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CONTRIBUTION TO THE FLORA OF THE SOUTH AEGEAN VOLCANIC ARC: THE METHANA PENINSULA (SARONIC GULF, GREECE)

Published online by Cambridge University Press:  16 February 2012

K. Kougioumoutzis
Affiliation:
Division of Plant Biology, Department of Biology, University of Patras, Rion 26500, Patras, Greece. E-mail for correspondence: [email protected]
A. Tiniakou
Affiliation:
Division of Plant Biology, Department of Biology, University of Patras, Rion 26500, Patras, Greece. E-mail for correspondence: [email protected]
T. Georgiadis
Affiliation:
Division of Plant Biology, Department of Biology, University of Patras, Rion 26500, Patras, Greece. E-mail for correspondence: [email protected]
O. Georgiou
Affiliation:
Division of Plant Biology, Department of Biology, University of Patras, Rion 26500, Patras, Greece. E-mail for correspondence: [email protected]
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Abstract

The Methana Peninsula (Saronic Gulf, Greece) constitutes the youngest and northwestern part of the South Aegean Volcanic Arc. The flora of the Methana Peninsula consists of 620 taxa, 101 of which are under some protection status, while 35 are Greek endemics and 380 are reported here for the first time. The study area has the highest percentage of endemism in the Saronic Gulf. Additionally, for some endemic taxa, their known distribution is expanded. These include Crocus sieberi subsp. atticus and Ophrys oestrifera subsp. leptomera, reported for the first time for the phytogeographical region of the Peloponnese; Campanula andrewsii subsp. hirsutula and Colchicum psaridis, reported for the first time for the North Peloponnese; and Trigonella rechingeri, reported for the first time from the Greek mainland. The floristic affinities between the study area and the large islands of the Saronic Gulf are examined by the application of Sørensen’s index to investigate the relationships between them.

Type
Articles
Copyright
Copyright © Trustees of the Royal Botanic Garden Edinburgh 2012

