Hostname: page-component-78c5997874-4rdpn Total loading time: 0 Render date: 2024-11-08T17:34:25.581Z Has data issue: false hasContentIssue false

Evidence for Holocene sea level and climate change from Almenara marsh (western Mediterranean)

Published online by Cambridge University Press:  30 August 2017

Ana M. Blázquez*
Affiliation:
Environmental and Marine Sciences Research Institute, Catholic University of Valencia, C/ Guillem de Castro 94, 46003 Valencia, Spain
Ana Rodríguez-Pérez
Affiliation:
Environmental and Marine Sciences Research Institute, Catholic University of Valencia, C/ Guillem de Castro 94, 46003 Valencia, Spain
Trinidad Torres
Affiliation:
Laboratory of Biomolecular Stratigraphy, E.T.S.I. Minas y Energía, Universidad Politécnica de Madrid, C/ Ríos Rosas 21, 28003 Madrid, Spain
José E. Ortiz
Affiliation:
Laboratory of Biomolecular Stratigraphy, E.T.S.I. Minas y Energía, Universidad Politécnica de Madrid, C/ Ríos Rosas 21, 28003 Madrid, Spain
*
*Corresponding author at: Environmental and Marine Sciences Research Institute, Catholic University of Valencia, C/ Guillem de Castro 94, 46003 Valencia, Spain. E-mail address: [email protected] (A.M. Blázquez).

Abstract

In the Almenara marsh (western Mediterranean), four cores were analyzed to establish the relationship between the marsh record of the Almenara marshlands and the environmental factors responsible for its evolution during the Holocene. One hundred and eighty-six samples were collected for sedimentologic and paleontological study: 63 for biomarker analysis; 5 for amino acid racemization (AAR) dating; and 5 for 14C dating. Litho and biofacies analyses identified distinct paleoenvironments, with the presence of a marsh environment alternating with inputs of alluvial material and marine sediments. Biomarkers indicated the constant presence of terrestrial (herbaceous) plants, together with a variable development of aquatic macrophytes. During the Holocene transgression, the Almenara marsh was occupied by oligohaline marsh facies with an oscillating water level and peat formation, which was established at the bottom of the record at 7570 cal yr BP and persisted until 3100±780 yr (AAR). Maximum surface flooding occurred at 5480 cal yr BP, registered 450m from the current coastline. At least three peat beds (dated with 14C dating and AAR) correlated with Bond (episode 5900 cal yr BP) and Wanner (episodes 4800–4500 and 3300–3500 cal yr BP) cycles and thus correspond to a regional model that affected the Northern Hemisphere.

Type
Research Article
Copyright
Copyright © University of Washington. Published by Cambridge University Press, 2017 

