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Hydrologic and climatic implications of stable isotope and minor element analyses of authigenic calcite silts and gastropod shells from a mid-Pleistocene pluvial lake, Western Desert, Egypt

Published online by Cambridge University Press:  20 January 2017

Johanna M. Kieniewicz  and
Jennifer R. Smith
Johanna M. Kieniewicz*
Affiliation:
Department of Earth and Planetary Sciences, Washington University in St. Louis, Campus Box 1169, One Brookings Dr. St. Louis, MO 63130, USA
Jennifer R. Smith
Affiliation:
Department of Earth and Planetary Sciences, Washington University in St. Louis, Campus Box 1169, One Brookings Dr. St. Louis, MO 63130, USA
*
*Corresponding author. Fax: +1 740 587 6774. E-mail addresses:[email protected] (J.M. Kieniewicz), [email protected] (J.R. Smith).
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Abstract

Authigenic calcite silts at Wadi Midauwara in Kharga Oasis, Egypt, indicate the prolonged presence of surface water during the Marine Isotope Stage 5e pluvial phase recognized across North Africa. Exposed over an area of ∼ 4.25 km2, these silts record the ponding of water derived from springs along the Libyan Plateau escarpment and from surface drainage. The δ18O values of these lacustrine carbonates (− 11.3‰ to − 8.0‰ PDB), are too high to reflect equilibrium precipitation with Nubian aquifer water or water of an exclusively Atlantic origin. Mg/Ca and Sr/Ca of the silts have a modest negative covariance with silt δ18O values, suggesting that the water may have experienced the shortest residence time in local aquifers when the water δ18O values were highest. Furthermore, intra-shell δ18O, Sr/Ca, and Ba/Ca analyses of the freshwater gastropod Melanoides tuberculata are consistent with a perennially fresh water source, suggesting that strong evaporative effects expected in a monsoonal climate did not occur, or that dry season spring flow was of sufficient magnitude to mute the effects of evaporation. The input of a second, isotopically heavier water source to aquifers, possibly Indian Ocean monsoonal rain, could explain the observed trends in δ18O and minor element ratios.

Keywords

PleistoceneEgyptPluvialLacustrine environmentStable isotopesMinor elementsPaleoclimateGastropodsMelanoides tuberculataAuthigenic calcite
Type
Research Article
Information
Quaternary Research , Volume 68 , Issue 3 , November 2007 , pp. 431 - 444
Copyright
University of Washington

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References

Abell, P.I. (1985). Oxygen isotope ratios in modern African gastropod shells: A data base for paleoclimatology.. Chemical Geology 58, 183193.CrossRefGoogle Scholar
Abell, P.I., Hoelzmann, P.(2000). Holocene palaeoclimates in northwestern Sudan: Stable isotope studies on mollusks.. Global and Planetary Change 26, 112.CrossRefGoogle Scholar
Abell, P.I., Nyamweru, C.K.(1988). Paleoenvironments in the Chalbi Basin of Kenya.. Chemical Geology 72, 283291.Google Scholar
Abell, P.I., Williams, M.A.J.(1989). Oxygen and carbon isotope ratios in gastropod shells as indicators of paleoenvironments in the Afar region of Ethiopia.. Palaeogeography, Palaeoclimatology, Palaeoecology 74, 265278.CrossRefGoogle Scholar
Andrews, J.E., Brasier, A.T.(2005). Seasonal records of climatic change in annually laminated tufas: Short review and future prospects.. Journal of Quaternary Science 20, 411421.CrossRefGoogle Scholar
Arz, H.W., Lamy, F., Patzold, J., Müller, P.J., Prins, M.(2003). Mediterranean moisture source for an early-Holocene humid period in the northern Red Sea.. Science 300, 118121.CrossRefGoogle ScholarPubMed
