[Seite 103↓]

6 Literaturverzeichnis

Adachi, J. und Hasegawa, M. (1996): Model of amino acid substitution in proteins encoded by mitochondrial DNA, J. Mol. Evol., (Band 42), Seite 459-468.

Albrecht, H. und von Hagen, H.O. (1981): Differential weighting of electophoretic data in crayfish and fiddler crabs (Decapoda: Astacidae and Ocypodidae), Comp. Biochem. Physiol., (Band 70B), Seite 393-399.

Altschul, S.F.; Madden, T.L.; Schäffer, A.A. ; Zhang, J.; Zhang, Z. ; Miller, W. und Lipman, D.J. (1997): Gapped BLAST and PSI-BLAST: a new generation of protein database search programs, Nucleic Acids Res., (Band 25), Seite 3389-3402.

Andersson, S.G.E.; Zomorodipour, A.; Andersson, J.O.; Sicheritz-Ponten, T.; Alsmark, U.C.M.; Podowski, R.M.; Näslund, A.K.; Eriksson, A.S.; Winkler, H.H. und Kurland, C.G. (1998): The genome sequence of Rickettsia prowazekii and the origin of mitochondria, Nature, (Band 396), Seite 133-140.

Ax, P. (1999), Das System der Metazoa II: ein Lehrbuch der phylogenetischen Systematik., G. Fischer, Mainz.

Ball, J. (1984): Memes as replicators, Ethol. Sociobiol., (Band 5), Seite 145-161.

Ballard, J.W.O.; Ballard, O.; Olsen, G.J.; Faith, D.P.; Odgers, W.A.; Rowell, D.M. und Atkinson, P. (1992): Evidence from 12S ribosomal RNA sequences that onychophorans are modified arthropods, Science, (Band 258), Seite 1345-1348.

Belford, M.; Reaban, M.E.; Coetzee, T. und Dalgaard, J.Z. (1995): Prokaryotic introns and inteins: a panoply of form and function, J. Bact., (Band 177), Seite 3897-3903.

Billoud, B.; Guerrucci, M.-A.; Masselot, M. und Deutsch, J.S. (2000): Cirripede phylogeny using a novel approach: molecular morphometrics, Mol. Biol. Evol., (Band 17), Seite 1435-1445.

Bonen, L. und Vogel, J. (2001): The ins and outs of group II introns, Trends Genet., (Band 17), Seite 322-331.

Boore, J.L. und Brown, W.M. (2000): Mitochondrial genomes of Galathealinum, Helobdella, and Platynereis: sequence and gene arrangement comparisons indicate that Pogonophora is not a phylum and Annelida and Arthropoda are not sister taxa, Mol. Biol. Evol., (Band 17), Seite 87-106.

Boore, J.L.; Collins, T.M.; Stanton, D.; Daehler, L.L. und Brown, W.M. (1995): Deducing the pattern of arthropod phylogeny from mitochondrial DNA rearrangements, Nature, (Band 376), Seite 163-165.

Botnariuc, N. (1947): Contributions a la connaissance des phyllopods conchostraces de Roumanie, Notationes Biologicae, (Band 5), Seite 68-158.

Bowman, T.E. und Abele, L.G. (1982): Classification of the recent Crustacea, Bliss, D.E., The Biology of Crustacea, Academic Press, London.

[Seite 104↓]

Braband, A.; Richter, S.; Hiesel, R. und Scholtz, G. (2002): Phylogenetic relationships within the Phyllopoda (Crustacea, Branchiopoda) based on mitochondrial and nuclear markers, Mol. Phylogenet. Evol., (Band 25), Seite 229-244.

Bremer, K. (1994): Branch support and tree stability, Cladistics, (Band 10), Seite 295-304.

Brusca, R.C. und Brusca, G.J. (1990): Invertebrates, Sinauer Associates, Sunderland.

Burge, C.B.; Tuschl, T. und Sharp, P.A. (1999): Splicing of precursors to mRNAs by the spliceosomes, Gesteland, R.F.; Cech, T.R. und Atkins, J.F., The RNA World, 2nd Edition, Cold Spring Harbour, NY.Cold Spring Harbour Laboratory Press..