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

REFERENCES

Amorosi, A., Dinelli, E., Rossi, V., Vaiani, S.C., Sacchetto, M., 2008. Late Quaternary palaeoenvironmental evolution of the Adriatic coastal plain and the onset of Po River Delta. Palaeogeography, Palaeoclimatology, Palaeoecology 268, 8090.CrossRefGoogle Scholar
Amorosi, A., Milli, S., 2001. Late Quaternary depositional architecture of Po and Tevere river deltas (Italy) and worldwide comparison with coeval deltaic successions. Sedimentary Geology 144, 357375.CrossRefGoogle Scholar
Amorosi, A., Ricci Lucchi, M., Rossi, V., Sarti, G., 2009. Climate change signature of small-scale parasequences from Lateglacial–Holocene transgressive deposits of the Arno valley fill. Palaeogeography, Palaeoclimatology, Palaeoecology 273, 142152.CrossRefGoogle Scholar
Anthony, E.J., Marriner, N., Morhange, C., 2014. Human influence and the changing geomorphology of Mediterranean deltas and coasts over the last 6000 years: from progradation to destruction phase? Earth-Science Reviews 139, 336361.CrossRefGoogle Scholar
Aranbarri, J., Gonzalez-Samperiz, P., Valero-Garces, B., Moreno, A., Gil-Romera, G., Sevilla-Callejo, M., García-Prieto, E., et al., 2014. Rapid climatic changes and resilient vegetation during the Lateglacial and Holocene in a continental region of southwestern Europe. Global and Planetary Change 114, 5065.CrossRefGoogle Scholar
Aranegui Gascó, C., Ruiz Pérez, J.M., Carmona González, P., 2005. El humedal del puerto de Arse-Saguntum. Estudio geomorfológico y sedimentológico. SAGVNTVM: Papeles del Laboratorio de Arqueología de Valencia 37, 153163.Google Scholar
Badal García, E., Roiron, P., 1995. La prehistoria de la vegetación en la Península Ibérica. SAGVNTVM: Papeles del Laboratorio de Arqueología de Valencia 28, 2948.Google Scholar
Bellotti, P., Caputo, C., Davoli, L., Evangelista, S., Garzanti, E., Pugliese, F., Valeri, P., 2004. Morpho-sedimentary characteristics and Holocene evolution of the emergent part of the Ombrone River delta (southern Tuscany). Geomorphology 61, 7190.CrossRefGoogle Scholar
Blázquez, A.M., 2005. Evolución cuaternaria de l’Albufera d’Elx: Paleoambientes y foraminíferos fósiles. Memorias del Museo Paleontológico de Elche 1. Museo Paleontológico de Elche, Elche, Spain.Google Scholar
Blázquez, A.M., Ferrer, C., 2003. L’Albufereta d’Alacant: foraminíferos y evolución paleoambiental. Cuaternario y Geomorfología 18, 5572.Google Scholar
Blázquez, A.M., Usera, J., 2010. Palaeoenvironments and Quaternary foraminifera in Elx coastal lagoon (Alicante, Spain). Quaternary International 221, 6890.CrossRefGoogle Scholar
Bond, G., Kromer, B., Beer, J., Muscheler, R., Evans, M.N., Showers, W., Hoffman, S., Lotti-Bond, R., Hajdas, I., Bonani, G., 2001. Persistent solar influence on North Atlantic climate during the Holocene. Science 278, 12571266.CrossRefGoogle Scholar
Bond, G., Showers, W., Cheseby, M., Lotti, R., Almasi, P., DeMenocal, P., Priore, P., Cullen, H., Hajdas, I., Bonani, G., 1997. A pervasive millennial-scale cycle in North Atlantic Holocene and glacial climates. Science 278, 12571266.CrossRefGoogle Scholar
Boski, T., Camacho, S., Moura, D., Fletcher, W., Wilamowski, A., Veiga-Pires, C., Correia, V., Loureiro, C., Santana, P., 2008. Chronology of the sedimentary processes during the postglacial sea level rise in two estuaries of the Algarve coast, Southern Portugal. Estuarine, Coastal and Shelf Science 77, 230244.CrossRefGoogle Scholar
Boyer, J., Duvail, C., Le Strat, P., Gensous, B., Tesson, M., 2005. High resolution stratigraphy and evolution of the Rhóne delta plain during postglacial time, from the subsurface drilling data bank. Marine Geology 222–223, 267298.CrossRefGoogle Scholar
