Worms that suck: Phylogenetic analysis of Hirudinea solidifies the position of Acanthobdellida and necessitates the dissolution of Rhynchobdellida.

[1]  M. Siddall,et al.  Marine Leech Anticoagulant Diversity and Evolution , 2018, The Journal of Parasitology.

[2]  M. Siddall,et al.  Leeches from Chiapas, Mexico, with a New Species of Erpobdella (Hirudinida: Erpobdellidae) , 2018, American Museum Novitates.

[3]  M. Siddall,et al.  Phylogenetic analysis of Placobdella (Hirudinea: Rhynchobdellida: Glossiphoniidae) with consideration of COI variation. , 2017, Molecular phylogenetics and evolution.

[4]  Robert Lanfear,et al.  PartitionFinder 2: New Methods for Selecting Partitioned Models of Evolution for Molecular and Morphological Phylogenetic Analyses. , 2016, Molecular biology and evolution.

[5]  G. Min,et al.  First report of the branchiobdellidan Holtodrilus truncatus (Annelida: Clitellata) found on the freshwater atyid shrimp Neocaridina sp. from Korea , 2016 .

[6]  M. Siddall,et al.  Comparative Transcriptomic Analyses of Three Species of Placobdella (Rhynchobdellida: Glossiphoniidae) Confirms a Single Origin of Blood Feeding in Leeches , 2016, The Journal of parasitology.

[7]  M. Siddall,et al.  Diversity of features of the female reproductive system and other morphological characters in leeches (Citellata, Hirudinida) in phylogenetic conception , 2014 .

[8]  Alexandros Stamatakis,et al.  RAxML version 8: a tool for phylogenetic analysis and post-analysis of large phylogenies , 2014, Bioinform..

[9]  P. Świątek,et al.  New data about the functional morphology of the chaetiferous leech‐like annelids Acanthobdella peledina (Grube, 1851) and Paracanthobdella livanowi (Epshtein, 1966) (Clitellata, Acanthobdellida) , 2013, Journal of morphology.

[10]  K. Farrell,et al.  Servants, scoundrels, and hitchhikers: current understanding of the complex interactions between crayfish and their ectosymbiotic worms (Branchiobdellida) , 2013, Freshwater Science.

[11]  D. Coltman,et al.  Molecular phylogeny of North American Branchiobdellida (Annelida: Clitellata). , 2013, Molecular phylogenetics and evolution.

[12]  S. James,et al.  Molecular phylogeny of earthworms (Annelida : Crassiclitellata) based on 28S, 18S and 16S gene sequences , 2012, Invertebrate Systematics.

[13]  Mark A. Miller,et al.  Creating the CIPRES Science Gateway for inference of large phylogenetic trees , 2010, 2010 Gateway Computing Environments Workshop (GCE).

[14]  C. Erséus,et al.  Molecular phylogeny of Enchytraeidae (Annelida, Clitellata). , 2010, Molecular phylogenetics and evolution.

[15]  A. Brandstätter,et al.  Phylogeny and species composition of five European species of Branchiobdella (Annelida: Clitellata: Branchiobdellida) reflect the biogeographic history of three endangered crayfish species , 2009 .

[16]  G. Rouse,et al.  Evolution of habitat preference in Clitellata (Annelida) , 2008 .

[17]  Pablo A. Goloboff,et al.  TNT, a free program for phylogenetic analysis , 2008 .

[18]  R. Marotta,et al.  Combined‐data phylogenetics and character evolution of Clitellata (Annelida) using 18S rDNA and morphology , 2008 .

[19]  D. Sherbakov,et al.  Molecular phylogenetic study of the systematic position of Baikalian oligochaetes in Clitellata , 2006, Russian Journal of Genetics.

[20]  M. Källersjö,et al.  18S rDNA phylogeny of Clitellata (Annelida) , 2004 .

[21]  Robert C. Edgar,et al.  MUSCLE: multiple sequence alignment with high accuracy and high throughput. , 2004, Nucleic acids research.

[22]  R. Brinkhurst Lumbriculids, branchiobdellidans and leeches: an overview of recent progress in phylogenetic research on clitellates , 1999, Hydrobiologia.

[23]  G. Purschke,et al.  Morphological reinvestigation and phylogenetic relationship of Acanthobdella peledina (Annelida, Clitellata) , 1993, Zoomorphology.

[24]  M. Siddall,et al.  Arhynchobdellida (Annelida: Oligochaeta: Hirudinida): phylogenetic relationships and evolution. , 2004, Molecular phylogenetics and evolution.

[25]  M. Källersjö,et al.  Validating Livanow: molecular data agree that leeches, Branchiobdellidans, and Acanthobdella peledina form a monophyletic group of oligochaetes. , 2001, Molecular phylogenetics and evolution.

[26]  John P. Huelsenbeck,et al.  MRBAYES: Bayesian inference of phylogenetic trees , 2001, Bioinform..

[27]  P. Martı́n,et al.  On the origin of the Hirudinea and the demise of the Oligochaeta , 2001, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[28]  C. Erséus,et al.  Soil-dwelling polychaetes: enigmatic as ever? Some hints on their phylogenetic relationships as suggested by a maximum parsimony analysis of 18S rRNA gene sequences , 2001 .

[29]  M. Siddall,et al.  Phylogenetic assessment of the Branchiobdellidae (Annelida, Clitellata) using 18S rDNA, mitochondrial cytochrome c oxidase subunit I and morphological characters , 2001 .

[30]  B. Šket,et al.  Molecular phylogeny of leeches: Congruence of nuclear and mitochondrial rDNA data sets and the origin of bloodsucking , 1999 .

[31]  M. Siddall,et al.  Higher level relationships of leeches (Annelida: Clitellata: Euhirudinea) based on morphology and gene sequences. , 1999, Molecular phylogenetics and evolution.

[32]  M. Siddall,et al.  Phylogeny of leeches (Hirudinea) based on mitochondrial cytochrome c oxidase subunit I. , 1998, Molecular phylogenetics and evolution.

[33]  J. M. Elliott,et al.  Leech Biology and Behaviour , 1987 .