TY - JOUR
T1 - The Lake CHAd Deep DRILLing project (CHADRILL) - targeting ~ 10 million years of environmental and climate change in Africa
AU - Sylvestre, Florence
AU - Schuster, Mathieu
AU - Vogel, Hendrik
AU - Abdheramane, Moussa
AU - Ariztegui, Daniel
AU - Salzmann, Ulrich
AU - Schwalb, Antje
AU - Waldmann, Nicolas
AU - Adeaga, Olusegun
AU - Ahounta, Dave
AU - Izuchukwu, Mike Akaegbobi
AU - Andossa, Likius
AU - Armitage, Simon
AU - Augustin, Laurent
AU - Barboni, Doris
AU - Bard, Edouard
AU - Berke, Melissa
AU - Bouchez, Camille
AU - Bourlès, Didier
AU - Bristow, Charles
AU - Brown, Eric
AU - Campisano, Christopher
AU - Chalié, Françoise
AU - Clarke, Leon
AU - Contoux, Camille
AU - Couapel, Martine
AU - Delanghe, Doriane
AU - Deschamps, Pierre
AU - Doumnang, Jean Claude
AU - Flecker, Rachel
AU - Harms, Uli
AU - Holmes, Jonathan
AU - Phillips, Reuben Ikhane
AU - Isseini, Moussa
AU - Jouve, Guillaume
AU - Larrasoana, Juan
AU - Lebatard, Anne Elisabeth
AU - Leroy, Suzanne
AU - Mahamoud, Youssouf
AU - Moussa, Abdheramane
AU - Nielson, Dennis
AU - Nguetsop, François
AU - Njokuocha, Reginald C.
AU - Noren, Anders
AU - Porat, Naomi
AU - Chloé, Poulin
AU - Schüler-Goldbach, Lisa
AU - Tachikawa, Kazuyo
AU - Thouveny, Nicolas
AU - Tutolo, Benjamin
N1 - Publisher Copyright: © Author(s) 2018.
PY - 2018/10/22
Y1 - 2018/10/22
N2 - At present, Lake Chad ( ~13°0 N, ~14° E) is a shallow freshwater lake located in the Sahel/Sahara region of central northern Africa. The lake is primarily fed by the Chari-Logone river system draining a ~600 000 km2 watershed in tropical Africa. Discharge is strongly controlled by the annual passage of the intertropical convergence zone (ITCZ) and monsoon circulation leading to a peak in rainfall during boreal summer. During recent decades, a large number of studies have been carried out in the Lake Chad Basin (LCB). They have mostly focused on a patchwork of exposed lake sediments and outcrops once inhabited by early hominids. A dataset generated from a 673m long geotechnical borehole drilled in 1973, along with outcrop and seismic reflection studies, reveal several hundred metres of Miocene-Pleistocene lacustrine deposits. CHADRILL aims to recover a sedimentary core spanning the Miocene-Pleistocene sediment succession of Lake Chad through deep drilling. This record will provide significant insights into the modulation of orbitally forced changes in northern African hydroclimate under different climate boundary conditions such as high CO2 and absence of Northern Hemisphere ice sheets. These investigations will also help unravel both the age and the origin of the lake and its current desert surrounding. The LCB is very rich in early hominid fossils (Australopithecus bahrelghazali; Sahelanthropus tchadensis) of Late Miocene age. Thus, retrieving a sediment core from this basin will provide the most continuous climatic and environmental record with which to compare hominid migrations across northern Africa and has major implications for understanding human evolution. Furthermore, due to its dramatic and episodically changing water levels and associated depositional modes, Lake Chad's sediments resemble maybe an analogue for lake systems that were once present on Mars. Consequently, the study of the subsurface biosphere contained in these sediments has the potential to shed light on microbial biodiversity present in this type of depositional environment. We propose to drill a total of ~1800m of poorly to semi-consolidated lacustrine, fluvial, and eolian sediments down to bedrock at a single on-shore site close to the shoreline of present-day Lake Chad. We propose to locate our drilling operations on-shore close to the site where the geotechnical Bol borehole (13°280 N, 14°440 E) was drilled in 1973. This is for two main reasons: (1) nowhere else in the Chad Basin do we have such detailed information about the lithologies to be drilled; and (2) the Bol site is close to the depocentre of the Chad Basin and therefore likely to provide the stratigraphically most continuous sequence.
AB - At present, Lake Chad ( ~13°0 N, ~14° E) is a shallow freshwater lake located in the Sahel/Sahara region of central northern Africa. The lake is primarily fed by the Chari-Logone river system draining a ~600 000 km2 watershed in tropical Africa. Discharge is strongly controlled by the annual passage of the intertropical convergence zone (ITCZ) and monsoon circulation leading to a peak in rainfall during boreal summer. During recent decades, a large number of studies have been carried out in the Lake Chad Basin (LCB). They have mostly focused on a patchwork of exposed lake sediments and outcrops once inhabited by early hominids. A dataset generated from a 673m long geotechnical borehole drilled in 1973, along with outcrop and seismic reflection studies, reveal several hundred metres of Miocene-Pleistocene lacustrine deposits. CHADRILL aims to recover a sedimentary core spanning the Miocene-Pleistocene sediment succession of Lake Chad through deep drilling. This record will provide significant insights into the modulation of orbitally forced changes in northern African hydroclimate under different climate boundary conditions such as high CO2 and absence of Northern Hemisphere ice sheets. These investigations will also help unravel both the age and the origin of the lake and its current desert surrounding. The LCB is very rich in early hominid fossils (Australopithecus bahrelghazali; Sahelanthropus tchadensis) of Late Miocene age. Thus, retrieving a sediment core from this basin will provide the most continuous climatic and environmental record with which to compare hominid migrations across northern Africa and has major implications for understanding human evolution. Furthermore, due to its dramatic and episodically changing water levels and associated depositional modes, Lake Chad's sediments resemble maybe an analogue for lake systems that were once present on Mars. Consequently, the study of the subsurface biosphere contained in these sediments has the potential to shed light on microbial biodiversity present in this type of depositional environment. We propose to drill a total of ~1800m of poorly to semi-consolidated lacustrine, fluvial, and eolian sediments down to bedrock at a single on-shore site close to the shoreline of present-day Lake Chad. We propose to locate our drilling operations on-shore close to the site where the geotechnical Bol borehole (13°280 N, 14°440 E) was drilled in 1973. This is for two main reasons: (1) nowhere else in the Chad Basin do we have such detailed information about the lithologies to be drilled; and (2) the Bol site is close to the depocentre of the Chad Basin and therefore likely to provide the stratigraphically most continuous sequence.
UR - http://www.scopus.com/inward/record.url?scp=85055480862&partnerID=8YFLogxK
U2 - https://doi.org/10.5194/sd-24-71-2018
DO - https://doi.org/10.5194/sd-24-71-2018
M3 - Article
SN - 1816-8957
VL - 24
SP - 71
EP - 78
JO - Scientific Drilling
JF - Scientific Drilling
ER -