Abstract
Holocene climate in North Africa and on the Arabian Peninsula has undergone major changes. In this contribution, we review hydroclimate and temperature changes in the region over the past 15,000 years by correlating and integrating all available case studies. A pronounced wet period corresponding to the ‘Green Sahara’ and its equivalent in Arabia commenced between 15,000 and 9000 years BP and ended sometime between 6500 and 3500 years BP, followed by arid conditions throughout the late Holocene. Start and end dates vary between locations, depending on local factors, climate amplifiers and chosen climate proxies, leading to a spatially and temporally complex distribution. Some studies show gradual transitions between the hydroclimatic states while other locations evidenced abrupt changes. The humid phase was triggered by a northward migration of the Intertropical Convergence Zone (ITCZ) due to orbital precession. The northernmost parts of North Africa and the Arabian Peninsula were not reached by the ITCZ. Here, increased early Holocene humidity may have been due to an intensification of southern Mediterranean winter rain and its deeper penetration southwards into the present-day desert areas. The early Holocene ‘Green Sahara’ forms part of a long series of wet periods that have occurred over the past hundred thousand to million years in North Africa and Arabia. Notably, climate models are still unable to match the observed hydroclimatic changes in a quantitative way. Simulated rainfall during the African Humid Period over the Sahara is not sufficient to sustain vegetation at a level seen in the palaeo record, indicating that processes such as vegetation and dust feedbacks still need to be refined. Sea surface temperatures in North Africa and Arabia during the early Holocene were generally one to several degrees C warmer than during the late Holocene. Warming began around 12,000 years BP and ended around 5000 years BP. The warm period generally coincided with the early Holocene wet phase in the region and is linked to the Holocene Thermal Maximum, an early Holocene period during which temperatures were globally elevated. The review suggests that the Holocene climate history of North Africa and Arabia is closely linked to the global development and that significant temperature changes have also occurred in subtropical climate belts.
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References
Adkins J, deMenocal P, Eshel G (2006) The “African humid period” and the record of marine upwelling from excess 230Th in Ocean Drilling Program Hole 658C. Paleoceanography 21(4)
Amaral PGC, Vincens A, Guiot J, Buchet G, Deschamps P, Doumnang JC, Sylvestre F (2013) Palynological evidence for gradual vegetation and climate changes during the African humid period termination at 13°N from a Mega-Lake Chad sedimentary sequence. Clim Past 9(1):223–241
Anderson DM, Baulcomb CK, Duvivier AK, Gupta AK (2010) Indian summer monsoon during the last two millennia. J Quat Sci 25(6):911–917
Armitage SJ, Bristow CS, Drake NA (2015) West African monsoon dynamics inferred from abrupt fluctuations of Lake Mega-Chad. Proc Natl Acad Sci 112(28):8543–8548
Arz HW, Lamy F, Pätzold J, Müller PJ, Prins M (2003a) Mediterranean moisture source for an early-Holocene humid period in the northern Red Sea. Science 300(5616):118–121
Arz HW, Pätzold J, Müller PJ, Moammar MO (2003b) Influence of Northern Hemisphere climate and global sea level rise on the restricted Red Sea marine environment during termination I. Paleoceanography 18(2)
Atkinson OAC, Thomas DSG, Parker AG, Goudie AS (2013) Late Quaternary humidity and aridity dynamics in the northeast Rub’ al-Khali, United Arab Emirates: implications for early human dispersal and occupation of eastern Arabia. Quatern Int 300:292–301
Badawi A (2016) Late Holocene hydrographic settings of the northern Red Sea. Egypt J Aquat Res 42(1):41–48
Baioumy HM, Kayanne H, Tada R (2010) Reconstruction of lake-level and climate changes in Lake Qarun, Egypt, during the last 7000 years. J Great Lakes Res 36(2):318–327
Bar-Matthews M, Ayalon A (2011) Mid-Holocene climate variations revealed by high-resolution speleothem records from Soreq Cave, Israel and their correlation with cultural changes. Holocene 21(1):163–171
Bar-Matthews M, Ayalon A, Kaufman A, Wasserburg GJ (1999) The Eastern Mediterranean paleoclimate as a reflection of regional events: Soreq cave, Israel. Earth Planet Sci Lett 166(1–2):85–95
Bar-Matthews M, Ayalon A, Gilmour M, Matthews A, Hawkesworth CJ (2003) Sea–land oxygen isotopic relationships from planktonic foraminifera and speleothems in the Eastern Mediterranean region and their implication for paleorainfall during interglacial intervals. Geochim Cosmochim Acta 67(17):3181–3199
