Hostname: page-component-848d4c4894-2pzkn Total loading time: 0 Render date: 2024-06-01T14:44:20.438Z Has data issue: false hasContentIssue false
  • English
  • Français

A chronology of alluvial fan response to Late Quaternary sea level and climate change, Crete

Published online by Cambridge University Press:  20 January 2017

Richard J.J. Pope ,
Ian Candy  and
Emmanuel Skourtsos
Richard J.J. Pope*
Affiliation:
Geography and Earth Systems Science, University of Derby, Kedleston Road, Derby, DE22 1GB, UK
Ian Candy
Affiliation:
Department of Geography, Royal Holloway, University of London, Egham, Surrey, TW20 0EX, UK
Emmanuel Skourtsos
Affiliation:
Department of Dynamic, Tectonic and Applied Geology, Faculty of Geology and Geoenvironment, National & Kapodistrian University of Athens, Panepistimioupolis Zografou, 15784, Greece
*
*Corresponding author. E-mail address:R.J.Pope@Derby.ac.uk(R.J.J. Pope)
Get access Rights & Permissions [Opens in a new window]

Abstract

To better understand how fluvial systems respond to late Quaternary climatic forcing OSL and U-series dating was applied to stratigraphically significant sedimentary units within a small (<6.5 km2) alluvial fan system (the Sphakia fan) in southwest Crete. The resultant chronology (comprising 32 OSL and U-series ages) makes Sphakia fan one of the best dated systems in the Mediterranean and suggests that Cretan fans responded to climate in two ways. First, during the transitions between Marine Isotope Stage (MIS) 5a/4 and MIS 2/1 Sphakia fan was characterised by significant entrenchment and distal shift in the zone of deposition. It is proposed that the phases of entrenchment were driven by sea level induced base level fall during MIS 5a/4 and landscape stabilisation during the onset of the current interglacial (MIS 2/1). Second, with the exception of these two entrenchment episodes fan alluviation occurred across the entire last interglacial/glacial cycle in all climatic settings i.e. interglacials, interstadials and stadials. It is likely that the topographic setting of the catchment supplying sediment to Sphakia fan maintained high sediment transfer rates during most climatic settings enabling fan aggradation to occur except during major climatic driven transitions i.e. major sea level fall and postglacial vegetation development.

Keywords

Alluvial fanQuaternaryMediterraneanOSLU-seriesLate Pleistocene
Type
Research Article
Information
Quaternary Research , Volume 86 , Issue 2 , September 2016 , pp. 170 - 183
Copyright
Copyright © American Quaternary Association 2016