Ayalon, A., Bar-Matthews, M., Kaufman, A.(1999). Petrography, strontium, barium and uranium concentrations, and strontium and uranium isotope ratios in speleothems as palaeoclimatic proxies: Soreq Cave, Israel.. The Holocene 9, 715722.CrossRefGoogle Scholar
Ayliffe, D., Williams, M.A.J., Sheldon, F.(1996). Stable carbon and oxygen isotopic composition of early-Holocene gastropods from Wadi Mansurrab, north-central Sudan.. The Holocene 6, 157169.CrossRefGoogle Scholar
Banner, J.L., Musgrove, M.L., Asmerom, Y., Edwards, R.L., Hoff, J.A.(1996). High-resolution temporal record of Holocene ground-water chemistry: Tracing links between climate and hydrology.. Geology 24, 10491053.2.3.CO;2>CrossRefGoogle Scholar
Bar-Matthews, M., Ayalon, A., Kaufman, A.(2000). Timing and hydrological conditions of sapropel events in the Eastern Mediterranean, as evident from speleothems, Soreq Cave, Israel.. Chemical Geology 169, 145156.CrossRefGoogle Scholar
Burns, S.J., Fleitmann, D., Matter, A., Neff, U., Mangini, A.(2001). Speleothem evidence from Oman for continental pluvial events during interglacial periods.. Geology 29, 623626.2.0.CO;2>CrossRefGoogle Scholar
Carroll, J., Falkner, K.K., Brown, E.T., Moore, W.S.(1993). The role of the Ganges-Brahmaputra mixing zone in supplying barium and 226Ra to the Bay of Bengal.. Geochimica et Cosmochimica Acta 57, 29812990.CrossRefGoogle Scholar
Caton-Thompson, G. (1952). Kharga Oasis in prehistory.. University of London The Athlone Press, London.Google Scholar
Chafetz, H.S., Lawrence, J.R.(1994). Stable isotopic variability within modern travertines.. Geographie Physique et Quaternaire 48, 257273.CrossRefGoogle Scholar
Chivas, A.R., De Deckker, P., Cali, J.A., Chapman, A., Kiss, E., Shelley, J.M.G.(1993). Coupled stable-isotope and trace-element measurements of lacustrine carbonates as paleoclimatic indicators.. Swart, P.K., Lohmann, K.C., McKenzie, J.A., Savin, S. Climate change in continental isotopic records American Geophysical Union, Washington, D.C.113121.Google Scholar
Churcher, C.S., Kleindienst, M.R., Schwarcz, H.P.(1999). Faunal remains from a middle Pleistocene lacustrine marl in Dakhleh Oasis. Egypt; palaeoenvironmental reconstructions.. Palaeogeography, Palaeoclimatology, Palaeoecology 154, 301312.CrossRefGoogle Scholar
Criss, R.E. (1999). Principles of stable isotope distribution.. Oxford Univ. Press, New York.CrossRefGoogle Scholar
Crombie, M.K., Arvidson, R.E., Sturchio, N.C., Alfy, Z.E., Zeid, K.A.(1997). Age and isotopic constraints on Pleistocene pluvial episodes in the Western Desert, Egypt.. Palaeogeography, Palaeoclimatology, Palaeoecology 130, 337355.CrossRefGoogle Scholar
Curtis, J.H., Hodell, D.A.(1993). An isotopic and trace element study of ostracods from Lake Miragoane, Haiti: A 10,500 paleotemperature changes in the Caribbean.. Swart, P.K., Lohmann, K.C., McKenzie, J.A., Savin, S. year record of paleosalinity and Climate change in continental isotopic records.. American Geophysical Union, Washington, DC.135152.Google Scholar
De Deckker, P., Williams, M.A.J.(1993). Lacustrine paleoenvironments of the area of Bir Tarfawi-Bir Sahara East reconstructed from fossil ostracods and the chemistry of their shells.. Wendorf, F., Schild, R., Close, A.E. Egypt during the last interglacial: The middle Paleolithic of Bir Tarfawi and Bir Sahara East Plenum Press, New York.CrossRefGoogle Scholar
de Noblet, N., Braconnot, P., Joussaume, S., Masson, V.(1996). Sensitivity of simulated Asian and African summer monsoons to orbitally induced variations in insolation 126, 115, 6 kBP.. Climate Dynamics 12, 589603.CrossRefGoogle Scholar
Emeis, K.-C., Richnow, H.-H., Kempe, S.(1987). Travertine formation in Plitvice National Park, Yugoslavia: Chemical versus biological control.. Sedimentology 34, 595609.CrossRefGoogle Scholar