Bartov Y, Enzel Y, Porat N, Stein M (2007) Evolution of the Late Pleistocene–Holocene Dead Sea basin from sequence statigraphy of fan deltas and lake-level reconstruction. J Sediment Res 77(9):680–692
Bernhardt CE, Horton BP, Stanley J-D (2012) Nile Delta vegetation response to Holocene climate variability. Geology 40(7):615–618
Blanchet CL, Tjallingii R, Frank M, Lorenzen J, Reitz A, Brown K, Feseker T, Brückmann W (2013) High- and low-latitude forcing of the Nile River regime during the Holocene inferred from laminated sediments of the Nile deep-sea fan. Earth Planet Sci Lett 364:98–110
Blanchet CL, Frank M, Schouten S (2014) Asynchronous changes in vegetation, runoff and erosion in the Nile River watershed during the Holocene. PLoS ONE 9(12):e115958
Boos WR, Korty RL (2016) Regional energy budget control of the intertropical convergence zone and application to mid-Holocene rainfall. Nat Geosci 9(12):892–897
Bout-Roumazeilles V, Combourieu-Nebout N, Desprat S, Siani G, Turon JL, Essallami L (2013) Tracking atmospheric and riverine terrigenous supplies variability during the last glacial and the Holocene in central Mediterranean. Clim Past 9(3):1065–1087
Bradtmiller LI, McGee D, Awalt M, Evers J, Yerxa H, Kinsley CW, deMenocal PB (2016) Changes in biological productivity along the northwest African margin over the past 20,000 years. Paleoceanography 31(1):185–202
Bubenzer O, Riemer H (2007) Holocene climatic change and human settlement between the central Sahara and the Nile Valley: archaeological and geomorphological results. Geoarchaeology 22(6):607–620
Byrne MP, Schneider T (2016) Energetic constraints on the width of the intertropical convergence zone. J Clim 29(13):4709–4721
Cacho I, Grimalt JO, Pelejero C, Canals M, Sierro FJ, Flores JA, Shackleton N (1999) Dansgaard-Oeschger and Heinrich event imprints in Alboran Sea paleotemperatures. Paleoceanography 14(6):698–705
Cacho I, Grimalt JO, Canals M, Sbaffi L, Shackleton NJ, Schönfeld J, Zahn R (2001) Variability of the western Mediterranean Sea surface temperature during the last 25,000 years and its connection with the Northern Hemisphere climatic changes. Paleoceanography 16(1):40–52
Callot Y, Fontugne M (2008) Les sites lacustres d’âge holocène dans l’est du Grand Erg occidental (nord-ouest du Sahara algérien): interprétation géomorphologique et paléoclimatique. Géomorphol Relief Process Environ 3:187–200
Cancellieri E, di Lernia S (2014) Re-entering the central Sahara at the onset of the Holocene: a territorial approach to Early Acacus hunter–gatherers (SW Libya). Quatern Int 320:43–62
Castañeda IS, Mulitza S, Schefuß E, Lopes dos Santos RA, Sinninghe Damsté JS, Schouten S (2009) Wet phases in the Sahara/Sahel region and human migration patterns in North Africa. Proc Natl Acad Sci 106(48):20159–20163
Castañeda IS, Schefuß E, Pätzold J, Sinninghe Damsté JS, Weldeab S, Schouten S (2010) Millennial-scale sea surface temperature changes in the eastern Mediterranean (Nile River Delta region) over the last 27,000 years. Paleoceanography 25(1)
Castañeda IS, Schouten S, Pätzold J, Lucassen F, Kasemann S, Kuhlmann H, Schefuß E (2016) Hydroclimate variability in the Nile River Basin during the past 28,000 years. Earth Planet Sci Lett 438:47–56
Cheddadi R, Lamb HF, Guiot J, van der Kaars S (1998) Holocene climatic change in Morocco: a quantitative reconstruction from pollen data. Clim Dyn 14(12):883–890
Cheddadi R, Bouaissa O, Rhoujjati A, Dezileau L (2016) Environmental changes in the Moroccan western Rif Mountains over the last 9,000 years. Quaternaire 27(1):15–25
Cheng H, Sinha A, Verheyden S, Nader FH, Li XL, Zhang PZ, Yin JJ, Yi L, Peng YB, Rao ZG, Ning YF, Edwards RL (2015) The climate variability in northern Levant over the past 20,000 years. Geophys Res Lett 42(20):8641–8650
Crassard R, Petraglia MD, Drake NA, Breeze P, Gratuze B, Alsharekh A, Arbach M, Groucutt HS, Khalidi L, Michelsen N, Robin CJ, Schiettecatte J (2013a) Middle Palaeolithic and Neolithic occupations around Mundafan palaeolake, Saudi Arabia: implications for climate change and human dispersals. PLoS ONE 8(7):e69665
Crassard R, Petraglia MD, Parker AG, Parton A, Roberts RG, Jacobs Z, Alsharekh A, Al-Omari A, Breeze P, Drake NA, Groucutt HS, Jennings R, Régagnon E, Shipton C (2013b) Beyond the Levant: first evidence of a pre-pottery Neolithic incursion into the Nefud Desert, Saudi Arabia. PLoS ONE 8(7):e68061
Cremaschi M, Zerboni A, Spötl C, Felletti F (2010) The calcareous tufa in the Tadrart Acacus Mt. (SW Fezzan, Libya): an early Holocene palaeoclimate archive in the central Sahara. Palaeogeogr Palaeoclimatol Palaeoecol 287(1–4):81–94