Calman, W.T. (1909): Crustacea, Lankester, E.R., A Treatise on Zoology, Part 7, Appendiculata Fasc. 3., Seite 1-346, Adam and Black, London.

Camin, J.H. und Sokal, R.R. (1965): A method for deducing branching sequences in phylogeny, Evolution, (Band 19), Seite 311-326.

Carapelli, A.; Frati, F.; Nardi, F.; Dallai, R. und Simon, C. (2000): Molecular phylogeny of the apterygotan insects based on nuclear and mitochondrial genes, Pedobiologia, (Band 44), Seite 361-373.

Cavalier-Smith, T. (1978): Nuclear volume control by nucleoskeletal DNA, selection for cell volume and cell growth rate, and the solution of the DNA C-value paradox, J. Cell. Sci., (Band 34), Seite 247-278.

Cavalier-Smith, T. (1985): Selfish DNA and the origin of introns, Nature, (Band 315), Seite 283-284.

Cavalier-Smith, T. (1991): Intron phylogeny: a new hypothesis, Trends Genet., (Band 7), Seite 145-148.

Cavalli-Sforza, L.L. und Edwards, A.W.F. (1967): Phylogenetic analysis: models and estimation procedures, Am. J. Hum. Genet., (Band 19), Seite 233-257.

Cho, S.; Mitchell, A.; Regier, J.C.; Mitter, C.; Poole, R.W.; Friedlander, T.P. und Zhao, S. (1995): The highly conserved nuclear gene for low-level phylogenetics: elongation factor-1alpha recovers morphology based tree of heliothine moths, Mol. Biol. Evol., (Band 12), Seite 650-656.

Claus, C. (1876): Untersuchungen zur Erforschung der genealogischen Grundlage des Crustaceen-Systems, Carl Gerold's Sohn, Wien.

Clement, J.Q.; Maiti, S. und Wilkinson, M.F. (2001): Localization and stability of introns spliced from the Pem homeobox gene, J. Biol. Chem., (Band 20).

Crandall, K.A.; Harris, D.J. und Fetzner, J.W. (2000): The monophyletic origin of freshwater crayfish estimated from nuclear and mitochondrial DNA sequences, Proc. R. Soc. Lond. B, (Band 267), Seite 1679-1686.

Crease, T.J. und Taylor, D.J. (1998): The origin and evolution of variable-region helices in V4 and V7 of the small-subunit ribosomal RNA of branchiopod crustaceans, Mol. Biol. Evol., (Band 15), Seite 1430-1446.

[Seite 105↓]

Curole, J.P und Kocher, T.D. (1999): Mitogenomics: digging deeper with complete mitochondrial genomes, Tree, (Band 14), Seite 394-398.

Daniels, C.J.; Gupta, R. und Doolittle, W.F. (1985): Transcription and excision of a large intron in the tRNA gene of an archaebacterium, Halobacterium volcanii, J. Biol. Chem., (Band 260), Seite 3132-3134.

De Queiroz, K. und Poe, S. (2003): Failed refutations: further comments on parsimony and likelihood methods and their relationship to Popper's degree of corroboration, Syst. Biol., (Band 52), Seite 352-367.

De Rijk, P.; Wuyts, J.; Van de Peer, Y. und De Wachter, R. (2000): The European large subunit ribosomal RNA database, Nucleic Acids Res., (Band 28), Seite 177-178.

DeSouza, S.J.; Long, M.; Klein, R.J.; Roy, S.; Lin, S. und Gilbert, W. (1998): Towards a resolution of the intron early/late debate: only phase zero introns are correlated with the structure of ancient proteins, Proc. Natl. Acad. Sci. USA, (Band 95), Seite 5094-5099.

Dixon, M.T. und Hillis, D.M. (1993): Ribosomal RNA secondary structure: compensatory mutations and implications for phylogenetic analysis, Mol. Biol. Evol., (Band 10), Seite 256-267.