Engstrom, D.R., Nelson, S.R.(1991). Paleosalinity from trace metals in fossil ostracodes compared with observational records at Devils Lake, North Dakota, USA.. Palaeogeography, Palaeoclimatology, Palaeoecology 83, 295312.CrossRefGoogle Scholar
Epstein, S., Buschsbaum, R., Lowenstam, H., Urey, H.C.(1951). Carbonate-water isotopic temperature scale.. Bulletin of the Geological Society of America 62, 417426.CrossRefGoogle Scholar
Eugster, H.P., Hardie, L.A.(1978). Saline lakes.. Lerman, A. Lakes: Chemistry, geology, physics Springer-Verlag, New York.237294.CrossRefGoogle Scholar
El Wahab, A.A. (1999). Petrography, fabric analysis and diagenetic history of Upper Cretaceous Sandstone, Kharga Oasis, Western Desert, Egypt.. Sedimentology of Egypt 7, 99117.Google Scholar
Fairchild, I.J., Borsato, A., Tooth, A.F., Frisia, S., Hawkesworth, C.J., Huang, Y., McDermott, F., Spiro, B.(2000). Controls on trace element (Sr�"Mg) compositions of carbonate cave waters: Implications for speleothem climatic records.. Chemical Geology 166, 255269.CrossRefGoogle Scholar
Felis, T., Lohmann, G., Kuhnert, H., Lorenz, S., Scholz, D., Patzold, J., Al-Rousan, S.A., Al-Moghrrabi, S.M.(2004). Increased seasonality in the Middle East temperatures during the last interglacial period.. Nature 429, 164168.CrossRefGoogle ScholarPubMed
Ford, T.D., Pedley, H.M.(1997). Tufa and travertine deposits of the Grand Canyon.. Cave and Karst Science 24, 108116.Google Scholar
Garnett, E.R., Andrews, J.E., Preece, R.C., Dennis, P.F.(2004). Climatic change recorded by stable isotopes and trace elements in a British Holocene tufa.. Journal of Quaternary Science 19, 251262.CrossRefGoogle Scholar
Gat, J.R. (1995). Stable isotopes of fresh and saline lakes.. Lerman, A., Gat, J.R. Physics and chemistry of lakes Springer-Verlag, New York.139166.CrossRefGoogle Scholar
Gill, I., Olson, J.J., Hubbard, D.K.(1995). Corals, paleotemperature records, and the aragonite�"calcite transformation.. Geology 23, 333336.2.3.CO;2>CrossRefGoogle Scholar
Grossman, E.L., Ku, T.-L.(1986). Oxygen and carbon isotope fractionation in biogenic aragonite: Temperature effects.. Chemical Geology 59, 5974.CrossRefGoogle Scholar
Hailemichael, M., Aronson, J.L., Savin, S., Tevesz, M.J.S., Carter, J.G.(2002). δ18O in mollusk shells from Pliocene Lake Hadar and modern Ethiopian lakes; implications for history of the Ethiopian monsoon.. Palaeogeography, Palaeoclimatology, Palaeoecology 186, 8199.CrossRefGoogle Scholar
Hellstrom, J.C., McCulloch, M.T.(2000). Multi-proxy constraints on the climatic significance of trace element records from a New Zealand speleothem.. Earth and Planetary Science Letters 179, 287297.CrossRefGoogle Scholar
Hermina, M. (1990). The surroundings of Kharga, Dakhla and Farafra oases.. Said, R. The Geology of Egypt A.A. Balkema, Rotterdam.259292.Google Scholar
Hinnawi, M.A., Abdallah, A., Issawi, B.(1978). Geology of Abu Bayan, Bolaq stretch, Western Desert, Egypt.. Annals of the Geological Survey of Egypt 8, 1950.Google Scholar
Huang, Y., Fairchild, I.J.(2001). Partitioning of Sr2+ and Mg2+ into calcite under karst-analogue experimental conditions.. Geochimica et Cosmochimica Acta 65, 4762.CrossRefGoogle Scholar
Ihlenfeld, C., Norman, M.D., Gagan, M.K., Drysdale, R.N., Maas, R., Webb, J.(2003). Climatic significance of seasonal trace element and stable isotope variations in a modern freshwater tufa.. Geochimica et Cosmochimica Acta 67, 23412357.CrossRefGoogle Scholar
Kim, S.-T., O'Neil, J.R.(1997). Equilibrium and nonequilibrium oxygen isotope effects in synthetic carbonates.. Geochemica et Cosmochimica Acta 61, 34613475.CrossRefGoogle Scholar