Cremaschi M, Zerboni A, Charpentier V, Crassard R, Isola I, Regattieri E, Zanchetta G (2015) Early–Middle Holocene environmental changes and pre-Neolithic human occupations as recorded in the cavities of Jebel Qara (Dhofar, southern Sultanate of Oman). Quatern Int 382:264–276
Cropper TE, Hanna E, Bigg GR (2014) Spatial and temporal seasonal trends in coastal upwelling off Northwest Africa, 1981–2012. Deep Sea Res Part I 86:94–111
Damnati B, Etebaai I, Benjilani H, El Khoudri K, Reddad H, Taieb M (2016) Sedimentology and geochemistry of lacustrine terraces of three Middle Atlas lakes: paleohydrological changes for the last 2300 cal BP in Morocco (western Mediterranean region). Quatern Int 404(Part B):163–173
deMenocal PB (2015) Palaeoclimate: end of the African humid period. Nat Geosci 8(2):86–87
deMenocal P, Ortiz J, Guilderson T, Adkins J, Sarnthein M, Baker L, Yarusinsky M (2000a) Abrupt onset and termination of the African humid period: rapid climate responses to gradual insolation forcing. Quatern Sci Rev 19(1–5):347–361
deMenocal P, Ortiz J, Guilderson T, Sarnthein M (2000b) Coherent high- and low-latitude climate variability during the Holocene warm period. Science 288(5474):2198–2202
Desprat S, Combourieu-Nebout N, Essallami L, Sicre MA, Dormoy I, Peyron O, Siani G, Bout Roumazeilles V, Turon JL (2013) Deglacial and Holocene vegetation and climatic changes in the southern Central Mediterranean from a direct land–sea correlation. Clim Past 9(2):767–787
Dinies M, Plessen B, Neef R, Kürschner H (2015) When the desert was green: grassland expansion during the early Holocene in northwestern Arabia. Quatern Int 382:293–302
Drake N, Bristow C (2006) Shorelines in the Sahara: geomorphological evidence for an enhanced monsoon from palaeolake Megachad. Holocene 16(6):901–911
Edelman-Furstenberg Y, Almogi-Labin A, Hemleben C (2009) Palaeoceanographic evolution of the central Red Sea during the late Holocene. Holocene 19(1):117–127
Eggermont H, Verschuren D, Fagot M, Rumes B, Van Bocxlaer B, Kröpelin S (2008) Aquatic community response in a groundwater-fed desert lake to Holocene desiccation of the Sahara. Quatern Sci Rev 27(25–26):2411–2425
Ehrmann W, Schmiedl G, Beuscher S, Krüger S (2017) Intensity of African humid periods estimated from Saharan dust fluxes. PLoS ONE 12(1):e0170989
Engel M, Brückner H, Pint A, Wellbrock K, Ginau A, Voss P, Grottker M, Klasen N, Frenzel P (2012) The early Holocene humid period in NW Saudi Arabia—sediments, microfossils and palaeo-hydrological modelling. Quatern Int 266:131–141
Engel M, Matter A, Parker AG, Parton A, Petraglia MD, Preston GW, Preusser F (2017) Lakes or wetlands? A comment on ‘The middle Holocene climatic records from Arabia: reassessing lacustrine environments, shift of ITCZ in Arabian Sea, and impacts of the southwest Indian and African monsoons’ by Enzel et al. Glob Planet Change 148:258–267
Enzel Y, Bookman R, Sharon D, Gvirtzman H, Dayan U, Ziv B, Stein M (2003) Late Holocene climates of the Near East deduced from Dead Sea level variations and modern regional winter rainfall. Quatern Res 60(3):263–273
Enzel Y, Kushnir Y, Quade J (2015) The middle Holocene climatic records from Arabia: reassessing lacustrine environments, shift of ITCZ in Arabian Sea, and impacts of the southwest Indian and African monsoons. Glob Planet Change 129:69–91
Enzel Y, Quade J, Kushnir Y (2017) Response to Engel et al. (in press): Lakes or wetlands? A comment on “The middle Holocene climatic records from Arabia: reassessing lacustrine environments, shift of ITCZ in Arabian Sea, and impacts of the southwest Indian and African monsoons” by Enzel et al. (2015). Glob Planet Change 148:268–271
Essallami L, Sicre MA, Kallel N, Labeyrie L, Siani G (2007) Hydrological changes in the Mediterranean Sea over the last 30,000 years. Geochem Geophys Geosyst 8(7)
Fleitmann D, Matter A (2009) The speleothem record of climate variability in Southern Arabia. C R Geosci 341(8–9):633–642
Fleitmann D, Burns SJ, Mudelsee M, Neff U, Kramers J, Mangini A, Matter A (2003) Holocene forcing of the Indian monsoon recorded in a stalagmite from southern Oman. Science 300(5626):1737–1739
Fleitmann D, Matter A, Pint JJ, Al-Shanti MA (2004) The speleothem record of climate change in Saudi Arabia. Saudi Geological Survey, Open File Report SGS-OF-2004-8, pp 1–40
Fleitmann D, Burns SJ, Mangini A, Mudelsee M, Kramers J, Villa I, Neff U, Al-Subbary AA, Buettner A, Hippler D, Matter A (2007) Holocene ITCZ and Indian monsoon dynamics recorded in stalagmites from Oman and Yemen (Socotra). Quatern Sci Rev 26(1–2):170–188
Fleitmann D, Burns SJ, Pekala M, Mangini A, Al-Subbary A, Al-Aowah M, Kramers J, Matter A (2011) Holocene and Pleistocene pluvial periods in Yemen, southern Arabia. Quatern Sci Rev 30(7–8):783–787
Frumkin A, Magaritz M, Carmi I, Zak I (1991) The Holocene climatic record of the salt caves of Mount Sedom Israel. Holocene 1(3):191–200
