Page 13 - Fiorentino_alii_2008
P. 13
VARIABILITY IN LAND SNAILS 821
van Moorsel CHM, Haase M, Gittenberger E. 2004. Teshima H, Davison A, Kuwahara Y, Yokoyama J, Chiba
Phylogeography of the land snail Albinaria hippolyti from S, Fukuda T, Ogimura H, Kawata M. 2003. The evolu-
Crete, based on ITS-1 sequences. Biological Journal of the tion of extreme shell shape variation in the land snail
Linnean Society 83: 317–326. Ainohelix editha: a phylogeny and hybrid zone analysis.
Shimizu Y, Ueshima R. 2000. Historical biogeography and Molecular Ecology 12: 1869–1878.
interspecific mtDNA introgression in Euhadra peliomphala Uit de Weerd DR, Schneider D, Gittenberger E. 2005.
(the Japanese land snail). Heredity 85: 84–96. The provenance of the Greek land snail species Isabellaria
Simon C, Frati F, Beckenbach AT, Crespi C, Liu H, pharsalica: molecular evidence of recent passive long-
Flook P. 1994. Evolution, weighting and phylogenetic distance dispersal. Journal of Biogeography 32: 1571–1581.
utility of mitochondrial gene sequences and a compilation of Welter-Schultes FW. 1998. Human-dispersed land snails
conserved polymerase chain reaction primers. Annals of the in Crete, with special reference to Albinaria (Gastropoda:
Entomological Society of America 87: 651–701. Clausiliidae). Biologia Gallo-hellenica 24: 83–106.
Solem A, Climo FM. 1985. Structure and habitat correla- Welter-Schultes FW. 2000. The pattern of geographical and
tions of sympatric New Zealand land snail species. Malaco- altitudinal variation in the land snail Albinaria idaea from
logia 26: 1–30. Crete (Gastropoda: Clausiliidae). Biological Journal of the
Swofford DL. 2001. PAUP*: phylogenetic analysis using Linnean Society 71: 237–250.
parsimony (*and other methods), vers. 4. Sunderland, MA:
Sinauer Associates.
© 2008 The Linnean Society of London, Biological Journal of the Linnean Society, 2008, 94, 809–823
Downloaded from https://academic.oup.com/biolinnean/article-abstract/94/4/809/2701256
by guest
on 18 November 2017
