences du Climat et de l'Environnement [Gif-sur-Yvette] (LSCE), Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Institut de recherche pour le développement [IRD] : UR226-Centre National de la Recherche Scientifique (CNRS), and Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)
- Subjects
Mediterranean climate ,Western Mediterranean ,Archeology ,YOUNGER DRYAS ,010504 meteorology & atmospheric sciences ,MIDDLE ATLAS ,01 natural sciences ,[SHS]Humanities and Social Sciences ,[ SDE ] Environmental Sciences ,Ostracod ,FIRE ACTIVITY ,Meltwater ,Holocene ,ComputingMilieux_MISCELLANEOUS ,Global and Planetary Change ,North Atlantic Oscillation (NAO) ,biology ,SOUTHERN SPAIN ,Winter rain minima ,Geology ,Lake sediments ,Morocco ,Oceanography ,[SDE]Environmental Sciences ,Atlantic forcing ,[ SDU ] Sciences of the Universe [physics] ,010506 paleontology ,AFRICAN HUMID PERIOD ,VEGETATION DYNAMICS ,Solar forcing ,SURFACE-TEMPERATURE ,[ SHS ] Humanities and Social Sciences ,medicine ,Younger Dryas ,Air mass ,Ecology, Evolution, Behavior and Systematics ,0105 earth and related environmental sciences ,LATE QUATERNARY ,Seasonality ,15. Life on land ,Radiative forcing ,biology.organism_classification ,medicine.disease ,HOLOCENE CLIMATE VARIABILITY ,NORTH-ATLANTIC ,13. Climate action ,[SDU]Sciences of the Universe [physics] ,Earth and Environmental Sciences - Abstract
The limited availability of high-resolution continuous archives, insufficient chronological control, and complex hydro-climatic forcing mechanisms lead to many uncertainties in palaeo-hydrological reconstructions for the Western Mediterranean. In this study we present a newly recovered 19.63 m long core from Lake Sidi Ali in the North African Middle Atlas, a transition zone of Atlantic, Western Mediterranean and Saharan air mass trajectories. With a multi-proxy approach based on magnetic susceptibility, carbonate and total organic C content, core-scanning and quantitative XRF, stable isotopes of ostracod shells, charcoal counts, Cedrus pollen abundance, and a first set of diatom data, we reconstruct Western Mediterranean hydro-climatic variability, seasonality and forcing mechanisms during the last 12,000 yr. A robust chronological model based on AMS 14 C dated pollen concentrates supports our high-resolution multi-proxy study. Long-term trends reveal low lake levels at the end of the Younger Dryas, during the mid-Holocene interval 6.6 to 5.4 cal ka BP, and during the last 3000 years. In contrast, lake levels are mostly high during the Early and Mid-Holocene. The record also shows sub-millennial- to centennial-scale decreases in Western Mediterranean winter rain at 11.4, 10.3, 9.2, 8.2, 7.2, 6.6, 6.0, 5.4, 5.0, 4.4, 3.5, 2.9, 2.2, 1.9, 1.7, 1.5, 1.0, 0.7, and 0.2 cal ka BP. Early Holocene winter rain minima are in phase with cooling events and millennial-scale meltwater discharges in the sub-polar North Atlantic. Our proxy parameters do not show so far a clear impact of Saharan air masses on Mediterranean hydro-climate in North Africa. However, a significant hydro-climatic shift at the end of the African Humid Period (∼5 ka) indicates a change in climate forcing mechanisms. The Late Holocene climate variability in the Middle Atlas features a multi-centennial-scale NAO-type pattern, with Atlantic cooling and Western Mediterranean winter rain maxima generally associated with solar minima.