Fuchs M, Buerkert A (2008) A 20 ka sediment record from the Hajar Mountain range in N-Oman, and its implication for detecting arid–humid periods on the southeastern Arabian Peninsula. Earth Planet Sci Lett 265(3–4):546–558
Gasse F (2002) Diatom-inferred salinity and carbonate oxygen isotopes in Holocene waterbodies of the western Sahara and Sahel (Africa). Quatern Sci Rev 21(7):737–767
Gebel HG, Hanss C, Liebau A, Raehle W (1989) The Late Quaternary environments of ‘Ain al-Faidha/Al-‘Ain, Abu Dhabi Emirate. Archaeol U A E 5:9–48
Gennari G, Rosenberg T, Spezzaferri S, Berger J-P, Fleitmann D, Preusser F, Al-Shanti M, Matter A (2011) Faunal evidence of a Holocene pluvial phase in southern Arabia with remarks on the morphological variability of Helenina anderseni. J Foramin Res 41(3):248–259
Ginau A, Engel M, Brückner H (2012) Holocene chemical precipitates in the continental sabkha of Tayma (NW Saudi Arabia). J Arid Environ 84:26–37
Giraudi C, Mercuri AM, Esu D (2013) Holocene palaeoclimate in the northern Sahara margin (Jefara Plain, northwestern Libya). Holocene 23(3):339–352
Groucutt HS, Petraglia MD (2012) The prehistory of the Arabian Peninsula: deserts, dispersals, and demography. Evol Anthropol Issues News Rev 21(3):113–125
Guagnin M, Jennings R, Eager H, Parton A, Stimpson C, Stepanek C, Pfeiffer M, Groucutt HS, Drake NA, Alsharekh A, Petraglia MD (2016) Rock art imagery as a proxy for Holocene environmental change: a view from Shuwaymis, NW Saudi Arabia. Holocene 26(11):1822–1834
Gupta AK, Anderson DM, Overpeck J (2003) Abrupt changes in the Asian southwest monsoon during the Holocene and their links to the North Atlantic Ocean. Nature 421:354–357
Gupta AK, Das M, Anderson DM (2005) Solar influence on the Indian summer monsoon during the Holocene. Geophys Res Lett 32(L17703)
Hamann Y, Ehrmann W, Schmiedl G, Krüger S, Stuut JB, Kuhnt T (2008) Sedimentation processes in the Eastern Mediterranean Sea during the Late Glacial and Holocene revealed by end-member modelling of the terrigenous fraction in marine sediments. Mar Geol 248(1–2):97–114
Haslett SK, Smart CW (2006) Late Quaternary upwelling off tropical NW Africa: new micropalaeontological evidence from ODP Hole 658C. J Quat Sci 21(3):259–269
Hassan FA, Hamdan MA, Flower RJ, Keatings K (2012) The oxygen and carbon isotopic records in Holocene freshwater mollusc shells from the faiyum paleolakes, Egypt: their paloenvironmental and paleoclimatic implications. Quatern Int 266:175–187
Hennekam R, Jilbert T, Schnetger B, de Lange GJ (2014) Solar forcing of Nile discharge and sapropel S1 formation in the early to middle Holocene eastern Mediterranean. Paleoceanography 29(5):343–356
Hennekam R, Donders TH, Zwiep K, de Lange GJ (2015) Integral view of Holocene precipitation and vegetation changes in the Nile catchment area as inferred from its delta sediments. Quatern Sci Rev 130:189–199
Hilbert YH, White TS, Parton A, Clark-Balzan L, Crassard R, Groucutt HS, Jennings RP, Breeze P, Parker A, Shipton C, Al-Omari A, Alsharekh AM, Petraglia MD (2014) Epipalaeolithic occupation and palaeoenvironments of the southern Nefud desert, Saudi Arabia, during the Terminal Pleistocene and Early Holocene. J Archaeol Sci 50:460–474
Hillaire-Marcel C, Riser J, Rognon P, Petit-Maire N, Rosso JC, Soulie-Marche I (1983) Radiocarbon chronology of Holocene hydrologic changes in Northeastern Mali. Quatern Res 20(2):145–164
Hoelzmann P, Gasse F, Dupont LM, Salzmann U, Staubwasser M, Leuschner DC, Sirocko F (2004) Palaeoenvironmental changes in the arid and sub arid belt (Sahara-Sahel-Arabian Peninsula) from 150 kyr to present. In: Battarbee RW, Gasse F, Stickley CE (eds) Past climate variability through Europe and Africa. Springer Netherlands, Dordrecht, pp 219–256
Hoelzmann P, Schwalb A, Roberts N, Cooper P, Burgess A (2010) Hydrological response of an east-Saharan palaeolake (NW Sudan) to early-Holocene climate. Holocene 20(4):537–549
Hopcroft PO, Valdes PJ, Harper AB, Beerling DJ (2017) Multi vegetation model evaluation of the Green Sahara climate regime. Geophys Res Lett 44(13):6804–6813
Huguet C, Kim J-H, Sinninghe Damsté JS, Schouten S (2006) Reconstruction of sea surface temperature variations in the Arabian Sea over the last 23 kyr using organic proxies (TEX86 and U37K′). Paleoceanography 21(3)
Jalali B, Sicre M-A, Kallel N, Azuara J, Combourieu-Nebout N, Bassetti M-A, Klein V (2017) High-resolution Holocene climate and hydrological variability from two major Mediterranean deltas (Nile and Rhone). Holocene 27(8):1158–1168
Jaouadi S, Lebreton V, Bout-Roumazeilles V, Siani G, Lakhdar R, Boussoffara R, Dezileau L, Kallel N, Mannai-Tayech B, Combourieu-Nebout N (2016) Environmental changes, climate and anthropogenic impact in south-east Tunisia during the last 8 kyr. Clim Past 12(6):1339–1359