Burjachs, F., Julià, R., 1994. Abrupt climatic changes during the last glaciation based on pollen analysis of the Abric Romani, Catalonia, Spain. Quaternary Research 42, 308315.CrossRefGoogle Scholar
Cacho, I., Grimalt, J.O., Canals, M., Sbaffi, L., Shackleton, N.J., Schönfeld, J., Zhan, R., 2001. Variability of the western Mediterranean Sea surface temperatures during the last 25,000 years and its connection with the Northern Hemisphere climatic changes. Paleoceanography 16, 4052.CrossRefGoogle Scholar
Carmona, P., Ruiz, J.M., 2008. Geoarchaeological study of the Phoenician cemetery of Tyre-Al Bass (Lebanon) and geomorphological evolution of a tombolo. Geoarchaeology 23, 334350.CrossRefGoogle Scholar
Carmona, P., Ruiz, J.M., 2011. Historical morphogenesis of the Turia River coastal flood plain in the Mediterranean littoral of Spain. Catena 86, 139149.CrossRefGoogle Scholar
Carmona, P., Ruiz-Pérez, J.-M., Blázquez, A.-M, López-Belzunce, M., Riera, S., Orengo, H., 2016. Environmental evolution and mid–late Holocene climate events in the Valencia lagoon (Mediterranean coast of Spain). Holocene 26, 17501765.CrossRefGoogle Scholar
Carrión, J.S., 2002. Patterns and processes of Late Quaternary environmental change in a montane region of southwestern Europe. Quaternary Science Reviews 21, 20472066.CrossRefGoogle Scholar
Carrión, J.S., Fernández, S., González-Sampériz, P., Gil-Romeraa, G., Badal, E., Carrión-Marco, Y., López-Merino, L., López-Sáez, J.A., Fierro, E., Burjachs, F., 2010. Expected trends and surprises in the Lateglacial and Holocene vegetation history of the Iberian Peninsula and Balearic Islands. Review of Palaeobotany and Palynology 162, 458475.CrossRefGoogle Scholar
Carrión, J.S., Munuera, M., Navarro, C., Burjachs, F., Dupre, M., Walker, M.J., 1999. The palaeoecological potential of pollen records in caves: the case of Mediterranean Spain. Quaternary Science Reviews 18, 10611073.CrossRefGoogle Scholar
Carrión, J.S., Van Geel, B., 1999. Fine-resolution Upper Weichselian and Holocene palynological record from Navarrés (Valencia, Spain) and a discussion about factors of Mediterranean forest succession. Review of Palaeobotany and Palynology 106, 209236.CrossRefGoogle Scholar
Cearreta, A., Benito, X., Ibáñez, C., Trobajo, R., Giosan, L., 2016. Holocene palaeoenvironmental evolution of the Ebro Delta (western Mediterranean Sea): evidence for an early construction based on the benthic foraminiferal record. Holocene 26, 14381456.CrossRefGoogle Scholar
Clarke, G.K.C., Leverington, D.W., Teller, J.T., Dyke, A.S., 2004. Paleohydraulics of the last outburst flood from glacial Lake Agassiz and the 8200 BP cold event. Quaternary Science Reviews 23, 389407.CrossRefGoogle Scholar
Collado, M.A., Robles, F., 1983. Estudio de las asociaciones de moluscos de la Turbera de Torreblanca (Castellón). Mediterránea, Serie Geológica 1, 105142.Google Scholar
Dabrio, C.J., Zazo, C., Goy, J.L., Sierro, F.J., Borja, F., Lario, J., González, J.A., Flores, J.A., 2000. Depositional history of estuarine infill during the last postglacial transgression (Gulf of Cadiz, southern Spain). Marine Geology 162, 381404.CrossRefGoogle Scholar
Davis, B.A.S., Stevenson, A.C., 2007. The 8.2 ka event and Early–Mid Holocene forests, fires and flooding in the central Ebro Desert, NE Spain. Quaternary Science Reviews 26, 16951712.CrossRefGoogle Scholar
De Torres, T., Ortiz, J.E., Arribas, I., Delgado, A., Julià, R., Martín-Rubí, J.A., 2010. Geochemistry of Persististrombus latus Gmelin from the Pleistocene Iberian Mediterranean realm. Lethaia 43, 149163.CrossRefGoogle Scholar
Dupré, M., Fumanal, M.P., Sanjaume, E., Santisteban, C., Usera, J., Viñals, M.J., 1988. Quaternary evolution of Pego coastal lagoon (southern Valencia, Spain). Palaeogeography, Palaeoclimatology, Palaeoecology 68, 291299.CrossRefGoogle Scholar