- Published
- 2017
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41. THE CHEW BAHIR DRILLING PROJECT (HSPDP). FROM MUD, GRAINS AND CRYSTALS TO >500,000 YEARS OF CONTINUOUS CLIMATE HISTORY IN SOUTHERN ETHIOPIA
- Author
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Melissa S. Chapot, Jonathan R. Dean, Helen M. Roberts, Daniel M. Deocampo, Alan L. Deino, Frank Schaebitz, Asfawossen Asrat, Henry F. Lamb, Verena Foerster, Christopher Bronk Ramsey, Annett Junginger, Christina Günter, Andrew S. Cohen, Martin H. Trauth, and Melanie J. Leng
- Subjects
Earth science ,Drilling ,Climate history ,Geology - Published
- 2017
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42. Environmental variability in Lake Naivasha, Kenya, over the last two centuries
- Author
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Kathleen R. Stoof-Leichsenring, Annett Junginger, Ralph Tiedemann, Lydia A. Olaka, and Martin H. Trauth
- Subjects
geography ,geography.geographical_feature_category ,biology ,Drainage basin ,Sediment ,Climate change ,Aquatic Science ,Plankton ,biology.organism_classification ,Oceanography ,Diatom ,Period (geology) ,Littoral zone ,Eutrophication ,Institut für Biochemie und Biologie ,Earth-Surface Processes - Abstract
Lake Naivasha, Kenya, is one of a number of freshwater lakes in the East African Rift System. Since the beginning of the twentieth century, it has experienced greater anthropogenic influence as a result of increasingly intensive farming of coffee, tea, flowers, and other horticultural crops within its catchment. The water-level history of Lake Naivasha over the past 200 years was derived from a combination of instrumental records and sediment data. In this study, we analysed diatoms in a lake sediment core to infer past lacustrine conductivity and total phosphorus concentrations. We also measured total nitrogen and carbon concentrations in the sediments. Core chronology was established by (210)Pb dating and covered a similar to 186-year history of natural (climatic) and human-induced environmental changes. Three stratigraphic zones in the core were identified using diatom assemblages. There was a change from littoral/epiphytic diatoms such as Gomphonema gracile and Cymbella muelleri, which occurred during a prolonged dry period from ca. 1820 to 1896 AD, through a transition period, to the present planktonic Aulacoseira sp. that favors nutrient-rich waters. This marked change in the diatom assemblage was caused by climate change, and later a strong anthropogenic overprint on the lake system. Increases in sediment accumulation rates since 1928, from 0.01 to 0.08 g cm(-2) year(-1) correlate with an increase in diatom-inferred total phosphorus concentrations since the beginning of the twentieth century. The increase in phosphorus accumulation suggests increasing eutrophication of freshwater Lake Naivasha. This study identified two major periods in the lake's history: (1) the period from 1820 to 1950 AD, during which the lake was affected mainly by natural climate variations, and (2) the period since 1950, during which the effects of anthropogenic activity overprinted those of natural climate variation.
- Published
- 2011
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43. 46 000 years of alternating wet and dry phases on decadal to orbital timescales in the cradle of modern humans: the Chew Bahir project, southern Ethiopia
- Author
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Janet Rethemeyer, Michael E Weber, Henry F. Lamb, Verena Foerster, Asfawossen Asrat, Annett Junginger, Maxwell C. Brown, Martin H. Trauth, Frank Schaebitz, and Ute Frank
- Subjects
Rift ,Climatology ,Climate change ,Glacial period ,Younger Dryas ,Structural basin ,Transect ,Coring ,Arid ,Geology - Abstract
Rapid changes in environmental conditions are considered to be an important driver for human evolution, cultural and technological innovation, and expansion out of Africa. However, the nature of these environmental changes, their amplitude and correlation with steps in human evolution is the subject of current debates. Here we present a high-resolution (~3–12 yr) and well-dated (32 AMS 14C ages) lake-sediment record of the last 46 000 yr from the Chew Bahir basin in the southern Ethiopian Rift. The record was obtained from six cores along a NW–SE transect across the basin, which has been selected as the drilling location within the ICDP Hominin Sites and Paleolakes Drilling Project (HSPDP). Multi-proxy data and the comparison between the transect coring sites provide initial insight into intra-basin dynamics and major mechanisms controlling the sedimentation of the proxies that was used to develop a basic proxy concept for Chew Bahir for the last two wet-dry cycles. The environmental response to orbitally induced sinusoidal insolation changes is usually nonlinear, as climate changes abruptly compared to changes in the forcing, or gradual but punctuated by multi-decadal intervals of drier conditions. The second major control on the environment is millennial-scale climate variability lasting ~1500 yr, similar in duration to the high-latitude Dansgaard–Oeschger cycles and Heinrich events including the Younger Dryas cold reversal at the end of the last glacial, mostly causing abrupt shifts from extreme arid to wet conditions. The duration and character of orbitally induced, high-latitude controlled, and multi-decadal climate shifts provides important constraints for the adaptation of humans to the changing environment. Therefore, Chew Bahir is a perfect site to study and understand climatic variability on different timescales.