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Adamson, K.R., Woodward, J.C., Hughes, P.D., 2014. Glaciers and rivers: Pleistocene uncoupling in a Mediterranean mountain karst. Quaternary Science Reviews 94, 2843.Google Scholar
Allen, J.R.M., Brandt, U., Brauer, A., Hans-Wolfgang, H., Huntley, B., Keller, J., Krami, M., Mackensen, A., Mingram, J., Negendank, J.F.W., Nowaczyk, N.R., Oberhansli, H., Watts, W.A., Wulg, S., Zolitschka, B., 1999. Rapid environmental changes in southern Europe during the last glacial period. Nature 400, 740743.CrossRefGoogle Scholar
Alves, T.M., Lykousis, V., Sakellariou, D., Stamatina, A., Nomikou, P., 2007. Constraining the origin and evolution of confined turbidite systems: southern Cretan margin, Eastern Mediterranean Sea (34c 30-36CN). Geo-Marine Letters 27 (1), 4161.CrossRefGoogle Scholar
Bacon, S.N., McDonald, E.V., Caldwell, T.G., Dalldorf, G.K., 2010. Timing and distribution of alluvial fan sedimentation in response to strengthening of late Ho-locene ENSO variability in the Sonoran Desert, southwestern Arizona, USA. Quaternary Research 73, 425438.CrossRefGoogle Scholar
Bar-Matthews, M., Ayalon, A., Kaufman, A., Wasserburg, G.J., 1999. The Eastern Mediterranean palaeoclimate as a reflection of regional events: Soreq, Israel. Earth and Planetary Science Letters 166, 8595.CrossRefGoogle Scholar
Bar-Matthews, M., Ayalon, A., Gilmour, M., Matthews, A., Hawkesworth, C.J., 2003. Sea-land oxygen isotopic relationships from planktonic foraminifera and speleothems in the Eastern Mediterranean region and their implications for palaeorainfall during interglacial intervals. Geochimica et Cosmochimica Acta 67, 31813199.Google Scholar
Bull, W.B., 1979. Threshold of critical power in streams. Geological Society of America Bulletin 90, 453464.Google Scholar
Cacho, I., Grimalt, J.O., Pelejero, C., Canals, M., Sierro, F.J., Flores, J.A., Shackleton, N.J., 1999. Dansgaard-Oeschger and Heinrich event imprints in Alboran Sea palaeotemperatures. Palaeoceanography 14, 698705.Google Scholar
Cacho, I., Grimalt, J.O., Sierro, F.J., Shackleton, N., Canals, M., 2000. Evidence for enhanced Mediterranean thermohaline circulation during rapid climatic coolings. Earth and Planetary Science Letters 183, 417429.Google Scholar
Candy, I., Black, S., Sellwood, B.W., 2004. Interpreting the response of a dryland river system to Late Quaternary climate change. Quaternary Science Reviews 23, 25132523.CrossRefGoogle Scholar
Candy, I., Black, S., Sellwood, B.W., 2005. U-series isochron dating of immature and mature calcretes as a basis for constructing Quaternary landform chronologies for the Sorbas basin, southeast Spain. Quaternary Research 64, 100111 Google Scholar
Candy, I., Adamson, K., Gallant, C.E., Whitfield, E., Pope, R., 2012. Oxygen and carbon isotopic composition of Quaternary meteoric carbonates from western and southern Europe: their role in palaoenvironmental reconstruction. Palaeogeography, Palaeoclimatology, Palaeoecology 326328, 1-11.Google Scholar
Clark-Balzan, L.A., Candy, I., Schwenninger, J.L., Bouzouggar, A., Blockley, S.P., Nathan, R., Barton, N., 2012. Coupled U-series and OSL dating of a Late Pleistocene cave sediment sequence, Morocco, North Africa: significance for constructing Palaeolithic chronologies. Quaternary Geochronology 12, 5364.Google Scholar
Emeis, K.-C., Schulz, H., Struck, U., Rossignol-Strick, M., Erlenkeuser, H., Howell, M.W., Kroon, D., Mackensen, A., Ishizuka, S., Oba, T., Sakamoto, T., Koizumi, I., 2003. Eastern Mediterranean surface water temperatures and composition during deposition of sapropels in the late Quaternary. Paleoceanography 18, 1005, 118.Google Scholar
Ferrier, G., Pope, R.J.J., 2013. Quantitative mapping of alluvial fan evolution using ground-based reflectance spectroscopy. Geomorphology 175176, 14-24.Google Scholar
Fuller, I.C., Macklin, M.G., Lewin, J., Passmore, D.G., Wintle, A.G., 1998. River response to high frequency climate oscillations in southern Europe over the past 200ky. Geology 26 (3), 275278.2.3.CO;2>CrossRefGoogle Scholar
Geach, M.R., Thomsen, K.J., Buylaert, J.-P., Murray, A.S., Mather, A.E., Telfer, M.W., Stokes, M., 2015. Single-grain and multi-grain OSL dating of river terrace sediments in the Tabernas Basin, SE Spain. Quaternary Geochronology 30 (Part B), 213218.CrossRefGoogle Scholar
Harding, A.E., Palutikof, J., Holt, T., 2009. The climate system. In: Woodward, J.C. (Ed.), The Physical Geography of the Mediterranean. Oxford University Press, Oxford, pp. 6988.Google Scholar