Ferrer, C., Blázquez, A.M., 1999. Algunos aspectos de la dinámica sedimentaria durante el Holoceno superior de un sector del Baix Vinalopó (Alicante, España). In: Pallí Buxó, L., Roqué Pau, C. (Eds.), Avances en el estudio del Cuaternario español. Universitat de Girona, Girona, Spain, pp. 99105.Google Scholar
Ferrer, C., Blázquez, A.M., 2012. The evolution of the Albufereta lagoon (western Mediterranean): climate cycles and sea level changes. Journal of Coastal Research 28, 16171626.CrossRefGoogle Scholar
Ferrer, C., Blázquez, A.M., Esquembre, M.A., Ortega, J.R., 2005. Reconstrucción paleoambiental de l’Albufereta d’Alacant durante el período ibero-romano (500 a.C.-300 d.C.). In: Sanjaume, E., Mateu, J.F. (Eds.), Geomorfologia litoral i Quaternari: Homenatge al professor Vicenç M. Rosselló i Verger. Universitat de València, Valencia, Spain, pp. 137150.Google Scholar
Ficken, K.J., Li, B., Swain, D.L., Eglinton, G., 2000. An n-alkane proxy for the sedimentary input of submerged/floating freshwater aquatic macrophytes. Organic Geochemistry 31, 745749.CrossRefGoogle Scholar
Fletcher, W.J., Boski, T., Moura, D., 2007. Palynological evidence for environmental and climatic change in the lower Guadiana valley, Portugal, during the last 13 000 years. Holocene 17, 481494.CrossRefGoogle Scholar
Fontboté, J.M., Guimerà, J., Roca, E., Sàbat, F., Santanach, P., Fernández-Ortigosa, F., 1990. The Cenozoic geodynamic evolution of the Valencia trough (western Mediterranean). Revista de la Sociedad Geológica de España 3, 249259.Google Scholar
Fumanal, M.P., Dupré, M., 1986. Aportaciones de la sedimentología y de la palinología al conocimiento del Paleoambiente valenciano durante el Holoceno. In: López-Vera, F. (Ed.), Quaternary Climate in Western Mediterranean: Symposium on Climatic Fluctuations during the Quaternary in the Western Mediterranean Regions. Universidad Autonoma, Madrid, pp. 325343.Google Scholar
Fumanal, M.P., Usera, J., Viñals, M.J., Mateu, G., Belluomini, G., Manfra, L., Proszynska-Bordas, H., 1993. Evolución cuaternaria de la Bahía de Xàbia (Alicante). In: Fumanal, M.P., Bernabeu, J. (Eds.), Estudios sobre Cuaternario. Universitat de València, Valencia, Spain, pp. 1726.Google Scholar
Goy, J.L., Zazo, C., Dabrio, C.J., 2003. A beach-ridge progradation complex reflecting periodical sea-level and climate variability during the Holocene (Gulf of Almería, western Mediterranean). Geomorphology 50, 251268.CrossRefGoogle Scholar
Goy, J.L., Zazo, C., Dabrio, C., Lario, J., Borja, F., Sierro, F.J., Flores, J.A., 1996. Global and regional factors controlling changes of coastlines in southern Iberia (Spain) during the Holocene. Quaternary Science Reviews 15, 773780.CrossRefGoogle Scholar
Gusi Jener, F., 1978. Ecosistemas y grupos culturales humanos en las comarcas de Castellón durante el Pleistoceno y mitad del Holoceno. Quaderns de Prehistòria y Arqueologia de Castelló 5, 189206.Google Scholar
López-Buendía, A.M., 1995. Evolución cuaternaria de las cuencas palustres litorales de la depresión Valencia-Castellón. PhD dissertation, Universidad de Zaragoza, Zaragoza, Spain.Google Scholar
López-Buendía, A.M., Bastida, J., Querol, X., Whateley, M.K.G., 1999. Geochemical data as indicators of palaeosalinity in coastal organic-rich sediments. Chemical Geology 157, 235254.CrossRefGoogle Scholar
Marco-Barba, J., Holmes, J.A., Mesquita-Joanes, F., Miracle, M.R., 2013. The influence of climate and sea-level change on the Holocene evolution of a Mediterranean coastal lagoon: evidence from ostracod palaeoecology and geochemistry. Geobios 46, 409421.CrossRefGoogle Scholar
