Hostname: page-component-cd9895bd7-lnqnp Total loading time: 0 Render date: 2024-12-23T00:34:47.301Z Has data issue: false hasContentIssue false

Vegetation and environmental conditions in the Doñana Natural Park coastal area (SW Iberia) at the beginning of the last glacial cycle

Published online by Cambridge University Press:  20 January 2017

César Morales-Molino*
Affiliation:
Dpto. de Silvopascicultura, E.T.S.I. Montes, Universidad Politécnica de Madrid, Ciudad Universitaria s/n, 28040, Madrid, Spain Dpto. de Biología (Botánica), Facultad de Ciencias, Universidad Autónoma de Madrid, 28049, Cantoblanco, Madrid, Spain
José María Postigo-Mijarra
Affiliation:
Dpto. de Silvopascicultura, E.T.S.I. Montes, Universidad Politécnica de Madrid, Ciudad Universitaria s/n, 28040, Madrid, Spain
Mercedes García-Antón
Affiliation:
Dpto. de Biología (Botánica), Facultad de Ciencias, Universidad Autónoma de Madrid, 28049, Cantoblanco, Madrid, Spain
Cari Zazo
Affiliation:
Dpto. de Geología, Museo Nacional de Ciencias Naturales, C.S.I.C., c/ José Gutiérrez Abascal no. 2, 28006-Madrid, Spain
*
Corresponding author. Dpto. de Silvopascicultura, E.T.S.I. Montes, Universidad Politécnica de Madrid, Ciudad Universitaria s/n, 28040, Madrid, Spain.

Abstract

Detailed reconstructions of the vegetation of Iberia during the last glacial inception are rare due to the limited number of terrestrial sites recording this period. Active retreat of El Asperillo cliff, located on the Atlantic coast of southwestern Iberia, has exposed a fossil organic level dating back to one of the early stades of the last glacial cycle. Pollen and macrofossil analyses from this site show that the Doñana area was covered mainly by steppic vegetation; temperate trees survived the coldest periods, albeit in reduced numbers. Mediterranean taxa are extremely reduced, in contrast with other dry areas of southern Iberia over this time span. This vegetation suggests cold and arid climatic conditions, in accordance with paleoclimatic reconstructions based on several Atlantic marine cores.

