Your search keyword '"Henry, F."' showing total 21 results

1. A Holocene temperature (brGDGT) record from Garba Guracha, a high-altitude lake in Ethiopia.

Author

Bittner, Lucas, De Jonge, Cindy, Gil-Romera, Graciela, Lamb, Henry F., Russell, James M., and Zech, Michael

Subjects

GLYCERYL ethers, HOLOCENE Epoch, CLIMATE change, ATMOSPHERIC temperature, TEMPERATURE, LAKES

Abstract

Eastern Africa has experienced strong climatic changes since the last deglaciation (15 000 years ago). The driving mechanisms and teleconnections of these spatially complex climate variations are yet not fully understood. Although previous studies on lake systems have enhanced our knowledge of Holocene precipitation variation in eastern Africa, relatively few studies have reconstructed the terrestrial temperature history of eastern Africa from lake archives. Here, we present (i) a new branched glycerol dialkyl glycerol tetraether (brGDGT) temperature calibration that includes Bale Mountains surface sediments and (ii) a quantitative record of mean annual air temperature (MAT) over the past 12 ka cal BP using brGDGTs in a sediment core collected from Garba Guracha (3950 m a.s.l.) in the Bale Mountains. After adding Bale Mountains surface sediment (n=11) data (Baxter et al., 2019) to the existing East African lake dataset, additional variation in 6-methyl brGDGTs was observed, which necessitated modifying the MBT 5ME′ calibration (MBT denotes methylation of branched tetraethers) by adding 6-methyl brGDGT IIIa ′ (resulting in the MBT Bale Mountains index, r2=0.93 , p<0.05). Comparing the MBT 5ME′ and the new MBT Bale Mountains index, our high-altitude Garba Guracha temperature record shows that warming occurred shortly after the Holocene onset when the temperature increased by more than 3.0 ∘C in less than 600 years. The highest temperatures prevailed between 9 and 6 kacalBP , followed by a temperature decrease until 1.4 kacalBP. The reconstructed temperature history is linked to supraregional climatic changes associated with insolation forcing and the African Humid Period (AHP), as well as with local anomalies associated with catchment deglaciation and hydrology. [ABSTRACT FROM AUTHOR]

Published

2022

2. The Holocene lake-evaporation history of the afro-alpine Lake Garba Guracha in the Bale Mountains, Ethiopia, based on δ18O records of sugar biomarker and diatoms.

Author

Bittner, Lucas, Gil-Romera, Graciela, Grady, Dai, Lamb, Henry F., Lorenz, Eva, Weiner, Mikaela, Meyer, Hanno, Bromm, Tobias, Glaser, Bruno, and Zech, Michael

Subjects

HOLOCENE Epoch, DIATOMS, LAKES, BIOMARKERS, SUGAR analysis, DOMOIC acid

Abstract

In eastern Africa, there are few long, high-quality records of environmental change at high altitudes, inhibiting a broader understanding of regional climate change. We investigated a Holocene lacustrine sediment archive from Lake Garba Guracha, Bale Mountains, Ethiopia, (3,950 m asl), and reconstructed high-altitude lake evaporation history using δ18O records derived from the analysis of compound-specific sugar biomarkers and diatoms. The δ18Odiatom and δ18Ofuc records are clearly correlated and reveal similar ranges (7.9‰ and 7.1‰, respectively). The lowest δ18O values occurred between 10–7 cal ka BP and were followed by a continuous shift towards more positive δ18O values. Due to the aquatic origin of the sugar biomarker and similar trends of δ18Odiatom, we suggest that our lacustrine δ18Ofuc record reflects δ18Olake water. Therefore, without completely excluding the influence of the 'amount-effect' and the 'source-effect', we interpret our record to reflect primarily the precipitation-to-evaporation ratio (P/E). We conclude that precipitation increased at the beginning of the Holocene, leading to an overflowing lake between ca. 10 and ca. 8 cal ka BP, indicated by low δ18Olake water values, which are interpreted as reduced evaporative enrichment. This is followed by a continuous trend towards drier conditions, indicating at least a seasonally closed lake system. [ABSTRACT FROM AUTHOR]

Published

2022

3. Late Pleistocene and Holocene drought events at Lake Tana, the source of the Blue Nile

Author

Marshall, Michael H., Lamb, Henry F., Huws, Dei, Davies, Sarah J., Bates, Richard, Bloemendal, Jan, Boyle, John, Leng, Melanie J., Umer, Mohammed, and Bryant, Charlotte

Subjects

*PLEISTOCENE stratigraphic geology, *HOLOCENE stratigraphic geology, *DROUGHTS, *UPLANDS, *MAGNETICS, *BIOSTRATIGRAPHY, *EARTHQUAKES