Martín-Puertas, C., Valero-Garcés, B.L., Mata, M.P., González-Sampériz, P., Bao, R., Moreno, A., Stefanova, V., 2008. Arid and humid phases in southern Spain during the last 4000 years: the Zoñar Lake record, Córdoba. Holocene 18, 907921.CrossRefGoogle Scholar
Mateu, G., 1989. Sondeo de l’Albufera de Pego (Valencia): Micropaleontología y biofacies. Cuadernos de Geografía 45, 19.Google Scholar
Mediato, J.F., 2016. Oscilaciones del nivel del mar desde el Pleistoceno superior en el sector costero Sagunto-Benicasim (Valencia-Castellón). Registro sedimentario, geoquímico e histórico. PhD dissertation, Universidad Complutense de Madrid, Madrid.Google Scholar
Mediato, J.F., Santisteban, J.I., 2006. Subfacies geoquímicas: una mejora en la caracterización de depósitos litorales (sondeo de Almenara, provincia de Castellón). Boletín Geológico y Minero 117, 519524.Google Scholar
Mediato, J.F., Santisteban, J.I., Mediavilla, R., Dabrio, C.J., 2011a. Análisis estratigráfico y sedimentológico del registro holoceno en la marjal de Almenara. Variaciones eustáticas. Actas de las VI Jornadas de Geomorfología Litoral, Tarragona, Spain, pp. 163166.Google Scholar
Mediato, J.F., Santisteban, J.I., Mediavilla, R., Dabrio, C.J., 2011b. Análisis geoquímico del registro holoceno del marjal de Almenara. Variaciones eustáticas. Actas de las VI Jornadas de Geomorfología Litoral, Tarragona, Spain, pp. 166170.Google Scholar
Morellón, M., Valero-Garcés, B., Vegas, T., González-Sampériz, P., Delgado-Huertas, A., Mata, P., Moreno, A., Rico, M., Corella, J.P., 2009. Late glacial and Holocene palaeohydrology in the western Mediterranean region: the Lake Estanya record (NE Spain). Quaternary Science Reviews 28, 25822599.CrossRefGoogle Scholar
Olsen, J., John Anderson, N., Knudsen, M.F., 2012. Variability of the North Atlantic Oscillation over the past 5200 years. Nature Geoscience 5, 808812.CrossRefGoogle Scholar
Ortiz, J.E., Torres, T., Ramallo, S.F., Ros, M., 2015. Algoritmos de datación por racemización de aminoácidos de ostrácodos del Holoceno y Pleistoceno superior en la Península Ibérica. Geogaceta 58, 5962.Google Scholar
Pablo, M., Martínez-Clavel, B., Rodríguez, I., Blázquez, A.M., 2014. Variaciones de la línea de costa entre los puertos de Castellón y Sagunto (Castelló, España) desde la mistad del siglo XX hasta la actualidad. In: Schnabel, S., Gutiérrez, A.G. (Eds.), Avances de la Geomorfología en España 2012–2014. Universidad de Extremadura, Cáceres, Spain, pp. 552555.Google Scholar
Pascual, J.E.P., 1991. La erosión antrópica en el litoral valenciano. Generalitat Valenciana, Conselleria d’Obras Publiques, Urbanisme i Transports, Valencia, Spain.Google Scholar
Pérez Cueva, A.J., 1977. Estudio sedimentológico de la Plana de Castelló. PhD dissertation, Facultad de Filosofía y Letras de la Universidad de València, Valencia, Spain.Google Scholar
Pérez Cueva, A.J., 1979. El Cuaternario Continental de la Plana de Castelló. Cuadernos de Geografía 24, 3954.Google Scholar
Pérez Cueva, A.J., 1985. Geomorfología del sector oriental de la Cordillera Ibérica entre los ríos Mijares y Turia. PhD dissertation, Sección de Geografía, Universitat de València, Valencia, Spain.Google Scholar
Pirazzoli, P.A., 2005. A review of possible eustatic, isostatic and tectonic contributions in eight late-Holocene relative sea-level histories from the Mediterranean area. Quaternary Science Reviews 24, 19892001.CrossRefGoogle Scholar
Reed, J.M., Stevenson, A.C., Juggins, S., 2001. A multi-proxy record of Holocene climatic change southwestern Spain: the Laguna de Medina, Cádiz. Holocene 11, 707719.CrossRefGoogle Scholar