Harvey, A.M., Wells, S.G., 1987. Response of Quaternary fluvial systems to differential epeirogenic uplift: Aguas and Feos river systems, southeast Spain. Geology 15, 689693.2.0.CO;2>CrossRefGoogle Scholar
Lisiecki, L.E., Raymo, M.E., 2005. A Pliocene-Pleistocene stack of 57 globally-distributed benthic δ18O records. Paleoceanography 20, PA1003.Google Scholar
Ludwig, K.R., 2003. ISOPLOT 3.00. United States Geological Survey.Google Scholar
Macklin, M.G., Fuller, I.C., Lewin, J., Maas, G.S., Passmore, D.G., Rose, J., Woodward, J.C., Black, S., Hamlin, R.H.B., Rowan, J.S., 2002. Correlation of fluvial sequences in the Mediterranean basin over the last 200 ka and their relationship to climate change. Quaternary Science Reviews 21, 16331641 CrossRefGoogle Scholar
Macklin, M.G., Lewin, J., Woodward, J.C., 2012. The fluvial record of climate change. Philosophical Transactions of the Royal Society A 370, 21432172.Google Scholar
Margari, V., Gibbard, P.L., Bryant, C.L., Tzedakis, P.C., 2009. Character of vegetational and environmental changes in southern Europe during the last glacial period; evidence from Lesvos Island, Greece. Quaternary Science Reviews 28 (13/14), 13171339.Google Scholar
Mather, A.E., Harvey, A.M., Stokes, M., 2000. Quantifying long-term catchment changes of alluvial fan systems. Geological Society of America Bulletin 112, 18251833.Google Scholar
McDonald, E.V., McFadden, L.D., Wells, S.G., 2002. Regional response of alluvial fans to the Pleistocene-Holocene climatic transition, Mojave Desert, California. In: Enzel, Y., Wells, S.G., Lancaster, N. (Eds.), Paleoenvironments and Paleohydrology of the Mojave and Southern Great Basin Deserts. Geological Society of America, Boulder, Colorado.Google Scholar
Miller, D.M., Schmidt, K.M., Mahan, S.A., McGeehin, J.P., Owen, L.A., Barron, J.A., Lehmkuhl, F., Lehrer, R., 2010. Holocene landscape response to seasonality of storms in the Mojave Desert. Quaternary International 215, 4561.Google Scholar
Moreno, A., Cacho, I., Canals, M., Grimalt, J.O., Vidal, A.S., 2004. Millennial-scale variability in the productivity signal from the Alboran Sea record, Western Mediterranean Sea. Palaeogeography, Palaeoclimatology, Palaeocology 211, 205219.CrossRefGoogle Scholar
Murray, A.S., Wintle, A.G., 2000. Luminescence dating of quartz using an improved single-aliquot regenerative-dose protocol. Radiation Measurements 32 (1), 5773.Google Scholar
Murray, A.S., Wintle, A.G., 2003. The single aliquot regenerative-dose protocol: potential for improvements in reliability. Radiation Measurements 37, 377381.CrossRefGoogle Scholar
Murray, A.S., Wintle, A.G., 2006. A review of quartz optically stimulated luminescence characteristics and their relevance in single-aliquot regeneration dating protocols. Radiation Measurements 41, 369391.Google Scholar
Murray, A.S., Marten, R., Johnston, A., Martin, P., 1987. Analysis for naturally occurring radionuclides at environmental concentrations by gamma spectrometry. Journal of Radioanalytical and Nuclear Chemistry 115 (2), 263288.Google Scholar
Nemec, W., Postma, G., 1993. Quaternary alluvial fans in southwestern Crete: sedimentation processes and geomorphic evolution. In: Marzo, M., Puigdefabregas, C. (Eds.), Alluvial Sedimentation, Special Publication of the International Association of Sedimentologists, vol. 17, pp. 235276.CrossRefGoogle Scholar
Nemec, W., Postma, G., 1995. Quaternary alluvial fans in southwestern Crete: sedimentation processes and geomorphic evolution: a reply. Sedimentology 42, 535549.CrossRefGoogle Scholar
Nixon, L., Moody, J., Rackham, O., 2000. Archaeological survey in Sphakia, Crete. Echos du Monde Classique XXXII (7), 159173.Google Scholar
Pons, A., Reille, M., 1988. The Holocene- and upper Pleistocene pollen record from Padul (Granada, Spain): a new study. Palaeogeography, Palaeoclimatology, Palaeoecology 66, 243263.Google Scholar
Pope, R.J.J., Wilkinson, K.N., 2005. Reconciling the roles of climate and tectonics in Late Quaternary fan development on the Spartan piedmont, Greece. In: Harvey, A.M., Mather, A.E., Stokes, M. (Eds.), Alluvial Fans: Geomorphology, Sedimentology, Dynamics, Geological Society Special Publication, 251, pp. 133152.Google Scholar
Pope, R.J.J., Wilkinson, K.N., Skourtsos, E., Triantaphyllou, M., Ferrier, G., 2008. Clarifying stages of alluvial fan evolution along the Sfakion piedmont, southern Crete: new evidence from soil magnetism and OSL dating. Geomorphology 94, 206225.Google Scholar
Postma, G., Nemec, W., 1990. Regressive and transgressive sequences in a raised Holocene gravelly beach, southwestern Crete. Sedimentology 37, 907920.Google Scholar