Abstract

Abstract: Magnetic and geochemical core data spanning the last 17,000years are correlated with new seismic stratigraphy from Lake Tana, Ethiopia, to infer past lake-level change and hence effective precipitation. The data confirm that low lake-level coincides with Heinrich Event 1 (H1) in the North Atlantic, as previously shown from diatom and pollen evidence (Lamb et al., 2007). The lake deepened at 15.3calkyr BP and abruptly returned to freshwater conditions, when the lake overflowed into the Blue Nile. Low runoff and lake levels and therefore rainfall are inferred between 13.0 and 12.5calkyr BP and may represent southerly suppression of the ITCZ and the associated monsoon front at the time of the Younger Dryas. Two drought episodes occurred at 8.4 and 7.5calkyr BP, and are also interpreted as a southward shift in the monsoon front. The first of these events appears to have preceded and been more significant than the 8.2calkyr BP. Precipitation declined after 6.8calkyr BP, although we do not see an abrupt end to the African Humid Period. This period culminated in a dry episode at ~4.2calkyr BP, supporting the view that reduced Nile flow was a contributing factor to the demise of the Egyptian Old Kingdom. [Copyright &y& Elsevier]

Published

2011

4. Long-term resilience, bush encroachment patterns and local knowledge in a Northeast African savanna.

Author

Gil-Romera, Graciela, Lamb, Henry F., Turton, David, Sevilla-Callejo, Miguel, and Umer, Mohammed

Subjects

SAVANNAS, ANIMALS, PASTURES, VEGETATION & climate, BIOCLIMATOLOGY

Abstract

Abstract: Bush encroachment is a significant phenomenon in savanna environments as it affects wildlife and local livelihoods by preventing new pasture generation. In this article we present a 2000-year record of vegetation change in the Dara range of the Mago National Park, southwestern Ethiopia, an area inhabited by Mursi agro-pastoralists. We use an interdisciplinary approach to understand whether bush encroachment in this area is a recent event or a transitional state of the savanna and describe the local understanding of encroachment as a species-specific process. The vegetation record was obtained from a fossil hyrax midden, a type of sediment already used in Southern Africa but never before in East Africa. Six encroaching phases, led by Capparaceae and Grewia, were found over the last two millennia. The system proved to be resilient, with alternating open and encroached phases, and showed a non-linear response to environmental change, thereby fitting the control theory hypothesis for hysteresis loops. Determining the thresholds conditioning the system''s resilience could help to improve savanna management for both local people and National Park authorities. [Copyright &y& Elsevier]

Published

2010

5. Climatic change in northern Ethiopia during the past 17,000 years: A diatom and stable isotope record from Lake Ashenge

Author

Marshall, Michael H., Lamb, Henry F., Davies, Sarah J., Leng, Melanie J., Kubsa, Zelalem, Umer, Mohammed, and Bryant, Charlotte

Subjects

*CLIMATE change, *DIATOMS, *STABLE isotopes, *WATER temperature, *LAKE sediments, *RAINFALL, *MONSOONS, *UPLANDS

Abstract

Abstract: Lake Ashenge, a closed-basin lake near the northernmost penetration of summer monsoon rains, is well placed to provide a continental record of past changes in the strength of the African monsoon system. Diatom and oxygen isotope analyses of the lake sediments confirm that the overall trend of climate change during the past 17,000 years was driven by precessional forcing, punctuated by abrupt shifts that may be linked to changes in Atlantic surface temperatures. The lake level was low from at least 17.2 to 16.2 cal kyr BP, and then rose between 16.2 and 15.2 cal kyr BP, which may represent a temporary reactivation of the monsoonal circulation system following its reduced activity during the Last Glacial Maximum. The lake was significantly low between 13.6 and ~11.8 cal kyr BP coinciding approximately with the Younger Dryas, but beginning 900 years before its recognised onset in the Greenland ice-core record. A major sedimentary hiatus, covering the interval ~11.8 to 7.6 cal kyr BP, was probably caused by an early Holocene lowstand, the precise timing of which cannot be determined because pre-lowstand sediments were eroded from the core site. The lake filled to its overflow from 7.6 cal kyr BP until 5.6 cal kyr BP, when the sediments record an abrupt lake response to the regional transition to arid conditions that mark the end of African Humid Period. Evidence is also presented for climate changes which may have been associated with the rise and fall of Aksum, Ethiopia''s first great civilisation. [Copyright &y& Elsevier]

Published

2009

6. Late Pleistocene desiccation of Lake Tana, source of the Blue Nile

Author

Lamb, Henry F., Bates, C. Richard, Coombes, Paul V., Marshall, Michael H., Umer, Mohammed, Davies, Sarah J., and Dejen, Eshete

