GEOGRAPHIC RANGES, POPULATION STRUCTURE, AND AGES OF SEXUAL AND PARTHENOGENETIC SNAIL LINEAGES

A sexual reproduction is thought to doom organisms to extinction due to mutation accumulation and parasite exploitation. Theoretical models suggest that parthenogens may escape the negative effects of conspecific and biological enemiecs through escape in space. Through intensive sequencing of a mitochondrial DNA (mtDNA) and a nuclear intron locus in sexual and pathenogenetic freshwater snails ( Campelom ), I examine three questionss: (1) Are sexual mtDNA lineage more restricted geographically than parthenogenetic mtDNA lineages? (2) Are independent pathenogenetic lineages shorter lived than sexual lineages? (3) Do pathenogens have higher intraindividual nuclear sequence diversity and form well‐differentiated monophyletic groups as expected under the Meselson effect? Geographic ranges of parthenogenetic lineages are significantly larger than geographic ranges of sexual lineages. Based on coalescence times under different deographic assumptions, asexual lineages are short lived, but there is variation in clonal ages. Although alternative explanations exit, these results suggest that asexual lineages may persist in the short term through dispersal, and that various constraints may cause geographic restriction of sexual lineagess. Both allotriploid and diploid Campleloma parthenogens have significantly higher allelic divergence within individuals, but show limited nuclear sequence divergence from sexual ancestors. In contrast to previous allozyme evidence for nonhybrid origins of diploid Campeloma parthenogens, cryptic hybridization may account for elevated heterozygosity.