Prescott, J.R., Hutton, J.T., 1994. Cosmic ray contributions to dose rates for luminescence and ESR dating: large depths and long-term time variations. Radiation Measurements 23 (2-3), 497500.CrossRefGoogle Scholar
Rackham, O., Moody, J., 1996. The Making of the Cretan Landscape. Manchester University Press, Manchester.Google Scholar
Ritter, J.B., Miller, J.R., Enzel, Y., Wells, S.G., 1995. Reconciling the roles of tectonism and climate in Quaternary alluvial fan formation. Geology 23, 245248.Google Scholar
Rohling, E.J., Marino, G., Grant, K.M., 2015. Mediterranean climate and oceanography and the periodic development of anoxic events (sapropels). Earth-Science Reviews 143, 6297.Google Scholar
Rose, J., Meng, X.M., 1999. River activity in small catchments over the last 140 ka, northeast Mallorca, Spain. In: Brown, A.G., Quine, T. (Eds.), Fluvial Processes and Environmental Change. Wiley and Sons, Chichester, pp. 91102.Google Scholar
Rose, J., Meng, X.M., Watson, C., 1999. Palaeoclimate and palaeoenvironmental responses in the western Mediterranean over the last 140ka; evidence from Mallorca, Spain. Journal of the Geological Society, London 156, 435448.Google Scholar
Rowan, J.S., Black, S., Macklin, M.G., Tabner, B.J., Dore, J., 2000. Quaternary environmental change in Cyrenaica evidenced by U-Th, ESR and OSL of coastal alluvial fan sequences. Libyan Studies 31, 516.Google Scholar
Sanchez Goni, M.F., Cacho, I., Turon, J.-L., Guiot, J., Sierro, F.J., Peypouquet, J.-P., Grimalt, J.O., Shackleton, N.J., 2002. Synchroneity between marine and terrestrial responses to millennial scale climatic variability during the last glacial period in the Mediterranean region. Climate Dynamics 19, 95105.Google Scholar
Seth, B., Thirlwall, M.F., Houghton, S.L., Craig, C.A., 2003. Accurate measurements of Th-U isotope ratios for carbonate geochronology using MC-ICP-MS. Journal of Analytical Atomic Spectrometry 18, 13231330.CrossRefGoogle Scholar
Shackleton, N.J., Imbrie, J., Hall, M.A., 1983. Oxygen and carbon isotope record of East Pacific core V19-30: implications for the formation of deep water in the late Pleistocene North Atlantic. Earth and Planetary Science Letters 65, 233244.Google Scholar
Siddall, M., Rohling, E.J., Almogi-Labin, A., Hemleben, C.h., Meischner, D., Schmelzer, I., Smeed, D.A., 2003. Sealevel fluctuations during the last glacial cycle. Nature 423, 853858.Google Scholar
Skourtsos, E., Pope, R.J.J., Triantaphyllou, M., 2007. Tectonosedimentary evolution and rates of tectonic uplift of the Sphakia coastal zone, southwest Crete. Bulletin of the Geological Society of Greece XXXVII, 475487.Google Scholar
Sphakia Survey, 2002. The Sphakia Survey: Internet Edition. http://sphakia.classics.ox.ac.uk/(accessed 22.05.16.).Google Scholar
Tzedakis, P.C., 2009. Cenozoic climate and vegetation change. In: Woodward, J.C. (Ed.), The Physical Geography of the Mediterranean. Oxford University Press, Oxford, pp. 89137.Google Scholar
Tzedakis, P.C., Andrieu, V., de Beaulieu, J.-L., Birks, H.J.B., Crowhurst, S., Follieri, M., Hooghiemstra, H., Magri, D., Reille, M., Sadori, L., Shackleton, N.J., Wijmstra, T.A., 2001. Establishing a terrestrial chronological framework as a basis for bio-stratigraphical comparisons. Quaternary Science Reviews 20, 15831592.Google Scholar
Tzedakis, P.C., McManus, J.F., Hooghiemstra, H., Oppo, D.W., Wijmstra, T.A., 2003. Comparison of changes in vegetation in northeast Greece with records of climate variability on orbital and suborbital frequencies over the last 450,000 years. Earth and Planetary Science Letters 212, 197212.Google Scholar
Tzedakis, P.C., Frogley, M.R., Lawson, I.T., Preece, R.C., Cacho, I., De Abreu, L., 2004. Ecological thresholds and patterns of millennial-scale climate variability: the response of vegetation in Greece during the last glacial period. Geology 32 (2), 109112.Google Scholar
Van Calsteren, P., Thomas, L., 2006. Uranium-series dating applications in natural environmental science. Earth Science Reviews 75 (1-4), 155175.Google Scholar
Waelbroeck, C., Labeyrie, L., Michel, E., Duplessy, J.C., McManus, J.F., Lambeck, K., Balbon, E., Labracherie, M., 2002. Sea-level and deep water temperature changes derived from benthic foraminifera isotopic records. Quaternary Science Reviews 21, 295305.Google Scholar
Waters, J.V., Jones, S.J., Armstrong, H.A., 2010. Climatic controls on late Pleistocene alluvial fans. Cyprus Geomorphology 115 (3-4), 228251.Google Scholar
White, K., Drake, N., Millington, A., Stokes, S., 1996. Constraining the timing of alluvial fan response to Late Quaternary climatic changes, southern Tunisia. Geomorphology 17, 295304.Google Scholar