Page 10 - Fattorini_etal2015
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Fattorini et al.

Looijen R.C. 1998. Holism and reductionism in biology and                  Schoener T.W., Spiller D.A., Losos, J.B. 2001. Natural restora-
    ecology. The mutual dependence of higher and lower level                   tion of the species–area relation for a lizard after a hurricane.
    research programmes. PhD Thesis, Rijksuniversiteit Gron-                   Science, 294, 1525–1528.
    ingen, The Netherlands. Available on-line at: http://disserta-
    tions.ub.rug.nl/faculties/fil/1998/r.c.looijen/                        Sokal R.R., Rohlf F.J. 1995. Biometry, 3rd edn. W.H. Freeman
                                                                               & Company, New York, USA, 887 pp.
Luoto M., Rekolainen S., Salt C.A., Hansen H.S. 2001. Manag-
    ing radioactively contaminated land: Implications for habitat          Solem A., Climo F.M., Roscoe D.J. 1981. Sympatric species di-
    diversity. Environmental Management, 27: 595–608.                          versity of New Zealand land snails. New Zealand Journal of
                                                                               Zoology, 8: 453–485.
MacArthur R. H., Wilson E.O. 1967. The Theory of Island Bio-
    geography. Princeton University Press, Princeton, 203 p.               Stefanescu C., Herrando S., Páramo F. 2004. Butterfly species-
                                                                               richness in the north-west Mediterranean Basin: the role of
Maes D., Bauwens D., De Bruyn L., Anselin A., Vermeersch G.,                   natural and human-induced factors. Journal of Biogeogra-
    Van Landuyt W., De Knijf G., Gilbert M. 2005. Species rich-                phy, 31: 905–915.
    ness coincidence: conservation strategies based on predictive
    modelling. Biodiversity and Conservation, 14: 1345–1364.               Stein A., Kreft H. 2014. Terminology and quantification of en-
                                                                               vironmental heterogeneity in species-richness research. Bio-
Magurran A.E. 1988. Ecological diversity and its measurements.                 logical Reviews. doi: 10.1111/brv.12135
    Princeton University, Princeton, 179 pp.
                                                                           Steinbauer M.J., Irl S.D.H., Beierkuhnlein C. 2013. Elevation-
Magurran A.E. 2004. Measuring biological diversity. Blackwell                  driven ecological isolation promotes diversification on Medi-
    Publishing, Malden, 260 pp.                                                terranean islands, Acta Oecologica, 47: 52–56

Malta Environment and Planning Authorithy. 2009. Mapserver.                Tews J., Brose U., Grimm V., Tielbörger K., Wichmann M.C.,
    Available on-line at: http://mapserver.mepa.org.mt (accessed               Schwager M., Jeltsch F. 2004. Animal species diversity driv-
    2 April 2009).                                                             en by habitat heterogeneity/diversity: the importance of key-
                                                                               stone structures. Journal of Biogeography, 31: 79–92.
Martín H.G., Goldenfeld N. 2006. On the origin and robustness
    of power-law species-area relationships in ecology. Proceed-           Tognelli M.F., Kelt D.A. 2004. Analysis of determinants of
    ings of the National Academy of Sciences USA, 103: 10310–                  mammalian species richness in South America using spatial
    10315.                                                                     autoregressive models. Ecography, 27: 427–436.

Mazzola P., Geraci A., Raimondo F. M. 2001. Endemismo e bio-               Tjørve E. 2002. Habitat size and number in multi-habitat land-
    diversità floristica nelle isole circumsiciliane. Biogeograph-             scape: a model approach based on species–area curves.
    ia, 22: 45–63.                                                             Ecography, 25: 17–24.