Subjects

*SEDIMENTATION & deposition, *AQUATIC invertebrates, *RIVERS

Abstract

Abstract: High-resolution seismic data from Lake Tana, the source of the Blue Nile in northern Ethiopia, reveal a deep sedimentary sequence divided by four strong reflectors. Data from nearshore cores show that the uppermost strong reflector represents a stiff silt unit, interpreted as a desiccation surface. Channel cuts in this surface, bordered by levee-like structures, are apparent in the seismic data from near the lake margin, suggesting fluvial downcutting and over-bank deposition during seasonal flood events. Periphytic diatoms and peat at the base of a core from the deepest part of the lake overlie compacted sediments, indicating that desiccation was followed by development of shallow-water environments and papyrus swamp in the central basin between 16,700 and 15,100cal BP. As the lake level rose, open-water evaporation from the closed lake caused it to become slightly saline, as indicated by halophytic diatoms. An abrupt return to freshwater conditions occurred at 14,750cal BP, when the lake overflowed into the Blue Nile. Further reflection surfaces with downcut structures are identifiable in seismic images of the overlying sediments, suggesting at least two lesser lake-level falls, tentatively dated to about 12,000 and 8000cal BP. Since Lake Victoria, the source of the White Nile, was also dry until 15,000cal BP, and did not reach overflow until 14,500cal BP, the entire Nile system must have been reduced to intermittent seasonal flow until about 14,500cal BP, when baseflow was re-established with almost simultaneous overflow of the headwater lakes of both the White and Blue Nile rivers. Desiccation of the Nile sources coincides with Heinrich event 1, when cessation of northward heat transport from the tropical Atlantic disrupted the Atlantic monsoon, causing drought in north tropical Africa. The strong reflectors at deeper levels in the seismic sequence of Lake Tana may represent earlier desiccation events, possibly contemporaneous with previous Late Pleistocene Heinrich events. [Copyright &y& Elsevier]

Published

2007

7. Diatom-derived palaeoconductivity estimates for Lake Awassa, Ethiopia: evidence for pulsed inflows of saline groundwater.

Author

Telford, Richard J., Lamb, Henry F., and Mohammed, Mohammed Umer

Subjects

DIATOMS, GEOLOGICAL basins, LAKES

Abstract

A 6,500-year diatom stratigraphy has been used to infer hydrochemical changes in Lake Awassa, a topographically closed oligosaline lake in the Ethiopian Rift Valley. Conductivity was high from ~6400-6200 BP, and from 5200-4000 BP, with two brief episodes of lower conductivity during the latter period. Although the timing of the conductivity changes is similar to the timing of lake-level change in the nearby Zwai-Shalla basin, their directions are the reverse of that expected from a climatic cause. Dissolution of the tephras which precede both phases of high conductivity cannot explain the increases in salinity, because rhyolitic tephras are only sparingly soluble. Instead, the pulsed input of groundwater made saline by the reaction of silicate minerals and volcanic glass with carbonic acid, formed from the solution of carbon dioxide degassed from magma under the Awassa Caldera, is suggested as a plausible mechanism for the observed change in lake chemistry. Diatom-inferred hydrochemistry cannot therefore be used to reconstruct climate change in Lake Awassa. [ABSTRACT FROM AUTHOR]

Published

1999

8. Late Quaternary climate change in the north-eastern highlands of Ethiopia: A high resolution 15,600 year diatom and pigment record from Lake Hayk.

Author

Loakes, Katie L., Ryves, David B., Lamb, Henry F., Schäbitz, Frank, Dee, Michael, Tyler, Jonathan J., Mills, Keely, and McGowan, Suzanne

Subjects

*INTERGLACIALS

Abstract

Abstract Multi-proxy analyses of an 8 m sediment core from Lake Hayk, a closed, freshwater lake in the north-central highlands of Ethiopia, provide a record of changing lake level and inferred regional climatic change for the last 15.6 cal ka years. Between ca. 15.6–15.2 cal ka BP, a lowstand was synchronous with Heinrich Event 1 and an intense drought across Eastern Africa. At ca. 15.2 cal ka BP a lake began to develop at the core site in response to wetter conditions, at the onset of the African Humid Period (AHP). However, in contrast to other lakes in eastern Africa, Hayk lake level fell around ca. 14.8 cal ka BP, indicating a climate shift towards aridity. The lake began filling again at ca. 12.3 cal ka BP and reached maximum water depth between ca. 12.0–10.0 cal ka BP. Lake level declined slowly during the Holocene, culminating in the termination of the AHP at Hayk between ca. 5.2–4.6 cal ka BP. In the late Holocene, ca. 2.2–1.3 cal ka BP, Lake Hayk was again deep and fresh with some evidence of short-term lake level variability. The palaeo-record from Lake Hayk indicates that while it experienced, to a broad degree, the same glacial-interglacial dynamics and sub-millennial shifts in climate found in other palaeolimnological records from eastern Africa, there are offsets in timing and rate of response. These differences reflect chronological discrepancies between records, as well as the varying climate sensitivities and site-specific factors of individual lake basins. This record highlights the different responses by lakes in a climatically vulnerable area of Ethiopia. Highlights • Discrepancies in the timing of the Younger Dryas Stadial proper. • No evidence for the catastrophic shift in climate centred at 8.2 ka. • Diatom evidence suggesting relatively rapid AHP termination. • High-resolution evidence of millennial to multi-decadal variability at Lake Hayk. • Regional discrepancies in the timing and expression of climatic events. [ABSTRACT FROM AUTHOR]

Published

2018

9. Generating long chronologies for lacustrine sediments using luminescence dating: a 250,000 year record from Lake Tana, Ethiopia.