Reimer, P.J., Bard, E., Bayliss, A., Beck, J.W., Blackwell, P.G., Bronk Ramsey, C., Buck, C.E., Cheng, H., Edwards, R.L., Friedrich, M., 2013. IntCal13 and Marine13 radiocarbon age calibration curves 0–50,000 years cal BP. Radiocarbon 55, 18691887.CrossRefGoogle Scholar
Rey, J., Fumanal, M.P., 1996. The Valencian coast (western Mediterranean): neotectonic and geomorphology. Quaternary Science Reviews 15, 789802.CrossRefGoogle Scholar
Rosselló, V.M., 1993. Albuferas mediterráneas. Cuadernos de Geografía 53, 3564.Google Scholar
Rossi, V., Amorosi, A., Sarti, G., Potenza, M., 2011. Influence of inherited topography on the Holocene sedimentary evolution of coastal systems: an example from Arno coastal plain (Tuscany, Italy). Geomorphology 135, 117128.CrossRefGoogle Scholar
Ruiz, J.M., Carmona, P., 2005. La llanura deltaica de los ríos Jucar y Turia y la Albufera de Valencia. In: Sanjaume, E., Mateu, J.F. (Eds.), Geomorfologia litoral i Quaternari: Homenatge al professor Vicenç M. Rosselló i Verger. Universitat de València, Valencia, Spain, pp. 399419.Google Scholar
Sabatier, P., Dezileau, L., Colin, C., Briqueu, L., Bouchette, F., Martinez, P., Siani, G., Raynal, O., Von Grafenstein, U., 2012. 7000 years of paleostorm activity in the NW Mediterranean Sea in response to Holocene climate events. Quaternary Research 77, 111.CrossRefGoogle Scholar
Sanjaume, E., 1985. Las costas valencianas. Sedimentología y morfología. Universitat de València, Valencia, Spain.Google Scholar
Sanjaume, E., Carmona, P., 1995. L’Albufera de València: rasgos geomorfológicos y evolución cuaternaria. In: El Cuaternario del País Valenciano. Universitat de València, Valencia, Spain, pp. 155162.Google Scholar
Sanjaume, E., Rosselló, V.M., Pardo, J.E., Carmona, P., Segura, E., López García, M.J., 1996. Recent coastal changes in the Gulf of Valencia (Spain). Zeitschrift für Geomorphologie, Supplementbände 102, 95118.Google Scholar
Segura, F., Pardo, J.E., Sanjaume, E., 1997. Evolución cuaternaria de la albufera de Torreblanca. Cuaternario y Geomorfología 11, 318.Google Scholar
Segura, F., Sanjaume, E., Pardo, J.E., 1995. Evolución cuaternaria de las albuferas del sector septentrional del Golfo de Valencia. In: El Cuaternario del País Valenciano. Universitat de València, Valencia, Spain, pp. 139153.Google Scholar
Silliman, J.E., Meyers, P.A., Bourbonniere, R.A., 1996. Record of postglacial organic matter delivery and burial in sediments of Lake Ontario. Organic Geochemistry 24, 463472.CrossRefGoogle Scholar
Somoza, L., Barnolas, A., Arasa, A., Maestro, A., Rees, J.G., Hernández-Molina, F.J., 1998. Architectural stacking patterns of the Ebro delta controlled by Holocene high-frequency eustatic fluctuations, delta-lobe switching and subsidence processes. Sedimentary Geology 117, 1132.Google Scholar
Stanley, D.J., Warne, A.G., 1994. Worldwide initiation of Holocene marine deltas by the deceleration of sea-level rise. Science 265, 228232.CrossRefGoogle ScholarPubMed
Stanley, D.J., Warne, A.G., 1997. Holocene sea-level change and early human utilization of deltas. GSA Today 7, 17.Google Scholar
Talma, A.S., Vogel, J.C., 1993. A simplified approach to calibrating 14C dates. Radiocarbon 35, 317322.CrossRefGoogle Scholar
Torres, T., Ortiz, J.E., Martín-Sánchez, D., Arribas, I., Moreno, L., Ballesteros, B., Blázquez, A.M., Domínguez, J.A., Rodríguez Estrella, T., 2014. The long Pleistocene record from the Pego-Oliva marshland (Alicante-Valencia, Spain). In: Martini, I.P., Wanless, H.R. (Eds.), Sedimentary Coastal Zones from High to Low Latitudes: Similarities and Differences. Geological Society, London, Special Publications 388, 429452.Google Scholar
Usera, J., Blázquez, A.M., Guillem, J., Alberola, C., 2006. Evolución holocena de la Marjal de Peñíscola (Castellón, España) deducida del estudio de sus foraminíferos fósiles. Revista Española de Micropaleontología 38, 381393.Google Scholar