Type
Research Article
Copyright
University of Washington

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

Allen, J.R.M., Brandt, U., Brauer, A., Hubberten, H.-W., Huntley, B., Keller, J., Kraml, M., Mackensen, A., Mingram, J., Negendank, J.F.W., Nowaczyk, N.R., Oberhänsli, H., Watts, W.A., Wulf, S., and Zolitschka, B. Rapid environmental changes in southern Europe during the last glacial period. Nature 400, (1999). 740743.Google Scholar
ANTHOS, Sistema de información de las plantas de España. (2006). Real Jardín Botánico-CSIC y Fundación Biodiversidad, [http://www.anthos.es, 19-IX-2008]Google Scholar
Bennett, K.D., and Provan, J. What do we mean with refugia?. Quaternary Science Reviews 27, (2008). 24492455.Google Scholar
Bennett, K.D., Tzedakis, P.C., and Willis, K.J. Quaternary refugia of north European trees. Journal of Biogeography 18, (1991). 103115.Google Scholar
Birks, H.H. Studies in the vegetational history of Scotland: II. Two pollen diagrams from the Galloway Hills, Kirkcudbrightshire.. Journal of Ecology 60, (1972). 183217.Google Scholar
Birks, H.H., and Birks, H.J.B. Future uses of pollen analysis must include plant macrofossils. Journal of Biogeography 27, (2000). 3135.Google Scholar
Brauer, A., Allen, J.R.M., Mingram, J., Dulski, P., Wulf, S., and Huntley, B. Evidence for last interglacial chronology and environmental change from Southern Europe. Proceedings of the National Academy of Sciences 104, (2007). 450455.Google Scholar
Burjachs, Evolució de la vegetació i paleoclimatologia des de fa més de 85000 anys a la regió d'Olot. Anàlisi pollínica del Pla de l'Estany (Sant Joan les Fonts, la Garrotxa). Vitrina 5, (1990). 4956.Google Scholar
Burjachs, F., and Julià, R. Abrupt climatic changes during the last glaciation based on pollen analysis of the Abric Romani, Catalonia, Spain. Quaternary Research 42, (1994). 308315.Google Scholar
Cabezudo, B. Ericaceae. Valdés, B., Talavera, S., and Fernández-Galiano, E. Flora Vascular de Andalucía Occidental, vol. 1. (1987). Ed. Ketres, Barcelona. 454460.Google Scholar
Carrión, J.S. Late Quaternary pollen sequence from Carihuela Cave, southeastern Spain. Review of Palaeobotany and Palynology 71, (1992). 3777.Google Scholar
Carrión, J.S. A taphonomic study of modern pollen assemblages from dung and surface sediments in arid environments of Spain. Review of Palaeobotany and Palynology 120, (2002). 217232.Google Scholar
Carrión, J.S., and Van Geel, B. 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, (1999). 209236.Google Scholar
Carrion, J.S., Scott, L., Arribas, A., Fuentes, N., Gil-Romera, G., and Montoya, E. Pleistocene landscapes in central Iberia inferred from pollen analysis of hyena coprolites. Journal of Quaternary Science 22, (2007). 191202.Google Scholar
Carrión, J.S., Munuera, M., and Navarro, C. Palaeoenvironmental reconstruction of cave sediments on the basis of palynology: an example from Carihuela Cave (Granada, Spain). Review of Palaeobotany and Palynology 99, (1998). 317340.Google Scholar
Carrión, J.S., Finlayson, C., Fernández, S., Finlayson, G., Allué, E., López-Sáez, J.A., López-García, P., Gil-Romera, G., Bailey, G., and González-Sampériz, P. A coastal reservoir of biodiversity for Upper Pleistocene human populations: palaeoecological investigations in Gorham's Cave (Gibraltar) in the context of the Iberian Peninsula. Quaternary Science Reviews 27, (2008). 21182135.Google Scholar
d'Errico, F., and Sánchez Goñi, M.F. Neandertal extinction and the millennial scale climatic variability of OIS 3. Quaternary Science Reviews 22, (2003). 769788.Google Scholar
d'Errico, F., and Sánchez Goñi, M.F. A garden of Eden for the Gibraltar Neanderthals? A reply to Finlayson et al. Quaternary Science Reviews 23, (2004). 12101216.Google Scholar
Faegri, K., and Iversen, J. Textbook of Pollen Analysis. (1989). John Wiley and Sons Ltd., Chichester.Google Scholar
Fernández, S., Fuentes, N., Carrión, J.S., González-Sampériz, P., Montoya, E., Gil, G., Vega-Toscano, G., and Riquelme, J.A. The Holocene and Upper Pleistocene pollen sequence of Carihuela Cave, southern Spain. Geobios 40, (2007). 7590.Google Scholar