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References

APG III [The Angiosperm Phylogeny Group] (2009). An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG III. Bot. J. Linn. Soc. 161(2): 105121.CrossRefGoogle Scholar
Bagnouls, F. & Gaussen, H. (1953). Saison séche et indice xérothermique. Documents pour les cartes des productions végétales 3: 147.Google Scholar
Dafis, S., Papastergiadou, E., Georghiou, K., Babalonas, D., Georgiadis, Th., Papageorgiou, M., Lazaridou, Th. & Tsiaoussi, B. (eds) (1996). Directive 92/42/EEC. The Greek Habitat Project Natura 2000. An overview. Thessaloniki [in Greek].Google Scholar
Dewey, J. F., Helman, M. L., Turco, E., Hutton, D. W. H. & Knott, S. D. (1989). Kinematics of the western Mediterranean. In: Coward, M. P., Dietrich, D. & Park, R. G. (eds) Alpine Tectonics 45: 265284. Geological Society Special Publication.Google Scholar
Dietrich, V., Gaitanakis, P., Mercolli, I. & Oberhänsli, A. (1991). Geological Map of Greece, Aegina Island. Switzerland, Zürich: ETH Zürich.Google Scholar
Emberger, L. (1952). Sur le quotient pluviothermique. Cr. Acad. Sci. 23: 23082310.Google Scholar
Georgiou, K. & Delipetrou, P. (2010). Patterns and traits of the endemic plants of Greece. Bot. J. Linn. Soc. 162: 130422.CrossRefGoogle Scholar
Greek Presidential Decree 67/1981 (1981). Concerning the protection of wild flora and fauna and the definition of the coordinated procedure and control of their research [in Greek].Google Scholar
Greuter, W. (2008). Med-Checklist, vol. 2. Palermo, Genève & Berlin.Google Scholar
Greuter, W., Burdet, M. & Long, G. (1984–1989). Med-Checklist, vols 1, 3 and 4. Genève & Berlin.Google Scholar
Haussknecht, C. (1893–1899). Symbolae ad floram graecam. Aufzählung der im Sommer 1885 in Griechenland gesammelten Pflanzen. Mitt. Thuring. Bot. Ver. Neue Folge 34.Google Scholar
IUCN (2010). IUCN Red List of Threatened Species. Version 2010.4.Google Scholar
Kalpoutzakis, E. & Konstantinidis, T. (2009). Astragalus maniaticus. In: Phitos, D., Konstantinidis, T. & Kamari, G. (eds) The Red Data Book of Rare and Threatened Plants of Greece, pp. 135137. Patra: Hellenic Botanical Society.Google Scholar
Katsikatsos, G. (1992). Geology of Greece. Patra: University of Patras.Google Scholar
Kotini-Zampakas, S. I. (1983). Contribution to the study of the climate of Greece – Normal monthly weather. Athens: Academy of Athens.Google Scholar
Lienau, C. (1989). Griechenland. Geographie eines Staates der europäischen Südperipherie. Darmstadt: Wissenschaftliche Buchgesellschaft.Google Scholar
Mayley, T. S. & Johnson, G. L. (1971). Morphology and structure of the Aegean Sea. Deep-Sea Res. 18: 109122.Google Scholar
McKenzie, D. P. (1970). Plate tectonics of the Mediterranean region. Nature 226: 239243.CrossRefGoogle ScholarPubMed
Ministry of Development (2003). Masterplan for the water resources management of Greece. Athens: Ministry of Development.Google Scholar
Nicholls, I. A. (1971). Petrology of Santorini volcano, Cyclades, Greece. J. Petrol. 12: 67119.CrossRefGoogle Scholar
Pe, G. (1973). Volcanic rocks of Methana, South Aegean Arc, Greece. Bull. Volcanol. 38: 270290.CrossRefGoogle Scholar
Pe-Piper, G. & Piper, D. J. W. (2002). The Igneous Rocks of Greece. Berlin: Bornträger.Google Scholar
Pignatti, S. (1982). Flora d’Italia. Bologna.Google Scholar
Raunkiaer, C. (1934). The Life Forms of Plants and Statistical Geography. Oxford: Clarendon.Google Scholar
Rechinger, K. H. fil. (1943). Flora Aegaea. Akad. Wiss. Wien, Math.-Naturwiss. Kl., Denkschr. 105(1): 1924.Google Scholar
Sauvage, C. (1961). Recherches geobotaniques sur les suberaies marocaines. Trav. Inst. Sci. Chérifien, sér. Bot. 21: 1462.Google Scholar
Snogerup, S. & Snogerup, B. (2004). Changes in the flora of some Aegean islands 1968–2000. Pl. Syst. Evol. 245: 169213.CrossRefGoogle Scholar
Sørensen, T. (1948). A method of establishing groups of equal amplitude in plant sociology based on similarity of species content. Biol. Skr. Kongel. Danske Vidensk. Selsk. 5(2): 134.Google Scholar
Stothers, R. B. & Rampino, M. R. (1983). Volcanic eruptions in the Mediterranean before A.D. 630 from written and archeological sources. J. Geophys. Res. 88: 63576371.Google Scholar
Strid, A. (1989). Endemism and speciation in the Greek flora. In: Tan, K., The Davis and Hedge Festschrift. Edinburgh: Edinburgh University Press.Google Scholar
Strid, A. & Tan, K. (1997). Flora Hellenica, vol. 1. Koenigstein: Koeltz Scientific Books.Google Scholar
Strid, A. & Tan, K. (2002). Flora Hellenica, vol. 2. Koenigstein: Koeltz Scientific Books.Google Scholar
Tan, K. & Iatrou, G. (2001). Endemic Plants of Greece. The Peloponnese. Copenhagen: Gads Publishers Ltd.Google Scholar
Tutin, T. G., Heywood, V. H., Burges, N. A., Moore, D. M., Valentine, D. H., Walters, S. M. & Webb, D. A. (1964–1980, 1993). Flora Europaea, vols 15. Cambridge, UK: Cambridge University Press.Google Scholar
Vallianatou, I. (2005). Geobotanical research of Salamina, Aegina and other islands of the Saronic Gulf. PhD thesis, University of Athens.Google Scholar
Volti, T. (1999). Magnetotelluric measurements on the Methana Peninsula (Greece): modelling and interpretation. Tectonophysics 301: 111132.CrossRefGoogle Scholar
Zaganiaris, D. (1940). La flore de Poros. Actes Institut Botanique Université Athènes 1: 237253.Google Scholar