Newmark W.D. 1986. Species–area relationship and its deter-                Triantis K.A., Mylonas M., Weiser M.D., Lika K., Vardinoyan-
    minants for mammals in western North American national                     nis K. 2005. Species richness, environmental heterogeneity
    parks. Biological Journal of the Linnean Society, 28: 83–                  and area: a case study based on land snails in Skyros archi-
    98.                                                                        pelago (Aegean Sea, Greece). Journal of Biogeography, 32:
                                                                               1727–1735.
Nogués-Bravo D., Martínez-Rica J.P. 2004. Factors controlling
    the spatial species richness pattern of four groups of terrestri-      Triantis K.A., Vardinoyannis K., Tsolaki E.P., Botsaris I., Lika
    al vertebrates in an area between two different biogeograph-               K., Mylonas M. 2006. Re-approaching the small island ef-
    ic regions in northern Spain. Journal of Biogeography, 31:                 fect. Journal of Biogeography, 33: 914–923.
    629–640.
                                                                           Triantis K.A., Guilhaumon F., Whittaker R.J. 2012. The island
Panitsa M., Tzanoudakis D., Triantis K.A., Sfenthourakis S.                    species–area relationship: biology and statistics. Journal of
    2006. Patterns of species richness on very small islands: The              Biogeography, 39: 215–231.
    plants of the Aegean archipelago. Journal of Biogeography,
    33: 1223–1234.                                                         Trichas A., Lagkis A., Triantis K.A., Poulakakis N., Chatzaki M.
                                                                               2008. Biogeographic patterns of some island groups in the
Papadopoulou A., Bergsten J., Fujisawa T., Monaghan M.T.,                      south Aegean area, based on darkling beetle fauna (Coleop-
    Barraclough T.G., Vogler A.P. 2008. Speciation and DNA                     tera, Tenebrionidae). Journal of Natural History, 42: 491–
    barcodes: testing the effects of dispersal on the formation of             511.
    discrete sequence clusters. Philosophical Transactions of the
    Royal Society of London B: Biological Sciences, 363(1506):             Whitehead D.R., Jones C.E. 1969. Small islands and the equi-
    2987–2996.                                                                 librium theory of insular biogeography. Evolution, 23: 171–
                                                                               179.
Papadopoulou A., Anastasiou I., Keskin B., Vogler A.P. 2009.
    Comparative phylogeography of tenebrionid beetles in the               Whittaker R.J., Fernández-Palacios J.M. 2007. Island biogeogra-
    Aegean archipelago: the effect of dispersal ability and habi-              phy: ecology, evolution, and conservation, 2nd edn. Oxford
    tat preference. Molecular Ecology, 18(11): 2503–2517.                      University Press, Oxford, 401 pp.

Papadopoulou A., Anastasiou I., Vogler A. P. 2010. Revisiting              Whittaker R.J., Triantis K.A., Ladle R.J. 2008. A general dynam-
    the insect mitochondrial molecular clock: the mid-Aegean                   ic theory of oceanic island biogeography. Journal of Bioge-
    trench calibration. Molecular Biology and Evolution, 27(7):                ography, 35: 977–994.
    1659–1672.
                                                                           Whittaker R.J., Triantis K.A., Ladle, R.J. (2010) A general dy-
Rafe R.W., Usher M.B., Jefferson R.G. 1985. Birds on reserves:                 namic theory of oceanic island biogeography: extending the
    the influence of area and habitat on species richness. Journal             MacArthur–Wilson theory to accommodate the rise and fall
    of Applied Ecology, 22: 327–335.                                           of volcanic islands, pp. 88–115. In: Losos, J.B., Ricklefs R.E.
                                                                               (eds), The theory of island biogeography revisited, Princeton
Ricklefs R.E., Lovette I.J. 1999. The roles of island area per se              University Press, Princeton, NJ.
    and habitat diversity in the species–area relationships of four
    Lesser Antillean faunal groups. Ecology, 68: 1142–1160.                Whittaker R.J., Triantis K. A. 2012. The species–area relation-
                                                                               ship: an exploration of that ‘most general, yet protean pat-
Rosenzweig M.L. 1995. Species Diversity in Space and Time.                     tern’. Journal of Biogeography, 39: 623–626.
    Cambridge University Press, Cambridge, 436 pp.
                                                                           Authors’ contributions: All authors conceived the ideas. SF
Savona Ventura C. 2001. The environment during the Pleisto-                collected, analysed the data and prepared a first draft. All au-
    cene period. Available on line at: http://www.shadowservic-            thors discussed the results and participated to the final writing
    es.com/nature/Maltese/Geomorph/palaeol.htm (accessed 20
    January 2015).                                                         of the ms.

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