Finlayson, C., Fa, D.A., Finlayson, G., Giles Pacheco, F., and Rodríguez Vidal, J. Did the moderns kill off the Neanderthals? A reply to F. d'Errico and Sánchez Goñi. Quaternary Science Reviews 23, (2004). 12051209.Google Scholar
Fletcher, W.J., Sánchez Goñi, M.F., Allen, J.R.M., Cheddadi, R., Combourieu-Nebout, N., Huntley, B., Lawson, I., Londeix, L., Magri, D., Margari, V., Müller, U.C., Naughton, F., Novenko, E., Roucoux, K., and Tzedakis, P.C. Millennial-scale variability during the last glacial in vegetation records from Europe. Quaternary Science Reviews 29, (2009). 28392864.Google Scholar
García Antón, M., Morla, C., and Sainz Ollero, H. Consideraciones sobre la presencia de algunos vegetales relictos terciarios durante el Cuaternario en la Península Ibérica. Boletín de la Real Sociedad Española de Historia Natural (secc. Biología) 86, (1990). 95105.Google Scholar
García Esteban, L., and Guindeo, A. Anatomía de las maderas de frondosas españolas. (1990). AITIM, Madrid.Google Scholar
Gómez-Orellana, L., Ramil-Rego, P., and Muñoz Sobrino, C. The Würm in NW Iberia, a pollen record from Area Longa (Galicia). Quaternary Research 67, (2007). 438452.Google Scholar
González-Sampériz, P., Valero-Garcés, B.L., Carrión, J.S., Peña-Monné, J.L., García-Ruiz, J.M., and Martí-Bono, C. Glacial and Lateglacial vegetation in northeastern Spain: new data and a review. Quaternary International 140–141, (2005). 420.Google Scholar
Grimm, E.C. Tilia, version 2. (1992). Illinois State Museum. Research and Collection Center, Springfield, IL 62703, USA.Google Scholar
Jalas, J., and Suominen, J. Atlas Florae Europaeae: distribution of vascular plants in Europe, vol. 3: Salicaceae to Balanophoraceae. (1976). The Committee for mapping the flora of Europe and Societas biologican Fennica Vanamo, Helsinki.Google Scholar
Kaiser, K., Opgenoorth, L., Schoch, W.H., and Miehe, G. Charcoal and fossil wood from palaeosols, sediments and artificial structures indicating Late Holocene woodland decline in southern Tibet (China). Quaternary Science Reviews 28, (2009). 15391554.Google Scholar
Krebs, P., Conedera, M., Pradella, M., Torriani, D., Felber, M., and Tinner, W. Quaternary refugia of the sweet chestnut (Castanea sativa Mill.): an extended palynological approach. Vegetation History and Archaeobotany 13, (2004). 145160.Google Scholar
Mateus, J.E. Lagoa Travessa. A Holocene pollen diagram from the south-west coast of Portugal. Revista de Biologia 14, (1989). 1794.Google Scholar
Müller, U.C., Pross, J., and Bibus, E. Vegetation response to rapid climate change in Central Europe during the past 140, 000 yr based on evidence from the Füramoos pollen record. Quaternary Research 59, (2003). 235245.Google Scholar
Muñoz Sobrino, C., Ramil-Rego, P., Gómez-Orellana, L., and Díaz Varela, R.A. Palynological data on major Holocene climatic events in NW Iberia. Boreas 34, (2005). 381400.Google Scholar
Pons, A., and Reille, M. The Holocene and Upper Pleistocene pollen record from Padul (Granada, Spain): a new study. Palaeogeography, Palaeoclimatology, Palaeoecology 66, (1988). 243263.Google Scholar
Postigo-Mijarra, J.M., Gómez Manzaneque, F., and Morla, C. Survival and long-term maintenance of tertiary trees in the Iberian Peninsula during the Pleistocene: first record of Aesculus L. (Hippocastanaceae) in Spain. Vegetation History and Archaeobotany 17, (2008). 351364.Google Scholar
Postigo-Mijarra, J.M., Gómez Manzaneque, F., Morla Juaristi, C., and Zazo, C. Palaeoecological significance of Late Pleistocene pine macrofossils in the lower Guadalquivir Basin (Doñana natural park, southwestern Spain). Palaeogeography, Palaeoclimatology, Palaeoecology 295, (2010). 332343.Google Scholar
Queiroz, P.F. A preliminary palaeoecological study at Estacada (Lagoa de Albufeira). Revista de Biologia 14, (1989). 316.Google Scholar
Queiroz, P.F., and Mateus, J.E. Preliminary palynological investigation on the Holocene deposits of Lagoa de Albufeira and Lagoa de Melides, Alentejo (Portugal). Revista de Biologia 15, (1994). 1527.Google Scholar