- Published
- 2014
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44. The effects of solar irradiation changes on the migration of the Congo Air Boundary and water levels of paleo-Lake Suguta, Northern Kenya Rift, during the African Humid Period (15-5 ka BP)
- Author
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Annett Junginger, Sybille Roller, Lydia A. Olaka, and Martin H. Trauth
- Subjects
Rift ,Northern Hemisphere ,Paleontology ,Structural basin ,Oceanography ,Monsoon ,Water level ,law.invention ,law ,Climatology ,East African Rift ,Precipitation ,Radiocarbon dating ,Institut für Geowissenschaften ,Ecology, Evolution, Behavior and Systematics ,Geology ,Earth-Surface Processes - Abstract
The water-level record from the 300 m deep paleo-lake Suguta (Northern Kenya Rift) during the African Humid Period (AHP, 15–5 ka BP) helps to explain decadal to centennial intensity variations in the West African Monsoon (WAM) and the Indian Summer Monsoon (ISM). This water-level record was derived from three different sources: (1) grain size variations in radiocarbon dated and reservoir corrected lacustrine sediments, (2) the altitudes and ages of paleo-shorelines within the basin, and (3) the results of hydro-balance modeling, providing important insights into the character of water level variations (abrupt or gradual) in the amplifier paleo-Lake Suguta. The results of these comprehensive analyses suggest that the AHP highstand in the Suguta Valley was the direct consequence of a northeastwards shift in the Congo Air Boundary (CAB), which was in turn caused by an enhanced atmospheric pressure gradient between East Africa and India during a northern hemisphere insolation maximum. Rapidly decreasing water levels of up to 90 m over less than a hundred years are best explained by changes in solar irradiation either reducing the East African–Indian atmospheric pressure gradient and preventing the CAB from reaching the study area, or reducing the overall humidity in the atmosphere, or a combination of both these effects. In contrast, although not well documented in our record we hypothesize a gradual end of the AHP despite an abrupt change in the source of precipitation when a decreasing pressure gradient between Asia and Africa prevented the CAB from reaching the Suguta Valley. The abruptness was probably buffered by a contemporaneous change in precession producing an insolation maximum at the equator during October. Whether or not this is the case, the water-level record from the Suguta Valley demonstrates the importance of both orbitally-controlled insolation variations and short-term changes in solar irradiation as factors affecting the significant water level variations in East African rift lakes.
- Published
- 2014
45. Hydrological constraints of paleo-Lake Suguta in the Northern Kenya Rift during the African Humid Period (15-5 ka BP)
- Author
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Martin H. Trauth and Annett Junginger
- Subjects
Wet season ,Global and Planetary Change ,Climatology ,Intertropical Convergence Zone ,East African Rift ,Paleoclimatology ,Northern Hemisphere ,Precipitation ,Institut für Geowissenschaften ,Oceanography ,Geology ,Holocene ,Water level - Abstract
During the African Humid Period (AHP, 15–5 ka BP) an almost 300 m deep paleo-lake covering 2200 km2 developed in the Suguta Valley, in the Northern Kenya Rift. Data from lacustrine sediments and paleo-shorelines indicate that a large paleo-lake already existed by 13.9 ka BP, and record rapid water level fluctuations of up to 100 m within periods of 100 years or less, and a final lowstand at the end of the AHP (5 ka BP). We used a hydro-balance model to assess the abruptness of these water level fluctuations and identify their causes. We observed that fluctuations within the AHP were caused by abrupt changes in precipitation of 26–40%. Despite the absence of continuous lacustrine data documenting the onset of the AHP in the Suguta Valley, we conclude from the hydro-balance model that only an abrupt onset to the AHP, prior to 14.8 ka BP, could have led to high water levels recorded. The modeling results suggest that the sudden increase in rainfall was the direct consequence of an eastward migration of the Congo Air Boundary (CAB), caused by an enhanced atmospheric pressure gradient between East Africa and southern Asia during a northern hemisphere (NH) summer insolation maximum. In contrast, the end of the AHP must have been gradual despite an abrupt change in the source of precipitation when a decreasing pressure gradient between Asia and Africa prevented the CAB from reaching the study area. This abruptness was probably buffered by a contemporaneous change in precession producing an insolation maximum at the equator during September–October. This change would have meant that the only rain source was the Intertropical Convergence Zone (ITCZ), which would have carried a greater amount of moisture during the short rainy season thus slowing the fall in water level over a period of about 1000 years in association with the reduction in insolation. The results of this study provide an indication of the amount of time available for humans in north-eastern Africa to adapt in response to a changing climate, from hunting and gathering to farming and herding.