Kleindienst, M.R. (2000). On the Nile corridor and the Out-of-Africa Model.. Current Anthropology 41, 107109.CrossRefGoogle ScholarPubMed
Kutzbach, J.E., Liu, Z.(1997). Response of the African monsoon to orbital forcing and ocean feedbacks in the middle Holocene.. Science 278, 440443.CrossRefGoogle Scholar
Lamb, A.L., Leng, M.J., Lamb, H.F., Mohammed, M.U.(2000). A 9000-year oxygen and carbon isotope record of hydrological change in a small Ethiopian crater lake.. The Holocene 10, 167177.CrossRefGoogle Scholar
Lea, D.W., Martin, P.A.(1996). A rapid mass spectrometric method for the simultaneous analysis of barium, cadmium and strontinum in foraminifera shells.. Geochimica et Cosmochimica Acta 60, 31433149.CrossRefGoogle Scholar
Le Cornec, F., Correge, T.(1997). Determination of uranium to calcium and strontium to calcium ratios in corals by inductively coupled plasma mass spectrometry.. Journal of Analytical Atomic Spectrometry 12, 969973.CrossRefGoogle Scholar
Leng, M.J., Marshall, J.D.(2004). Palaeoclimate interpretation of stable isotope data from lake sediment archives.. Quaternary Science Reviews 23, 811831.CrossRefGoogle Scholar
Leng, M.J., Lamb, A.L., Lamb, H.F., Telford, R.J.(1999). Palaeoclimatic implications of isotopic data from modern and early Holocene shells of the freshwater snail Melanoides tuberculata from lakes in the Ethiopian Rift valley.. Journal of Paleolimnology 21, 97106.CrossRefGoogle Scholar
Li, Y.-H., Chan, L.-H.(1979). Desorption of Ba and 226Ra from river-borne sediments in the Hudson Estuary.. Earth and Planetary Science Letters 43, 343350.CrossRefGoogle Scholar
Li, H.-C., Ku, T.-L.(1997). δ13C�"δ18O covariance as a paleohydrological indicator for closed-basin lakes.. Palaeogeography, Palaeoclimatology, Palaeoecology 133, 6980.CrossRefGoogle Scholar
Liu, Z., Otto-Bliesner, B., Kutzbach, J., Li, L., Shields, C.(2003). Coupled climate simulation of the evolution of global monsoons in the Holocene.. Journal of Climate 16, 24722490.2.0.CO;2>CrossRefGoogle Scholar
Luo, W., Arvidson, R.E., Sultan, M., Becker, R., Crombie, M.K., Sturchio, N.C., El Alfy, Z.(1997). Ground-water sapping processes, Western Desert, Egypt.. Geological Society of America Bulletin 109, 4362.2.3.CO;2>CrossRefGoogle Scholar
McKenzie, J.A. (1985). Carbon isotopes and productivity in the lacustrine and marine environment.. Metcalf, R.L., Stumm, W. Chemical processes in lakes John Wiley and Sons, New York.99118.Google Scholar
McKenzie, J.A. (1993). Pluvial conditions in the eastern Sahara following the penultimate deglaciation; implications for changes in atmospheric circulation patterns with global warming.. Palaeogeography, Palaeoclimatology, Palaeoecology 103, 95105.CrossRefGoogle Scholar
McKenzie, J.A., Hollander, D.J.(1993). Oxygen-isotope record in recent carbonate sediments from Lake Griefen, Switzerland (1750�"1986): application of continental isotopic indicator for evaluation of changes in climate and atmospheric circulation patterns.. Swart, P.K., Lohmann, K.C., McKenzie, J.A., Savin, S. Climate change in continental isotopic records American Geophysical Union, Washington, DC.101111.Google Scholar
McMillan, E., Fairchild, I.J., Frisia, S., Borsato, A., McDermott, F.(2005). Annual trace element cycles in calcite�"aragonite speleothems: Evidence of drought in the western Mediterranean 1200�"1100 yr BP.. Journal of Quaternary Science 20, 423433.CrossRefGoogle Scholar
Milliman, J.D., Muller, G., Forster, U.(1974). Marine carbonates.. Springer-Verlag, New York.Google Scholar
Montoya, M., von Storch, H., Crowley, T.J.(2000). Climate simulation for 125 kyr BP with a coupled ocean�"atmosphere general circulation model.. Journal of Climate 13, 10571072.2.0.CO;2>CrossRefGoogle Scholar