Jennings RP, Shipton C, Al-Omari A, Alsharekh AM, Crassard R, Groucutt H, Petraglia MD (2013) Rock art landscapes beside the Jubbah palaeolake, Saudi Arabia. Antiquity 87(337):666–683
Jung SJA, Davies GR, Ganssen GM, Kroon D (2004) Stepwise Holocene aridification in NE Africa deduced from dust-borne radiogenic isotope records. Earth Planet Sci Lett 221(1–4):27–37
Kaniewski D, Paulissen E, Van Campo E, Al-Maqdissi M, Bretschneider J, Van Lerberghe K (2008) Middle East coastal ecosystem response to middle-to-late Holocene abrupt climate changes. Proc Natl Acad Sci 105(37):13941–13946
Kaniewski D, Van Campo E, Paulissen E, Weiss H, Bakker J, Rossignol I, Van Lerberghe K (2011) The medieval climate anomaly and the little Ice Age in coastal Syria inferred from pollen-derived palaeoclimatic patterns. Glob Planet Change 78:178–187
Kaniewski D, Van Campo E, Morhange C, Guiot J, Zviely D, Shaked I, Otto T, Artzy M (2013) Early urban impact on Mediterranean coastal environments. Sci Rep 3:3540
Kim J-H, Meggers H, Rimbu N, Lohmann G, Freudenthal T, Müller PJ, Schneider RR (2007) Impacts of the North Atlantic gyre circulation on Holocene climate off northwest Africa. Geology 35(5):387–390
Knaack J (1997) Eine neue Transferfunktion zur Rekonstruktion der Paläoproduktivität aus Gemeinschaften mariner Diatomeen [A new transfer function to reconstruct paleoproductivity from marine diatom assemblages]. PhD thesis, Berichte Geologisch-Paläontologisches Institut und Museum, Kiel, vol 83, pp 1–119
Kröpelin S, Verschuren D, Lézine A-M, Eggermont H, Cocquyt C, Francus P, Cazet J-P, Fagot M, Rumes B, Russell JM, Darius F, Conley DJ, Schuster M, von Suchodoletz H, Engstrom DR (2008) Climate-driven ecosystem succession in the Sahara: the past 6000 years. Science 320(5877):765–768
Kuhlmann H, Freudenthal T, Helmke P, Meggers H (2004a) Reconstruction of paleoceanography off NW Africa during the last 40,000 years: influence of local and regional factors on sediment accumulation. Mar Geol 207(1–4):209–224
Kuhlmann H, Meggers H, Freudenthal T, Wefer G (2004b) The transition of the monsoonal and the N Atlantic climate system off NW Africa during the Holocene. Geophys Res Lett 31(22)
Kuhnt T, Schmiedl G, Ehrmann W, Hamann Y, Andersen N (2008) Stable isotopic composition of Holocene benthic foraminifers from the Eastern Mediterranean Sea: past changes in productivity and deep water oxygenation. Palaeogeogr Palaeoclimatol Palaeoecol 268(1–2):106–115
Kuper R, Kröpelin S (2006) Climate-controlled Holocene occupation in the Sahara: motor of Africa’s evolution. Science 313(5788):803–807
Lamb HF, Eicher U, Switsur VR (1989) An 18,000-year record of vegetation, lake-level and climatic change from Tigalmamine, Middle Atlas, Morocco. J Biogeogr 16(1):65–74
Lamb H, Roberts N, Leng M, Barker P, Benkaddour A, van der Kaars S (1999) Lake evolution in a semi-arid montane environment: response to catchment change and hydroclimatic variation. J Paleolimnol 21(3):325–343
Lamy F, Arz HW, Bond GC, Bahr A, Pätzold J (2006) Multicentennial-scale hydrological changes in the Black Sea and northern Red Sea during the Holocene and the Arctic/North Atlantic Oscillation. Paleoceanography 21(1)
Larrasoaña JC, Roberts AP, Rohling EJ (2013) Dynamics of green Sahara periods and their role in hominin evolution. PLoS ONE 8(10):e76514
Lécuyer C, Lézine A-M, Fourel F, Gasse F, Sylvestre F, Pailles C, Grenier C, Travi Y, Barral A (2016) I-n-Atei palaeolake documents past environmental changes in central Sahara at the time of the “Green Sahara”: charcoal, carbon isotope and diatom records. Palaeogeogr Palaeoclimatol Palaeoecol 441(Part 4):834–844
Lézine A-M, Tiercelin JJ, Robert C, Saliège J-F, Cleuziou S, Inizan M-L, Braemer F (2007) Centennial to millennial-scale variability of the Indian monsoon during the early Holocene from a sediment, pollen and isotope record from the desert of Yemen. Palaeogeogr Palaeoclimatol Palaeoecol 243(3–4):235–249
Lézine A-M, Hély C, Grenier C, Braconnot P, Krinner G (2011) Sahara and Sahel vulnerability to climate changes, lessons from Holocene hydrological data. Quatern Sci Rev 30:3001–3012
Lézine A-M, Bassinot F, Peterschmitt J-Y (2014) Orbitally-induced changes of the Atlantic and Indian monsoons over the past 20,000 years: new insights based on the comparison of continental and marine records. Bull Soc Geol Fr 185(1):3–12
Lézine A-M, Ivory SJ, Braconnot P, Marti O (2017) Timing of the southward retreat of the ITCZ at the end of the Holocene humid period in Southern Arabia: data-model comparison. Quatern Sci Rev 164:68–76