- Published
- 2013
46. The Hominin sites and Palaeolakes Drilling Project: testing hypotheses of climate-driven human evolution and dispersal at Chew Bahir, Ethiopia
- Author
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Giday WoldeGabriel, Janet Rethemeyer, Henry F. Lamb, Christopher Bronk Ramsey, Annett Junginger, E. Martin-Jones, Alan L. Deino, Martin H. Trauth, Dei G. Huws, Timothy D. Raub, C. Rogass, D. Mark, Helen M. Roberts, V. Förster, Bernd Wagner, Christine Lane, Nicholas J. G. Pearce, Finn Viehberg, Matt Grove, Frank Schäbitz, Richard Bates, Emma J. Pearson, Phillip A. Barker, Asfawossen Asrat, Melanie J. Leng, M. Konrad-Schmolke, Siwan M. Davies, and Andrew S. Cohen
- Subjects
010506 paleontology ,Structural basin ,010502 geochemistry & geophysics ,01 natural sciences ,law.invention ,Tectonics ,Oceanography ,Human evolution ,law ,Biological dispersal ,Radiocarbon dating ,Physical geography ,Tephrochronology ,Quaternary ,Geology ,0105 earth and related environmental sciences ,Earth-Surface Processes ,Chronology - Abstract
There are numerous hypotheses linking climatic trends, events and variability to human origins, evolution and dispersal. Long palaeoenvironmental records from continental sites that may allow tests of these hypotheses are only now becoming available, but most are distant from fossil human sites. The Hominin Sites and Palaeolakes Drilling Project (HSPDP) aims to obtain long continuous sediment cores spanning critical intervals of evolutionary history from lacustrine sites close to globally significant hominin sites in East Africa. Together, the five sites – Northern Awash and Chew Bahir, Ethiopia; West Turkana, Baringo Basin and Lake Magadi, Kenya – will provide multi-proxy records spanning the last 4 million years. This will allow us to correlate and compare environmental changes to the more fragmentary record of evolution, dispersal, extinction and cultural innovation. The project team will evaluate models of climatic and tectonic forcing of environmental processes and landscape resources. We will test hypotheses linking climate variability to physical and cultural evolution. The project is supported by the International Continental Drilling Program (ICDP), NSF (USA), DFG (Germany) and by NERC (UK). Drilling began in June 2013 in Kenya. NERC funded research focuses on the Chew Bahir site in Ethiopia, where a survey of basin sediments using 2D electrical resistivity tomography was completed in October 2013 and drilling of a 400m core is scheduled for November 2014. A team of UK Quaternary scientists will work with German and Ethiopian colleagues to produce a multi-proxy record which is anticipated will cover the last c. 500,000 years. Detailed analysis will focus on identifying the nature of climate variability during the penultimate glacial-interglacial transition (Termination II: c. 125–135 ka), once an outline chronology has been established. Key proxies are: high-resolution geochemistry; isotopes (δ13C, δ18Ocarb, δ18Odiatom, δ18Oostracod); biomarkers (including GDGTs and compound specific leaf wax δ13C and δD); pollen; diatoms; ostracods and magnetic properties. The chronological framework will be constructed using radiocarbon, Post-IR IR stimulated luminescence and 40Ar-–39Ar dating along with tephrochronology, which will be used to correlate between sites where possible. The record of climatic and ecological change, from Chew Bahir, along with previous data from Lake Tana, will be used as model input to test the hypothesis that periods of high climatic variability correlate with key biological and cultural transitions.