Author

Roberts, Helen M., Bryant, Charlotte L., Huws, Dei G., and Lamb, Henry F.

Subjects

*OPTICALLY stimulated luminescence, *THERMOLUMINESCENCE dating

Abstract

Abstract The lakes of the eastern Africa Rift often contain great thicknesses of sediment that may provide continuous records of environmental change over decadal to million-year timescales. However interpretation of these changes is greatly compromised without a reliable chronology. Luminescence dating has not been used extensively in lacustrine settings; instead previous studies have often relied upon radiocarbon dating, using extrapolation beyond the upper limit of that technique, and employing opportunistic sampling of tephra and palaeomagnetic signatures where possible. This study from Lake Tana, Ethiopia, demonstrates that recent advances in luminescence methodology can provide long chronologies for lake sediments that are not dependent on the intermittent presence of dateable material, as is the case for radiocarbon and tephra-based methods. Specifically, this study generates luminescence ages that agree with independent chronology based on radiocarbon dating in the upper part of the core, and extends significantly beyond the range of radiocarbon dating to provide one of the longest independently dated lacustrine sediment records in eastern Africa, thus demonstrating the tremendous potential of luminescence for constructing lacustrine sediment chronologies over 100,000 year timescales. Highlights • Recent advances make it timely to apply luminescence methods to date lake sediments. • Luminescence dating can provide long chronologies throughout lake sediment cores. • The application of luminescence dating to sediments from Lake Tana is discussed. • One of the longest independently dated lake records in eastern Africa. • Demonstrates the contribution luminescence dating can make to lacustrine studies. [ABSTRACT FROM AUTHOR]

Published

2018

10. Environmental change during MIS4 and MIS 3 opened corridors in the Horn of Africa for Homo sapiens expansion.

Author

Viehberg, Finn A., Just, Janna, Dean, Jonathan R., Wagner, Bernd, Franz, Sven Oliver, Klasen, Nicole, Kleinen, Thomas, Ludwig, Patrick, Asrat, Asfawossen, Lamb, Henry F., Leng, Melanie J., Rethemeyer, Janet, Milodowski, Antoni E., Claussen, Martin, and Schäbitz, Frank

Subjects

*LAKE sediments, *FOSSIL hominids

Abstract

Abstract Archaeological findings, numerical human dispersal models and genome analyses suggest several time windows in the past 200 kyr (thousands of years ago) when anatomically modern humans (AMH) dispersed out of Africa into the Levant and/or Arabia. From close to the key hominin site of Omo-Kibish, we provide near continuous proxy evidence for environmental changes in lake sediment cores from the Chew Bahir basin, south Ethiopia. The data show highly variable hydroclimate conditions from 116 to 66 kyr BP with rapid shifts from very wet to extreme aridity. The wet phases coincide with the timing of the North African Humid Periods during MIS5, as defined by Nile discharge records from the eastern Mediterranean. The subsequent record at Chew Bahir suggests stable regional hydrological setting between 58 and 32 kyr (MIS4 and 3), which facilitated the development of more habitable ecosystems, albeit in generally dry climatic conditions. This shift, from more to less variable hydroclimate, may help account for the timing of later dispersal events of AMH out of Africa. Highlights • Multiproxy record from S Ethiopia extends knowledge about environment and climate of past 116,000 yrs during human expansion. • Hydroclimate during Marine Isotope Stage (MIS) 5 was much more variable (frequency and amplitude) than during MIS 3 and 4. • Earth system models and model simulations of intermediate complexity emulate corresponding amplitude shifts in hydroclimate. • Environment was arid during MIS 3 and 4, but permanent lake water bodies existed as inferred from our biological proxies. [ABSTRACT FROM AUTHOR]

Published

2018

11. Climatic change recorded in the sediments of the Chew Bahir basin, southern Ethiopia, during the last 45,000 years

Author

Foerster, Verena, Junginger, Annett, Langkamp, Oliver, Gebru, Tsige, Asrat, Asfawossen, Umer, Mohammed, Lamb, Henry F., Wennrich, Volker, Rethemeyer, Janet, Nowaczyk, Norbert, Trauth, Martin H., and Schaebitz, Frank

Subjects

*CLIMATE change, *SEDIMENTS, *GEOLOGICAL basins, *MOISTURE, *BIOINDICATORS

Abstract

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, ∼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 (∼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. [Copyright &y& Elsevier]

Published

2012

12. Holocene climate and vegetation change in the Main Ethiopian Rift Valley, inferred from the composition (C/N and δ13C) of lacustrine organic matter

Author

Lamb, Angela L., Leng, Melanie J., Umer Mohammed, Mohammed, and Lamb, Henry F.