Dohle, W. (2001): Are the insects terrestrial crustaceans? A discussion of some new facts and arguments and the proposal of the proper name ``Tetraconata´´ for the monophyletic unit Crustacea + Hexapoda, Deuve, T., Origin of the Hexapoda. Ann. Soc. Entomol. Fr. (N.S.) (Band 37), Seite 85-103.

Doolittle, W.F. (1978): Gene in-pieces: were they ever together?, Nature, (Band 272), Seite 581-582.

Douzery, E. und Catzeflis, F.M. (1995): Molecular evolution of the mitochondrial 12S rRNA in Ungulata (Mammalia), J. Mol. Evol., (Band 41), Seite 622-636.

Doyle, J.J. und Doyle, L. (1990): Isolation of plant DNA from fresh tissue, Focus, (Band 12), Seite 13-15.

Edgecombe, G.D.; Wilson, G.D.F.; Colgan, D.J.; Gray, M.R. und Cassis, G. (2000): Arthropod cladistics: combined analysis of histone H3 and U2 snRNA sequences and morphology, Cladistics, (Band 16), Seite 155-203.

Eriksson, S. (1934): Studien über die Fangapparate der Branchiopoden nebst einigen phylogenetischen Bemerkungen, Zool. bidrag fran Uppsala, (Band 15), Seite 23-287.

Felsenstein, J. (1973): Maximum-likelihood and minimum-steps methods for estimating evolutionary trees from data on discrete characters, Syst. Zool., (Band 22), Seite 240-249.

Felsenstein, J. (1978): Cases in which parsimony or compatibility will be positively misleading, Syst. Biol., (Band 27), Seite 401-410.

Felsenstein, J. (1981): Evolutionary trees from DNA sequences: a maximum likelihood approach, J. Mol. Evol., (Band 17), Seite 368-376.

Felsenstein, J. 1986-1995 Phylip 3.5.c

[Seite 106↓]

Ferat, J.-L.; Gouar, M.L. und Michel, F. (1994): Multiple group II self-splicing introns in mobile DNA from Escherichia coli, Life Sci., (Band 317), Seite 141-148.

Ferat, J.-L. und Michel, F. (1993): Group II self-splicing introns in bacteria, Nature, (Band 364), Seite 358-361.

Fetzner, J.W., Jr. und Crandall, K.A. (2002): Genetic variation, Holdich, D.M., Biology of Freshwater Crayfish, Seite 291-326, Blackwell Science, Oxford.

Fitzpatrick Jr., J.F. (1995): The eurasian far-eastern crawfishes: a preliminary overview, Freshwater Crayfish, (Band 8), Seite 1-11.

Friedrich, M. und Tautz, D. (1995): Ribosomal DNA phylogeny of the major extant arthropod classes and the evolution of myriapods, Nature, (Band 376), Seite 165-167.

Fryer, G. (1987a): A new classification of the branchiopod Crustacea, Zool. J. Linn. Soc., (Band 122), Seite 491-536.

Fryer, G. (1987b): Morphology and the classification of the so-called Cladocera, Hydrobiologia, (Band 145), Seite 19-28.

Fryer, G. (1999): A comment on a recent phylogenetic analysis of certain orders of the branchiopod Crustacea, Crustaceana, (Band 72), Seite 1039-1050.

Fryer, G. (2001): The elucidation of branchiopod phylogeny, Crustaceana, (Band 74), Seite 105-114.

Fryer, G. (2002): Branchiopod phylogeny: facing the facts, Crustaceana, (Band 75), Seite 85-88.

Galtier, N.; Gouy, M. und Gautier, C. (1996): SeaView and Phylo_win, two graphic tools for sequence alignment and molecular phylogeny, Comput. Applic. Biosci., (Band 12), Seite 543-548.

Garchia-Machado, E.; Pempera, M.; Dennebouy, N.; Oliva-Suarez, M.; Mounolou, J. und Monnerot, M. (1999): Mitochondrial genes collectively suggest the paraphyly of Crustacea with respect to Insecta, J. Mol. Evol., (Band 49), Seite 142-149.