- Published
- 2016
- Full Text
- View/download PDF
47. First results from the deep drilling at Chew Bahir (S-Ethiopia)
- Author
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Henry F. Lamb, Annett Junginger, V. Förster, Finn Viehberg, Andrew S. Cohen, Janna Just, Martin H. Trauth, Volker Wennrich, Nicole Klasen, Bernd Wagner, Frank Schäbitz, Janet Rethemeyer, and Asfawossen Asrat
- Subjects
Paleontology ,Deep drilling ,Geology ,Earth-Surface Processes - Published
- 2016
- Full Text
- View/download PDF
48. Late Glacial and Holocene environmental history of the Ethiopian Highlands inferred from a 12 m long sediment record from Dendi crater lakes
- Author
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Volker Wennrich, Viehberg, A. Kolvenbach, Asfawossen Asrat, Henry F. Lamb, Annett Junginger, Janet Rethemeyer, T. Endale, Frank Schäbitz, and Bernd Wagner
- Subjects
Impact crater ,Sediment ,Glacial period ,Physical geography ,Environmental history ,Tephra ,Archaeology ,Geology ,Holocene ,Earth-Surface Processes - Published
- 2016
- Full Text
- View/download PDF
49. Climatic change recorded in the sediments of the Chew Bahir basin, southern Ethiopia, during the last 45,000 years
- Author
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Tsige Gebru, Norbert R. Nowaczyk, Volker Wennrich, Martin H. Trauth, Oliver Langkamp, Janet Rethemeyer, Mohammed Umer, Frank Schaebitz, Asfawossen Asrat, Henry F. Lamb, Verena Foerster, and Annett Junginger
- Subjects
Ecology ,Climate change ,Last Glacial Maximum ,550 - Earth sciences ,Structural basin ,Arid ,Paleoclimatology ,Biological dispersal ,Chronozone ,Institut für Geowissenschaften ,Younger Dryas ,Physical geography ,Geology ,Earth-Surface Processes - Abstract
East African paleoenvironments are highly variable, marked by extreme fluctuations in moisture availability, which has far-reaching implications for the origin, evolution and dispersal of Homo sapiens in and beyond the region. This paper presents results from a pilot core from the Chew Bahir basin in southern Ethiopia that records the climatic history of the past 45 ka, with emphasis on the African Humid Period (AHP, similar to 15-5 ka calBP). Geochemical, physical and biological indicators show that Chew Bahir responded to climatic fluctuations on millennial to centennial timescales, and to the precessional cycle, since the Last Glacial Maximum. Potassium content of the sediment appears to be a reliable proxy for aridity, showing that Chew Bahir reacted to the insolation-controlled humidity increase of the AHP with a remarkably abrupt onset and a gradual termination, framing a sharply defined arid phase (similar to 12.8-11.6 ka calBP) corresponding to the Younger Dryas chronozone. The Chew Bahir record correlates well with low- and high-latitude paleoclimate records, demonstrating that the site responded to regional and global climate changes.
- Published
- 2012
50. Human evolution in a variable environment : the amplifier lakes of Eastern Africa
- Author
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Daniel Olago, Manfred R. Strecker, Mark A. Maslin, Martin H. Trauth, Eric O. Odada, Moses Lesoloyia, Annett Junginger, Alan L. Deino, Ralph Tiedemann, and Lydia A. Olaka
- Subjects
Archeology ,Global and Planetary Change ,geography ,geography.geographical_feature_category ,Rift ,Pleistocene ,Ecology ,Earth science ,Drainage basin ,Climate change ,Biosphere ,Geology ,Paleolimnology ,Graben ,East African Rift ,parasitic diseases ,Institut für Geowissenschaften ,Ecology, Evolution, Behavior and Systematics ,Institut für Biochemie und Biologie - Abstract
The development of rise Cenozoic East African Rift System (EARS) profoundly re-shaped the landscape and significantly increased the amplitude of short-term environmental response to climate variation. In particular, the development of amplifier lakes in rift basins after three million years ago significantly contributed to this exceptional sensitivity of East Africa to climate change compared to elsewhere on the African continent. Amplifier lakes are characterized by tectonically-formed graben morphologies in combination with an extreme contrast between high precipitation in the elevated parts of the catchment and high evaporation in the lake area. Such amplifier lakes respond rapidly to moderate, precessional-forced climate shifts, and as they do so apply dramatic environmental pressure to the biosphere. Rift basins, when either extremely dry or lake-filled, form important barriers for migration, mixing and competition of different populations of animals and hominins. Amplifier lakes link long-term, high-amplitude tectonic processes and short-term environmental fluctuations. East Africa may have become the place where early humans evolved as a consequence of this strong link between different time scales. (C) 2010 Elsevier Ltd. All rights reserved.
- Published
- 2010
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