Ramil-Rego, P., Muñoz-Sobrino, C., Rodríguez-Guitián, M., and Gómez-Orellana, L. Differences in the vegetation of the North Iberian Peninsula during the last 16,000 years. Plant Ecology 138, (1998). 4162.Google Scholar
Rodríguez-Sánchez, F., Pérez-Barrales, R., Ojeda, F., Vargas, P., and Arroyo, J. The Strait of Gibraltar as a melting pot for plant biodiversity. Quaternary Science Reviews 27, (2008). 21002117.Google Scholar
Roucoux, K.H., Shackleton, N.J., de Abreu, L., Schönfeld, J., and Tzedakis, P.C. Combined marine proxy and pollen analyses reveal rapid Iberian vegetation response to North Atlantic millennial-scale climate oscillations. Quaternary Research 56, (2001). 128132.Google Scholar
Roucoux, K.H., de Abreu, L., Shackleton, N.J., and Tzedakis, P.C. The response of NW Iberian vegetation to North Atlantic climate oscillations during the last 65 kyr. Quaternary Science Reviews 24, (2005). 16371653.Google Scholar
Sánchez Goñi, M.F. A propos de la présence du pollen de Castanea et de Juglans dans les sédiments archéologiques würmiens anciens du Pays Basque espagnol. Caratini, C. Palynologie, écologie, paléoécologie. (1988). Travaux de la Section Scientifique et Technique Tome XXV, India. 7382.Google Scholar
Sánchez Goñi, M.F., Eynaud, F., Turon, J.L., and Shackleton, N.J. High resolution palynological record off the Iberian margin: direct land–sea correlation for the Last Interglacial complex. Earth and Planetary Science Letters 171, (1999). 123137.Google Scholar
Sánchez Goñi, M.F., Loutre, M.F., Crucifix, M., Peyron, O., Santos, L., Duprat, J., Malaizé, B., Turon, J.-L., and Peypouquet, J.-P. Increasing vegetation and climate gradient in Western Europe over the Last Glacial Inception (122–110 ka): data–model comparison. Earth and Planetary Science Letters 231, (2005). 111130.Google Scholar
Sánchez Goñi, M.F., Landais, A., Fletcher, W.J., Naughton, F., Desprat, S., and Duprat, J. Contrasting impacts of Dansgaard–Oeschger events over a western European latitudinal transect modulated by orbital parameters. Quaternary Science Reviews 27, (2008). 11361151.Google Scholar
Santos, L., and Sánchez Goñi, M.F. Lateglacial and Holocene environmental changes in Portuguese coastal lagoons 3: vegetation history of the Santo André coastal area. Holocene 13, (2003). 459464.Google Scholar
Schoch, W., Heller, I., Schweingruber, F.H., and Kienast, F. Wood anatomy of central European species. (2004). [Online version: http://www.woodanatomy.ch]Google Scholar
Schweingruber, F.H. European wood anatomy. (1990). Verlag Paul Haupt, Bern. (800 pp.)Google Scholar
Schweingruber, F.H., Börner, A., and Schulze, E.-D. Atlas of Woody Plant Stems. Evolution, Structure, and Environmental Modifications. (2006). Springer-Verlag, Berlin Heidelberg. (229 pp.)Google Scholar
Spicer, R.A. Plant taphonomic processes. Allison, P.A., and Briggs, D.E.G. Taphonomy. Releasing The Data Locked in the Fossil Record. (1991). Plenum Press, New York. 71113.Google Scholar
Stockmarr, J. Tables with spores used in absolute pollen analysis. Pollen et Spores 13, (1971). 615621.Google Scholar
Zazo, C., Dabrio, C.J., Borja, F., Goy, J.L., Lezine, A.M., Lario, J., Polo, M.D., Hoyos, M., and Boersma, J.R. Pleistocene and Holocene aeolian facies along the Huelva coast (southern Spain): climatic and neotectonic implications. Geologie en Mijnbouw 77, (1999). 209224.Google Scholar
Zazo, C., Mercier, N., Silva, P.G., Dabrio, C.J., Goy, J.L., Roquero, E., Soler, V., Borja, F., Lario, J., Polo, D., and de Luque, L. Landscape evolution and geodynamic controls in the Gulf of Cádiz (Huelva coast, SW Spain) during the Late Quaternary. Geomorphology 68, (2005). 269290.Google Scholar
Zazo, C., Dabrio, C.J., Goy, J.L., Lario, J., Cabero, A., Silva, P.G., Bardají, T., Mercier, N., Borja, F., and Roquero, E. The coastal archives of the last 15 ka in the Atlantic–Mediterranean Spanish linkage area: Sea level and climate changes. Quaternary International 181, (2008). 7286.Google Scholar