Linstädter J, Kröpelin S (2004) Wadi Bakht revisited: Holocene climate change and prehistoric occupation in the Gilf Kebir region of the Eastern Sahara, SW Egypt. Geoarchaeology 19(8):753–778
Litt T, Ohlwein C, Neumann FH, Hense A, Stein M (2012) Holocene climate variability in the Levant from the Dead Sea pollen record. Quatern Sci Rev 49:95–105
Liu T, Broecker WS, Stein M (2013) Rock varnish evidence for a Younger Dryas wet period in the Dead Sea basin. Geophys Res Lett 40(10):2229–2235
Ljungqvist FC (2011) The spatio-temporal pattern of the mid-Holocene thermal maximum. Geogr–Sb ČGS 116(2):91–110
Macklin MG, Toonen WHJ, Woodward JC, Williams MAJ, Flaux C, Marriner N, Nicoll K, Verstraeten G, Spencer N, Welsby D (2015) A new model of river dynamics, hydroclimatic change and human settlement in the Nile Valley derived from meta-analysis of the Holocene fluvial archive. Quatern Sci Rev 130:109–123
Manning K, Timpson A (2014) The demographic response to Holocene climate change in the Sahara. Quatern Sci Rev 101:28–35
Marcott SA, Shakun JD, Clark PU, Mix AC (2013) A reconstruction of regional and global temperature for the past 11,300 years. Science 339(6124):1198–1201
Marinova MM, Meckler AN, McKay CP (2014) Holocene freshwater carbonate structures in the hyper-arid Gebel Uweinat region of the Sahara Desert (Southwestern Egypt). J Afr Earth Sci 89:50–55
Marks L, Salem A, Welc F, Nitychoruk J, Chen Z, Blaauw M, Zalat A, Majecka A, Szymanek M, Chodyka M, Tołoczko-Pasek A, Sun Q, Zhao X, Jiang J (2017) Holocene lake sediments from the Faiyum Oasis in Egypt: a record of environmental and climate change. Boreas
Martín-Puertas C, Jiménez-Espejo F, Martínez-Ruiz F, Nieto-Moreno V, Rodrigo M, Mata MP, Valero-Garcés BL (2010) Late Holocene climate variability in the southwestern Mediterranean region: an integrated marine and terrestrial geochemical approach. Clim Past 6(6):807–816
Martrat B, Grimalt JO, Lopez-Martinez C, Cacho I, Sierro FJ, Flores JA, Zahn R, Canals M, Curtis JH, Hodell DA (2004) Abrupt temperature changes in the Western Mediterranean over the past 250,000 years. Science 306(5702):1762–1765
Martrat B, Grimalt JO, Shackleton NJ, de Abreu L, Hutterli MA, Stocker TF (2007) Four climate cycles of recurring deep and surface water destabilizations on the Iberian margin. Science 317(5837):502–507
Matter A, Mahjoub A, Neubert E, Preusser F, Schwalb A, Szidat S, Wulf G (2016) Reactivation of the Pleistocene trans-Arabian Wadi ad Dawasir fluvial system (Saudi Arabia) during the Holocene humid phase. Geomorphology 270:88–101
McGee D, deMenocal PB, Winckler G, Stuut JBW, Bradtmiller LI (2013) The magnitude, timing and abruptness of changes in North African dust deposition over the last 20,000 yr. Earth Planet Sci Lett 371–372:163–176
Mercuri AM, Florenzano A, Giraudi C, Garcea EAA (2015) Humans and water in desert “Refugium” areas: palynological evidence of climate oscillations and cultural developments in early and mid-Holocene Saharan edges. Interdiscip Archaeol Nat Sci Archaeol 6(2):151–160
Migowski C, Stein M, Prasad S, Negendank JFW, Agnon A (2006) Holocene climate variability and cultural evolution in the Near East from the Dead Sea sedimentary record. Quatern Res 66(3):421–431
Mojtahid M, Manceau R, Schiebel R, Hennekam R, de Lange GJ (2015) Thirteen thousand years of southeastern Mediterranean climate variability inferred from an integrative planktic foraminiferal-based approach. Paleoceanography 30(4):402–422
Munz PM, Steinke S, Böll A, Lückge A, Groeneveld J, Kucera M, Schulz H (2016) Decadal resolution record of Oman margin upwelling indicates persistent solar forcing of the Indian summer monsoon after the early Holocene summer insolation maximum. Clim Past Discuss 2016:1–31
Neff U, Burns SJ, Mangini A, Mudelsee M, Fleitmann D, Matter A (2001) Strong coherence between solar variability and the monsoon in Oman between 9 and 6 kyr ago. Nature 411:290–293
Nourelbait M, Rhoujjati A, Benkaddour A, Carré M, Eynaud F, Martinez P, Cheddadi R (2016) Climate change and ecosystems dynamics over the last 6000 years in the Middle Atlas, Morocco. Clim Past 12(4):1029–1042
Orland IJ, Bar-Matthews M, Kita NT, Ayalon A, Matthews A, Valley JW (2009) Climate deterioration in the Eastern Mediterranean as revealed by ion microprobe analysis of a speleothem that grew from 2.2 to 0.9 ka in Soreq Cave, Israel. Quatern Res 71(1):27–35
Parker AG, Goudie AS (2008) Geomorphological and palaeoenvironmental investigations in the southeastern Arabian Gulf region and the implication for the archaeology of the region. Geomorphology 101(3):458–470
Parker AG, Eckersley L, Smith MM, Goudie AS, Stokes S, Ward S, White K, Hodson MJ (2004) Holocene vegetation dynamics in the northeastern Rub’ al-Khali desert, Arabian Peninsula: a phytolith, pollen and carbon isotope study. J Quat Sci 19(7):665–676