Subjects

*HOLOCENE paleoceanography, *VEGETATION & climate, *ORGANIC compounds

Abstract

In order to track changes in the relative abundance of C3 and C4 plants in savanna vegetation, C/N and δ13C values were measured on bulk organic material in an 8840 14C-year record from Lake Tilo, Ethiopia. Between 8840 and 2500 BP, high C/N ratios suggest that input to the lake was predominantly from terrestrial plants. The corresponding δ13C values thus provide a proxy for changes in catchment vegetation that are supported by pollen data. δ13C values in the early Holocene are relatively low, reflecting the dominance of C3 vegetation (woody plants) and a more humid climate. δ13C shows no response to a known regional arid interval at 7800 yr BP, suggesting that woody vegetation was able to survive relatively prolonged dry periods. A gradual, rather than sharp, δ13C response to the end of the early Holocene humid interval at ∼4500 yr BP further supports this. Higher δ13C values at ∼2800–2300 and ∼1000 yr BP correspond to increases in sedge pollen, thought to be growing in freshwater springs, exposed as lake-level fell. The C/N and δ13C composition of bulk organic material complements the pollen evidence and may be useful in other lakes in savanna regions as indicators of terrestrial vegetation change. [Copyright &y& Elsevier]

Published

2004

13. Using multiple chronometers to establish a long, directly-dated lacustrine record: Constraining >600,000 years of environmental change at Chew Bahir, Ethiopia.

Author

Roberts, Helen M., Ramsey, Christopher Bronk, Chapot, Melissa S., Deino, Alan L., Lane, Christine S., Vidal, Céline, Asrat, Asfawossen, Cohen, Andrew, Foerster, Verena, Lamb, Henry F., Schäbitz, Frank, Trauth, Martin H., and Viehberg, Finn A.

Subjects

*OPTICALLY stimulated luminescence, *CHRONOMETERS, *MESOLITHIC Period, *STONE Age, *MASTICATION

Abstract

Despite eastern Africa being a key location in the emergence of Homo sapiens and their subsequent dispersal out of Africa, there is a paucity of long, well-dated climate records in the region to contextualize this history. To address this issue, we dated a ∼293 m long composite sediment core from Chew Bahir, south Ethiopia, using three independent chronometers (radiocarbon, 40Ar/39Ar, and optically stimulated luminescence) combined with geochemical correlation to a known-age tephra. The site is located in a climatically sensitive region, and is close to Omo Kibish, the earliest documented Homo sapiens fossil site in eastern Africa, and to the proposed dispersal routes for H. sapiens out of Africa. The 30 ages generated by the various techniques are internally consistent, stratigraphically coherent, and span the full range of the core depth. A Bayesian age-depth model developed using these ages results in a chronology that forms one of the longest independently dated, high-resolution lacustrine sediment records from eastern Africa. The chronology illustrates that any record of environmental change preserved in the composite sediment core from Chew Bahir would span the entire timescale of modern human evolution and dispersal, encompassing the time period of the transition from Acheulean to Middle Stone Age (MSA), and subsequently to Later Stone Age (LSA) technology, making the core well-placed to address questions regarding environmental change and hominin evolutionary adaptation. The benefits to such studies of direct dating and the use of multiple independent chronometers are discussed. • Four independent dating methods applied to ∼293 m lake core from southern Ethiopia. • Reveals 620 ka high-resolution sedimentary record near key fossil hominin sites. • Mean accumulation rate of 0.47 mm/a comparable to other African lacustrine sediments. • Accumulation rate fell to 0.1 mm/a during MIS 2, likely due to reduced sediment supply. • Use of multiple independent chronometers is a powerful approach in lake settings. [ABSTRACT FROM AUTHOR]

Published

2021

14. Recurring types of variability and transitions in the ∼620 kyr record of climate change from the Chew Bahir basin, southern Ethiopia.