Vegas, J., Ruiz-Zapata, M.B., Ortiz, J.E., Galán, L., Torres, T., García-Cortés, A., Gil-García, M.P., Pérez-González, A., Gallardo-Millán, J.L., 2010. Identification of arid phases during the last 50 cal. ka BP from the Fuentillejo maar-lacustrine record (Campo de Calatrava Volcanic Field, Spain). Journal of Quaternary Science 25, 10511062.CrossRefGoogle Scholar
Vella, C., Fleury, T.J., Raccasi, G., Provansal, M., Sabatier, F., Bourcier, M., 2005. Evolution of the Rhône delta plain in the Holocene. Marine Geology 222–223, 235265.CrossRefGoogle Scholar
Viñals, M.J., 1996. El marjal de Oliva-Pego (Valencia): geomorfología y evolución de un humedal costero mediterráneo. Consellería de Agricultura y Medio Ambiente, Generalitat Valenciana, Valencia, Spain.Google Scholar
Viñals, M.J., Fumanal, M.P., 1995. Quaternary development and evolution of the sedimentary environments in the central Mediterranean Spanish coast. Quaternary International 29, 119128.CrossRefGoogle Scholar
Viñals, M.J., Mateu, G., Fumanal, M.P., Usera, J., Favero, V., 1989. Aportación al conocimiento de las facies lagunares y litorales de la Marjal de Oliva-Pego (Valencia). Cuaternario y Geomorfología 3, 93104.Google Scholar
Wanner, H., Solomina, O., Grosjean, M., Ritz, S.P., Jetel, M., 2011. Structure and origin of Holocene cold events. Quaternary Science Reviews 30, 31093123.CrossRefGoogle Scholar
Wright, V.P., Platt, N.H., 1995. Seasonal wetlands carbonate sequences and dynamic catenas: a reappraisal of palustrine limestones. Sedimentary Geology 86, 203210.Google Scholar
Wright, V.P., Tucker, M.E., 1991. Calcretes: an introduction. In: Wright, V.P., Tucker, M.E. (Eds.), Calcretes. IAS Reprint Series 2. Blackwell Scientific, Oxford, UK, pp. 122.Google Scholar
Yll, E.I., Pérez‐Obiol, R., Julià, R., 1994. Vegetational change in the Balearic Islands (Spain) during the Holocene. Historical Biology 9, 8389.CrossRefGoogle Scholar
Zazo, C., 1999. Interglacial sea-levels. Quaternary International 55, 101113.CrossRefGoogle Scholar
Zazo, C., 2006. Cambio climático y nivel del mar: la península ibérica en el contexto global. Cuaternario y Geomorfología 20, 115130.Google Scholar
Zazo, C., Dabrio, C.J., González, A., Sierro, F.J., Yll, E.I., Goy, J.L., Lario, J., 1999. The record of the latter glacial and interglacial periods in the Guadalquivir marshlands (Mari López drilling, S.W. Spain). Geogaceta 26, 119122.Google Scholar
Zazo, C., Dabrio, C.J., Goy, J.L., Lario, J., Cabero, A., Silva, P.G., Bardaji, T., Mercier, N., Borja, F., Roquero, E., 2008. The coastal archives of the last 15 ka in the Atlantic–Mediterranean Spanish linkage area: sea level and climate changes. Quaternary International 181, 7287.CrossRefGoogle Scholar
Zazo, C., Goy, J.L., Dabrio, C.J., Bardají, T., Hillaire-Marcel, C., Ghaleb, B., González-Delgado, J.A., Soler, V., 2003. Pleistocene raised marine terraces of the Spanish Mediterranean and Atlantic coasts: records of coastal uplift, sea-level highstands and climate changes. Marine Geology 194, 103133.CrossRefGoogle Scholar
Supplementary material: File

Blázquez supplementary material

Blázquez supplementary material 1

Download Blázquez supplementary material(File)
File 16 KB
Supplementary material: File

Blázquez supplementary material

Blázquez supplementary material 2

Download Blázquez supplementary material(File)
File 16.2 KB
Supplementary material: File

Blázquez supplementary material

Blázquez supplementary material 3

Download Blázquez supplementary material(File)
File 16.6 KB
Supplementary material: File

Blázquez supplementary material

Blázquez supplementary material 4

Download Blázquez supplementary material(File)
File 16.1 KB