Parker A, Davies C, Wilkinson T (2006) The early to mid-Holocene moist period in Arabia: some recent evidence from lacustrine sequences in eastern and south-western Arabia. Proc Semin Arab Stud 36:243–255
Pourmand A, Marcantonio F, Bianchi TS, Canuel EA, Waterson EJ (2007) A 28-ka history of sea surface temperature, primary productivity and planktonic community variability in the western Arabian Sea. Paleoceanography 22(4)
Preston GW, Parker AG, Walkington H, Leng MJ, Hodson MJ (2012) From nomadic herder-hunters to sedentary farmers: the relationship between climate change and ancient subsistence strategies in south-eastern Arabia. J Arid Environ 86:122–130
Renssen H, Brovkin V, Fichefet T, Goosse H (2006) Simulation of the Holocene climate evolution in Northern Africa: the termination of the African humid period. Quatern Int 150(1):95–102
Revel M, Colin C, Bernasconi S, Combourieu-Nebout N, Ducassou E, Grousset FE, Rolland Y, Migeon S, Bosch D, Brunet P, Zhao Y, Mascle J (2014) 21,000 years of Ethiopian African monsoon variability recorded in sediments of the western Nile deep-sea fan. Reg Environ Change 14(5):1685–1696
Revel M, Ducassou E, Skonieczny C, Colin C, Bastian L, Bosch D, Migeon S, Mascle J (2015) 20,000 years of Nile River dynamics and environmental changes in the Nile catchment area as inferred from Nile upper continental slope sediments. Quatern Sci Rev 130:200–221
Rhoujjati A, Cheddadi R, Taïeb M, Baali A, Ortu E (2010) Environmental changes over the past c. 29,000 years in the Middle Atlas (Morocco): a record from Lake Ifrah. J Arid Environ 74(7):737–745
Riemer H, Kröpelin S, Zboray A (2017) Climate, styles and archaeology: an integral approach towards an absolute chronology of the rock art in the Libyan Desert (Eastern Sahara). Antiquity 91(355):7–23
Robinson SA, Black S, Sellwood BW, Valdes PJ (2006) A review of palaeoclimates and palaeoenvironments in the Levant and Eastern Mediterranean from 25,000 to 5000 years BP: setting the environmental background for the evolution of human civilisation. Quatern Sci Rev 25(13–14):1517–1541
Rosenberg TM, Preusser F, Fleitmann D, Schwalb A, Penkman K, Schmid TW, Al-Shanti MA, Kadi K, Matter A (2011) Humid periods in southern Arabia: windows of opportunity for modern human dispersal. Geology 39(12):1115–1118
Ruan J, Kherbouche F, Genty D, Blamart D, Cheng H, Dewilde F, Hachi S, Edwards RL, Régnier E, Michelot JL (2016) Evidence of a prolonged drought ca. 4200 yr BP correlated with prehistoric settlement abandonment from the Gueldaman GLD1 Cave, Northern Algeria. Clim Past 12(1):1–14
Sachs JP, Sachse D, Smittenberg RH, Zhang Z, Battisti DS, Golubic S (2009) Southward movement of the Pacific intertropical convergence zone AD 1400–1850. Nat Geosci 2(7):519–525
Samartin S, Heiri O, Joos F, Renssen H, Franke J, Bronnimann S, Tinner W (2017) Warm Mediterranean mid-Holocene summers inferred from fossil midge assemblages. Nat Geosci 10(3):207–212
Schilman B, Bar-Matthews M, Almogi-Labin A, Luz B (2001) Global climate instability reflected by Eastern Mediterranean marine records during the late Holocene. Palaeogeogr Palaeoclimatol Palaeoecol 176(1–4):157–176
Schilman B, Ayalon A, Bar-Matthews M (2002) Sea-land paleoclimate correlation in the Eastern Mediterranean region during the late Holocene. Israel J Earth Sci 51(3–4):181–190
Schneider T, Bischoff T, Haug GH (2014) Migrations and dynamics of the intertropical convergence zone. Nature 513(7516):45–53
Schütt B, Krause J (2009) Comparison of proxy-based palaeoenvironmental reconstructions and hindcast modelled annual precipitation—a review of Holocene palaeoenvironmental research in the Central Sahara. In: Baumhauer R, Runge J (eds) Holocene palaeoenvironmental history of the Central Sahara. CRC Press, Bota Raton, pp 23–37
Shanahan TM, McKay NP, Hughen KA, Overpeck JT, Otto-Bliesner B, Heil CW, King J, Scholz CA, Peck J (2015) The time-transgressive termination of the African humid period. Nat Geosci 8(2):140–144
Skinner CB, Poulsen CJ (2016) The role of fall season tropical plumes in enhancing Saharan rainfall during the African humid period. Geophys Res Lett 43(1):349–358
Swezey C, Lancaster N, Kocurek G, Deynoux M, Blum M, Price D, Pion J-C (1999) Response of aeolian systems to Holocene climatic and hydrologic changes on the northern margin of the Sahara: a high-resolution record from the Chott Rharsa basin, Tunisia. Holocene 9(2):141–147
Tabel J, Khater C, Rhoujjati A, Dezileau L, Bouimetarhan I, Carre M, Vidal L, Benkaddour A, Nourelbait M, Cheddadi R (2016) Environmental changes over the past 25 000 years in the southern Middle Atlas, Morocco. J Quat Sci
Tierney JE, Pausata FSR, deMenocal PB (2017) Rainfall regimes of the Green Sahara. Sci Adv 3(1)