Author

Trauth, Martin H., Asrat, Asfawossen, Cohen, Andrew S., Duesing, Walter, Foerster, Verena, Kaboth-Bahr, Stefanie, Kraemer, K. Hauke, Lamb, Henry F., Marwan, Norbert, Maslin, Mark A., and Schäbitz, Frank

Subjects

*ATMOSPHERIC carbon dioxide, *CYCLOSTRATIGRAPHY, *EARTH'S orbit, *CLIMATE change, *SEDIMENT analysis, *MASTICATION

Abstract

The Chew Bahir Drilling Project (CBDP) aims to test possible linkages between climate and hominin evolution in Africa through the analysis of sediment cores that have recorded environmental changes in the Chew Bahir basin (CHB). In this statistical project we used recurrence plots (RPs) together with a recurrence quantification analysis (RQA) to distinguish two types of variability and transitions in the Chew Bahir aridity record and compare them with the ODP Site 967 wetness index from the eastern Mediterranean. The first type of variability is one of slow variations with cycles of ∼20 kyr, reminiscent of the Earth's precession cycle, and subharmonics of this orbital cycle. In addition to these cyclical wet-dry fluctuations in the area, extreme events often occur, i.e. short wet or dry episodes, lasting for several centuries or even millennia, and rapid transitions between these wet and dry episodes. The second type of variability is characterized by relatively low variation on orbital time scales, but significant century-millennium-scale variations with progressively increasing frequencies. Within this type of variability there are extremely fast transitions between dry and wet within a few decades or years, in contrast to those within Type 1 with transitions over several hundreds of years. Type 1 variability probably reflects the influence of precessional forcing in the lower latitudes at times with maximum values of the long (400 kyr) eccentricity cycle of the Earth's orbit around the sun, with the tendency towards extreme events. Type 2 variability seems to be linked with minimum values of this cycle. There does not seem to be a systematic correlation between Type 1 or Type 2 variability with atmospheric CO 2 concentration. The different types of variability and the transitions between those types had important effects on the availability of water, and could have transformed eastern Africa's environment considerably, which would have had important implications for the shaping of the habitat of H. sapiens and the direct ancestors of this species. [ABSTRACT FROM AUTHOR]

Published

2021

15. What we can learn from deltoidal icositetrahedrons about climate: Authigenic mineral transformation as sensitive climate proxy in the Chew Bahir sediment cores (southern Ethiopia).

Author

Günter, Christina, Foerster, Verena, Asrat, Asfawossen, Cohen, Andrew S., Deocampo, Daniel M., Lamb, Henry F., Malek, Thorsten, Schaebitz, Frank, and Trauth, Martin H.

Subjects

*FOSSIL hominids, *MESOLITHIC Period, *SEDIMENTS, *CLIMATOLOGY, *SOCIAL evolution, *MASTICATION

Abstract

Six sites in Ethiopia and Kenya, all adjacent to key paleoanthropological sites have been investigated as part of the Hominin Sites and Paleolakes Drilling Project (HSPDP), aiming at an enhanced understanding of climatic influences on human physical and cultural evolution. The recovered sediment cores from the six sites all together span the last ~3.5 Ma. The sediment core records archive environmental change during diverse milestones in human evolution, and times of dispersal and technological and cultural innovation. The 280 m-long Chew Bahir lacustrine record, recovered from a tectonically-bound basin in the southern Ethiopian rift in late 2014, covers the past ~600 ka of environmental history, a time period that includes the transition to the Middle Stone Age, and the origin and dispersal of modern Homo sapiens. Developing a continuous climate history based on sediment core composition is not straightforward because on one hand some indicators might only be preserved intermittently and on the other hand the physical and chemical properties of the sedimentary deposits do not have a linear relationship to climate. Here we present the first outcome of our ongoing work on deciphering direct paleoenvironmental information from authigenic mineral transformations in the long (~280 m) Chew Bahir sediment cores. First results suggest mineralogical and geochemical indicators record wet, dry and hyper-arid climate intervals. Preliminary work suggests that the most extreme evaporative phases are represented by authigenic mineral assemblages including Mg-enriched clays, low-temperature authigenic illite and euhedral analcime. SEM and Energy Dispersive Spectrometer (EDS) analyses confirm that the variations in the analcime abundance that are evident in the XRD dataset seem to be distinctly formed deltoidal icositetrahedrons. These are known to form in highly saline and alkaline brines (pH 9 and higher) and can be associated with pronounced arid phases. Understanding and determining the degree of authigenic mineral alteration in the Chew Bahir records will enable interpretation of µXRF-derived indicators (e.g. K correlated with aridity), and provide direct paleohydrologic data. Together with a well-constrained age-model, our growing understanding of site-specific proxy formation and the establishment of climate proxies for Chew Bahir will provide a robust environmental history on decadal to orbital timescales. [ABSTRACT FROM AUTHOR]

Published

2019

16. From peaks and patterns to proxy and palaeo: towards a reliable palaeoenvironmental record (Chew Bahir, southern Ethiopia).

Author

Foerster, Verena E., Asrat, Asfawossen, Cohen, Andrew S., Deocampo, Daniel M., Duesing, Walter, Guenter, Christina, Junginger, Annett, Lamb, Henry F., Opitz, Stephan, Schaebitz, Frank, and Trauth, Martin H.