Moreno, A., Targarona, J., Henderiks, J., Canals, M., Freudenthal, T., Meggers, H.(2001). Orbital forcing of dust supply to the North Canary Basin over the last 250 kyr.. Quaternary Science Reviews 20, 13271339.CrossRefGoogle Scholar
Mucci, A., Morse, J.W.(1983). The incorporation of Mg2+ and Sr2+ into calcite overgrowths: Influences of growth rate and solution composition.. Geochimica et Cosmochimica Acta 47, 217233.CrossRefGoogle Scholar
Musgrove, M.L., Banner, J.L.(2004). Controls on the spatial and temporal variability of vadose dripwater geochemistry: Edwards Aquifer, central Texas.. Geochimica et Cosmochimica Acta 68, 10071020.CrossRefGoogle Scholar
D.L., Parkhurst, C.A.J., Appelo. (1999). User's guide to PHREEQC (version 2)�"A computer program for speciation, batch-reaction, one-dimensional transport, and inverse geochemical calculations: U.S.. Geological Survey Water-Resources Investigations Report 99-4259, 312 p.Google Scholar
Patterson, L.J., Sturchio, N.C., Kennedy, B.M., van Soest, M.C., Sultan, M., Lu, Z.-T., Lehman, B., Purtschert, R., El Alfy, Z., El Kaliouby, B., Dawood, Y., Abdallah, A.(2005). Cosmogenic, radiogenic, and stable isotopic constraints on groundwater residence time in the Nubian aquifer, Western Desert of Egypt.. Geochemistry, Geophysics, Geosystems 6, Q010005.CrossRefGoogle Scholar
Petit-Maire, N., Fontugne, M., Rouland, C.(1991). Atmospheric methane ratio and environmental changes in the Sahara and Sahel during the last 130 kyrs.. Palaeogeography, Palaeoclimatology, Palaeoecology 86, 197204.CrossRefGoogle Scholar
Prell, W.L., Kutzbach, J.E.(1987). Monsoon variability over the past 150,000 years.. Journal of Geophysial Research 92, 84118425.CrossRefGoogle Scholar
Rodrigues, D., Abell, P.I., Kropelin, S.(2000). Seasonality in the early Holocene climate of northwest Sudan; interpretation of Etheria elliptica shell isotopic data.. Palaeogeography, Palaeoclimatology, Palaeoecology 26, 181187.Google Scholar
Rohling, E.J., Cane, T.R., Cooke, S., Sprovieri, M., Bouloubassi, I., Emeis, K.C., Schiebel, R., Kroon, D., Jorissen, F.J., Lorre, A., Kemp, A.E.S.(2002). African monsoon variability during the previous interglacial maximum.. Earth and Planetary Science Letters 202, 6175.CrossRefGoogle Scholar
Rosenthal, Y., Katz, A.(1989). The applicability of trace elements in freshwater shells for paleogeochemical studies.. Chemical Geology 78, 6576.CrossRefGoogle Scholar
Rossignol-Strick, M., Paterne, M.(1999). A synthetic pollen record of the eastern Mediterranean sapropels of the last 1 Ma: Implications for the time-scale and formation of sapropels.. Marine Geology 153, 221237.CrossRefGoogle Scholar
S.A., Rounds, F.D., Wilde eds., (2001). Alkalinity and acid neutralizing capacity.. (2nd ed.): U.S. Geological Survey Techniques of Water-Resources Investigations, book 9, chap. A6., section 6.6, accessed 8/05 from http://pubs.water.usgs.gov/twri9A6/.Google Scholar
Sirocko, F. (1996). The evolution of the monsoon climate over the Arabian Sea during the last 24,000 years.. Palaeoecology of Africa and The Surrounding Islands 24, 5369.Google Scholar
Shanahan, T.M., Pigati, J.S., Dettman, D.L., Quade, J.(2005). Isotopic variability in the aragonite shells of freshwater gastropods living in springs with nearly constant temperature and isotopic composition.. Geochimica et Cosmochimica Acta 69, 39493966.CrossRefGoogle Scholar
Sinclair, D.J., McCulloch, M.T.(2004). Corals record low mobile barium concentrations in the Burdekin River during the 1974 flood: Evidence for limited Ba supply to rivers?.. Palaeogeography, Palaeoclimatology, Palaeoecology 214, 155174.CrossRefGoogle Scholar
Smith, A.J., Donovan, J.J., Ito, E., Engstrom, D.R., Panek, V.A.(2002). Climate-driven hydrologic transients in lake sediment records: Multiproxy record of mid-Holocene drought.. Quaternary Science Reviews 21, 625646.CrossRefGoogle Scholar