Trommer G, Siccha M, Rohling EJ, Grant K, van der Meer MTJ, Schouten S, Hemleben C, Kucera M (2010) Millennial-scale variability in Red Sea circulation in response to Holocene insolation forcing. Paleoceanography 25(3)
Vaks A, Bar-Matthews M, Ayalon A, Matthews A, Frumkin A, Dayan U, Halicz L, Almogi-Labin A, Schilman B (2006) Paleoclimate and location of the border between Mediterranean climate region and the Saharo–Arabian Desert as revealed by speleothems from the northern Negev Desert, Israel. Earth Planet Sci Lett 249(3–4):384–399
Vaks A, Bar-Matthews M, Ayalon A, Matthews A, Halicz L, Frumkin A (2007) Desert speleothems reveal climatic window for African exodus of early modern humans. Geology 35(9):831–834
Van Rampelbergh M, Fleitmann D, Verheyden S, Cheng H, Edwards L, De Geest P, De Vleeschouwer D, Burns SJ, Matter A, Claeys P, Keppens E (2013) Mid- to late Holocene Indian Ocean Monsoon variability recorded in four speleothems from Socotra Island, Yemen. Quatern Sci Rev 65:129–142
Verheyden S, Nader F, Cheng H, Edwards L, Swennen R (2008) Paleoclimate reconstruction in the Levant region from the geochemistry of a Holocene stalagmite from the Jeita cave, Lebanon. Quatern Res 70:368–381
Willcox G, Buxo R, Herveux L (2009) Late Pleistocene and early Holocene climate and the beginnings of cultivation in northern Syria. Holocene 19(1):151–158
Wu J, Böning P, Pahnke K, Tachikawa K, de Lange GJ (2016) Unraveling North-African riverine and eolian contributions to central Mediterranean sediments during Holocene sapropel S1 formation. Quatern Sci Rev 152:31–48
Wu J, Liu Z, Stuut J-BW, Zhao Y, Schirone A, de Lange GJ (2017) North-African paleodrainage discharges to the central Mediterranean during the last 18,000 years: a multiproxy characterization. Quatern Sci Rev 163:95–113
Zhao M, Beveridge NAS, Shackleton NJ, Sarnthein M, Eglinton G (1995) Molecular stratigraphy of cores off northwest Africa: sea surface temperature history over the last 80 ka. Paleoceanography 10(3):661–675
Zhao M, Eglinton G, Haslett SK, Jordan RW, Sarnthein M, Zhang Z (2000) Marine and terrestrial biomarker records for the last 35,000 years at ODP site 658C off NW Africa. Org Geochem 31(9):919–930
Zhao M, Mercer JL, Eglinton G, Higginson MJ, Huang C-Y (2006) Comparative molecular biomarker assessment of phytoplankton paleoproductivity for the last 160 kyr off Cap Blanc, NW Africa. Org Geochem 37(1):72–97
Zhao X, Liu Y, Salem A, Marks L, Welc F, Sun Q, Jiang J, Chen J, Chen Z (2017) Migration of the Intertropical Convergence Zone in North Africa during the Holocene: evidence from variations in quartz grain roundness in the lower Nile valley, Egypt. Quatern Int 449(Supplement C):22–28
Zielhofer C, Faust D, Linstädter J (2008) Late Pleistocene and Holocene alluvial archives in the Southwestern Mediterranean: changes in fluvial dynamics and past human response. Quatern Int 181(1):39–54
Zielhofer C, Fletcher WJ, Mischke S, De Batist M, Campbell JFE, Joannin S, Tjallingii R, El Hamouti N, Junginger A, Stele A, Bussmann J, Schneider B, Lauer T, Spitzer K, Strupler M, Brachert T, Mikdad A (2017) Atlantic forcing of Western Mediterranean winter rain minima during the last 12,000 years. Quatern Sci Rev 157:29–51
Acknowledgements
The authors would like to thank Nathalie Combourieu-Nebout, Viviane Bout-Roumazeilles, Rick Hennekam, Miryam Bar-Matthews, Marie-Alexandrine Sicre, Sophie Verheyden, Hai Cheng, Jessica Tierney, Jiao-yang Ruan, Stéphanie Desprat, Cecile Blanchet, Jalal Tabel and Meryem Mojtahid for the kind provision of tabulated data. Lydia Gerullis (MARUM, Univ. Bremen) is thanked for her valuable support with regards to the PANGAEA database. We are grateful to Jurgis Klaudius and Lloyd’s Register for providing the database and correlation software ICTM for this project. Special thanks go to the technical ICTM team who kindly helped initiating the database and charts. Project support by Jens Kröger is greatly acknowledged. We thank Mariusz Gałka (Adam Mickiewicz University, Poznan) and Christoph Zielhofer (Leipzig University) for valuable discussions. We extend our thanks to the editor of this book, Abderrahmane Bendaoud (University of Science and Technology Houari Boumedienne, Algiers), for the invitation to write this chapter. We are grateful to the two reviewers, whose valuable suggestions helped to improve the manuscript.
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Lüning, S., Vahrenholt, F. (2019). Holocene Climate Development of North Africa and the Arabian Peninsula. In: Bendaoud, A., Hamimi, Z., Hamoudi, M., Djemai, S., Zoheir, B. (eds) The Geology of the Arab World---An Overview. Springer Geology. Springer, Cham. https://doi.org/10.1007/978-3-319-96794-3_14
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