Subjects

*LAKE sediments, *MESOLITHIC Period, *CLIMATE change, *PARAGENESIS, *CLAY minerals, *FOSSIL hominids, *COMPOSITION of sediments, *PROXY

Abstract

How do we convert variabilities and trends in hundreds of potential parameters that are typically analyzed in the framework of a scientific drilling project to actual climate proxies? Using the case study from the Chew Bahir core from the southern Ethiopian Rift, we will show that deciphering climate information from lake sediments is challenging, because of the complex relationship between climate parameters and sediment composition. Establishing a reliable climate proxy for a new terrestrial archive requires the stepwise development of a profound understanding of both climate-controlled and non-climate controlled processes in the catchment. As a contribution towards an enhanced understanding of human-climate interactions the Chew Bahir Drilling Project, as part of HSPDP (Hominin Sites and Paleolakes Drilling Project) recovered 280 m-long sediment records 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 to the Middle Stone Age, and the origin and dispersal of modern Homo sapiens. By deconvolving the relationship between sedimentological processes and geochemical parameters and strongly climate-controlled processes in the Chew Bahir basin, such as weathering (incongruent dissolution), transportation and authigenic mineral alteration, site-specific indicators for climate shifts on different magnitudes are being developed to eventually provide a detailed and reliable climate record. This study uses a multi indicator approach including whole rock and clay mineral analyses (XRD), XRF geochemistry and sedimentology such as grain size analysis. We will illustrate how sensitively the degree of authigenic transformation in especially clay minerals and zeolites has recorded even subtle shifts in the hydrochemistry of paleolake and porewaters, thereby representing a robust tool for differentiating contrasting chemical environments controlled by climatic change. The precise time resolution, largely continuous record and (eventually) a detailed understanding of site specific proxy formation, will give us a continuous record of environmental history on decadal to orbital timescales. Our data enable us to test current hypotheses of the impact of a variety of climate shifts on human evolution and dispersal. [ABSTRACT FROM AUTHOR]

Published

2019

17. Good times for leaving home? The paleoenvironment of Chew Bahir in south Ethiopia: implications for human evolution, dispersal and technological innovation.

Author

Schäbitz, Frank, Asrat, Asfawossen, Andrew, Cohen, Jonathan, Dean, Deino, Alan, Deocampo, Daniel M., Düsing, Walter, Foerster, Verena, Christina, Günter, Junginger, Annett, Lamb, Henry F., Lane, Christine, Leng, Melanie J., Lupien, Rachel, Roberts, Helen M., Ramsey, Christopher, Rusell, James, Pearson, Emma, Vidal, Célin, and Trauth, Martin

Subjects

*HUMAN evolution, *PLAYAS, *STRONTIUM isotopes, *SOCIAL evolution, *MASTICATION, *TECHNOLOGICAL innovations, *CHEMICAL plants, *DIFFUSION of innovations theory

Abstract

The sediments of the Chew Bahir playa lake in southern Ethiopia were cored down to 280 m depth in the context of HSPDP (Hominin Sites and Paleolakes Drilling Project) and CRC (Collaborative Research Center) 806 "Our way to Europe" projects. The main aim is to reconstruct the paleoenvironmental conditions during the development of anatomically modern humans (AMH) and to test hypotheses about human evolution, dispersal and technological innovation. Based on several dating methods (14C, Ar/Ar, optical stimulated luminescence, chemical fingerprints of tephras) the composite core is shown to cover the last ~600 ka and therefore brackets the time period of important steps in cultural evolution, from Late Acheulean to Middle/Late Stone Age technologies, the origin of AMH, as well as the most recent "Out of Africa" human dispersal events. The multiproxy record of the composite core (e.g., chemical and physical sediment properties, stable C, O and Sr isotope ratios of carbonates, microfossil assemblages and biomarkers) indicates long- and short-time hydroclimatic changes mainly driven by orbital controlled insolation (mostly the Earth's precession ~15-25 ka, but also eccentricity ~90-120 ka). We compare our Chew Bahir data with results from other long marine and terrestrial paleoclimatic records. Here we focus on particularly strong wet and dry fluctuations at Chew Bahir during the last 200 ka to test established hypotheses for human dispersal and technological innovation. The record indicates that at least some of the human dispersal waves have taken place during wetter environmental conditions offering green corridors in East Africa, one of the source regions of our ancestors. [ABSTRACT FROM AUTHOR]

Published

2019

18. How wet is wet? Quantifying hydrological changes over the past 15,000 years in the Chew Bahir basin, southern Ethiopia.