Smith, J.R., Giegengack, R., Schwarcz, H.P.(2004a). Constraints on Pleistocene pluvial climates through stable-isotope analysis of fossil-spring tufas and associated gastropods, Kharga Oasis, Egypt.. Palaeogeography, Palaeoclimatology, Palaeoecology 206, 157175.CrossRefGoogle Scholar
Smith, J.R., Giegengack, R., Schwarcz, H.P., McDonald, M.M.A., Kleindienst, M.R., Hawkins, A.L., Churcher, C.S.(2004b). Reconstructing pluvial environments and human occupation through study of the stratigraphy and geochronology of fossil-spring tufas, Kharga Oasis, Egypt.. Geoarchaeology: An International Journal 19, 407439.CrossRefGoogle Scholar
Sturchio, N.C., Du, X., Purtschert, R., Lehman, B.E., Sultan, M., Patterson, L.J., Lu, Z.-T., Muller, P., Bigler, T., Bailey, K., O'Connor, T.P., Young, L., Lorenzo, R., Becker, R., El Alfy, Z., El Kaliouby, B., Dawood, Y., Abdallah, A.M.A.(2004). One million krypton-81 year old groundwater in the Sahara revealed by and chlorine-36.. Geophysical Research Letters 31, 14.CrossRefGoogle Scholar
Sultan, M., Sturchio, N.C., Hassan, F.A., Hamdan, M.A.R., Mahmood, A.M., El Alfy, Z., Stein, T.(1997). Precipitation source inferred from stable isotopic composition of Pleistocene groundwater and carbonate deposits in the Western Desert of Egypt.. Quaternary Research 48, 2937.CrossRefGoogle Scholar
Swanberg, C.A., Morgan, P., Boulos, F.K.(1984). Geochemistry of the groundwaters of Egypt.. Annals of the Geological Survey of Egypt 14, 127150.Google Scholar
Talbot, M.R. (1990). A review of the palaeohydrological interpretation of carbon and oxygen isotopic ratios in primary lacustrine carbonates.. Chemical Geology 80, 261279.Google Scholar
Teranes, J.L., McKenzie, J.A., Bernasconi, S.M., Lotter, A.F., Sturm, M.(1999). A study of oxygen isotopic fractionation during bio-induced calcite precipitation in eutrophic Baldeggersee, Switzerland.. Geochimica et Cosmochimica Acta 63, 19811989.CrossRefGoogle Scholar
Tesoriero, A.J., Pankow, J.F.(1996). Solid solution partitioning of Sr2+, Ba2+, and Cd2+ to calcite.. Geochimica et Cosmochimica Acta 60, 10531063.CrossRefGoogle Scholar
Thorweihe, U. (1990). Nubian aquifer system.. Said, R. The Geology of Egypt A.A. Balkema, Roterdam.164181.Google Scholar
Valero-Garces, B.L., Laird, K.R., Fritz, S.C., Kelts, K., Ito, E., Grimm, E.C.(1997). Holocene climate in the northern Great Plains inferred from sediment stratigraphy, stable isotopes, carbonate geochemistry, diatoms, and pollen at Moon Lake, North Dakota.. Quaternary Research 48, 359369.CrossRefGoogle Scholar
Verheyden, S., Keppens, E., Fairchild, I.J., McDermott, F., Weis, D.(2000). Mg, Sr, and Sr isotope geochemistry of a Belgian Holocene speleothem: Implications for paleoclimate reconstructions.. Chemical Geology 169, 131144.CrossRefGoogle Scholar
R.S., Vose, R.L., Schmoyer, T.C., Peterson, Heim, R., T.R., Karl, and Eischeid, J. (1992). The Global Historical Climatology Network: Long-term monthly temperature, precipitation, sea level pressure and station pressure data..Carbon Dioxide Information Analysis Center, Oak Ridge National Laboratory, Oak Ridge, Tennessee.Google Scholar
Wansard, G., Mezquita, F.(2001). The response of ostracod shell chemistry to seasonal change in a Mediterranean freshwater spring environment.. Journal of Paleolimnology 25, 1 916.CrossRefGoogle Scholar
Xia, J., Engstrom, D.R., Ito, E.(1997). Geochemistry of ostracode calcite: Part 2. The effects of water chemistry and seasonal temperature variation on Candona rawsoni.. Geochimica et Cosmochimica Acta 61, 383391.CrossRefGoogle Scholar
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