Author

Markowska, Monika, Vonhof, Hubert, Fischer, Markus L., Zinaye, Bahru, Foester, Verena E., Asrat, Asfawossen, Lamb, Henry F., Schaebitz, Frank, and Junginger, Annett

Subjects

*STRONTIUM isotopes, *MASTICATION, *TIME measurements, *STRONTIUM, *SHORELINES

Abstract

Eastern African hydroclimate in the early Holocene created a lush landscape in what iscommonly referred to as the African Humid Period (AHP: ∼15 to 5 ka). The termination ofthe AHP was characterised by a climatic shift towards drier conditions. This resulted in thedesiccation of many lakes and may have pressured hunter-gather societies to move towardsconcentrated pastoralist settlements at the shores of the few remaining lake areas or rivervalleys. During the AHP, Lake Chew Bahir, in the East African Rift System, was presumablyexpansive with a paleo-shoreline ∼30 m higher than present day, and likely served as animportant freshwater source and refugia. Today it is a predominantly dry playamudflat with ephemeral swamps in the deltaic areas. Strontium (Sr) isotope ratios(87Sr/86Sr) preserved in carbonate-rich lacustrine strata provide regionally-specificrecords of past variability in weathering and regional drainage patterns. Duringhumid episodes, the Chew Bahir catchment expands northwards to include theChamo and Abaya catchments. As these catchments are dominated by volcaniclithology, with low Sr isotopic ratios, additional water inflow from here can potentiallychange the overall Sr isotope ratio of the lake water in Chew Bahir in a measurableway. This study aims to reconstruct the hydrobalance of paleolake Chew Bahir using athree-step approach. We first establish the Sr isotope ratio of the input end members bysampling modern waters from the Chew Bahir and adjacent catchments, includinggroundwater, lakes, springs and rivers. We then analyse the Sr isotope ratios of microfossilsfrom the time period of the most recent AHP lake level high-stand from three shortcores (CB05, CB06 and CB03) along a transect from the centre to the westernmargin of the Chew Bahir basin. Finally, we use the paleo Sr isotope record over thelast 15 ka to develop an isotopically-enabled hydrobalance model to quantify pastlake levels. Over the last ∼15 ka 87Sr/86Sr ranges from 0.7059 to 0.7066, withhigher values during the start of the AHP, decreasing towards the termination. Thissuggests a larger input of water entering paleolake Chew Bahir from the northerlycatchments and paleo-connectivity of these lake systems during humid periods.This study provides valuable data for reconstructing millennial-scale change inhydrobalance and freshwater availability, in a highly-sensitive climate region, overa key time period for the transition from hunter-gather societies to pastoralism. [ABSTRACT FROM AUTHOR]

Published

2019

19. Trends, rhythms and transitions during the Late Quaternary in southern Ethiopia.

Author

Duesing, Walter, Asrat, Asfawossen, Foerster, Verena E., Kraemer, Hauke, Lamb, Henry F., Marwan, Norbert, Schaebitz, Frank, and Trauth, Martin H.

Subjects

*RHYTHM

Published

2018

20. If only mud could talk. . . what we can learn from minerals and grains in the Chew Bahir sediment cores (southern Ethiopia).

Author

Foerster, Verena E., Asrat, Asfawossen, Cohen, Andrew S., Deocampo, Daniel M., Duesing, Walter, Günter, Christina, Junginger, Annett, Kraemer, Hauke, Lamb, Henry F., Opitz, Stephan, Schaebitz, Frank, and Trauth, Martin H.

Subjects

*MUD, *GRAIN, *MINERALS, *SEDIMENTS, *MASTICATION

Published

2018

21. Long-term fire resilience of the Ericaceous Belt, Bale Mountains, Ethiopia.

Author

Gil-Romera G, Adolf C, Benito BM, Bittner L, Johansson MU, Grady DA, Lamb HF, Lemma B, Fekadu M, Glaser B, Mekonnen B, Sevilla-Callejo M, Zech M, Zech W, and Miehe G

Subjects

Charcoal, Ethiopia, Humans, Lakes, Ecosystem, Fires

Abstract

Fire is the most frequent disturbance in the Ericaceous Belt (ca 3000-4300 m.a.s.l.), one of the most important plant communities of tropical African mountains. Through resprouting after fire, Erica establishes a positive fire feedback under certain burning regimes. However, present-day human activity in the Bale Mountains of Ethiopia includes fire and grazing systems that may have a negative impact on the resilience of the ericaceous ecosystem. Current knowledge of Erica-fire relationships is based on studies of modern vegetation, lacking a longer time perspective that can shed light on baseline conditions for the fire feedback. We hypothesize that fire has influenced Erica communities in the Bale Mountains at millennial time-scales. To test this, we (1) identify the fire history of the Bale Mountains through a pollen and charcoal record from Garba Guracha, a lake at 3950 m.a.s.l., and (2) describe the long-term bidirectional feedback between wildfire and Erica, which may control the ecosystem's resilience. Our results support fire occurrence in the area since ca 14 000 years ago, with particularly intense burning during the early Holocene, 10.8-6.0 cal ka BP. We show that a positive feedback between Erica abundance and fire occurrence was in operation throughout the Lateglacial and Holocene, and interpret the Ericaceous Belt of the Ethiopian mountains as a long-term fire resilient ecosystem. We propose that controlled burning should be an integral part of landscape management in the Bale Mountains National Park.

Published

2019