Gerstaecker (1866-1979): Gliederfüssler (Arthropoda), Bronn, H.G., Klassen und Ordnungen des Tierreichs, Vol. 5, Teil 1, Seite 1029, Akademischer Verlag, Leipzig.

Gilbert, W. (1978): Why gene in pieces?, Nature, (Band 271), Seite 501.

Gilbert, W. (1987): The exon theory of genes, Cold Spring Harbour Symp. Quant. Biol., (Band 52), Seite 901-905.

Giribet, G. (2001): Exploring the behaviour of POY, a program for direct optimization of molecular data, Cladistics, (Band 17), Seite 60-70.

Giribet, G.; Edgecombe, G.D. und Wheeler, W.C. (2001): Arthropod phylogeny based on eight molecular loci and morphology, Nature, (Band 413), Seite 157-161.

Giribet, G. und Ribera, C. (2000): A review of arthropod phylogeny: new data based on ribosomal DNA sequences and direct character optimization, Cladistics, (Band 16), Seite 204-231.

[Seite 107↓]

Gladstein, D. und Wheeler, W.C. 1996-2000 POY-Phylogeny reconstruction via direct optimization of DNA data 2.0 New York American Museum of Natural History

Goldman, N. (1990): Maximum likelihood inference of phylogenetic trees, with special reference to a Poisson process model of DNA substitution and to parsimony analyses, Syst. Zool., (Band 39), Seite 345-361.

Goloboff, P.A. 1993-2000 PIWE/NONA/PHAST/SPA Parsimony with implied weights Argentina P. Goloboff, Instituto Miguel Lillo, Tucumán

Graf, D.L. und Sparks, J.S. (2000): Sometimes too much is not enough: a comment on the use of mtDNA to recover ancient divergences, Naiive Verificationist, (Band 1), Seite 1-13.

Graur, D. und Li, W.-H. (2000): Fundamentals of Molecular Evolution, 2.. Auflage, Sinauer Associates, Inc., Publishers Sunderland, Massachusetts.

Gray, M.W. (1989): The evolutionary origins of organelles, TIG, (Band 5), Seite 294-299.

Gray, W.M.; Burger, G. und Lang, F. (1999): Mitochondrial Evolution, Science, (Band 283), Seite 1476-1481.

Graybeal, A. (1998): Is it better to add taxa or characters to a difficult phylogenetic problem?, Syst. Biol., (Band 47), Seite 9-17.

Gruner, H.E. (1993): Crustacea, Gruner, H.E., KAESTNER, Lehrbuch der speziellen Zoologie, Band 1: Wirbellose Tiere 4. Teil: Arthropoda (ohne Insecta)., Seite 448-1030, G. Fischer, Jena.

Gutell, R.R.; Larsen, N.; Hertz, G.Z.; Putz, J.S und Stormo, G.D. (1992): Identifying constraints on the higher-order structure of RNA: continued development and application of comparative sequence analysis methods, Nucleic Acids Res., (Band 20), Seite 5785-5795.

Gutell, R.R.; Larsen, N. und Woese, C.R. (1994): Lessons from an evolving rRNA: 16S and 23S rRNA structures from a comparative perspective, Microbiol. Rev., (Band 58), Seite 10-26.

Gutell, R.R.; Weiser, B.; Woese, C.R. und Noller, H.F. (1985): Comparative anatomy of 16-S-like ribosomal RNA, Prog. Nucleic Acid Res., (Band 32), Seite 155-215.

Haeckel, E. (1866): Generelle Morphologie der Organismen: Allgemeine Grundzüge der organischen Formen-Wissenschaft mechanisch begründet durch die von Charles Darvin reformierte Descendenz-Theorie, Georg Riemer, Berlin.

Hanner, R. und Fugate, M. (1997): Branchiopod phylogenetic reconstruction from 12S rDNA sequence data, J. Crust. Biol., (Band 17), Seite 174-183.

Hasegawa, M.; Kishino, H. und Yano, K. (1985): Dating of the human-ape splitting by a molecular clock of mitochondrial DNA, J. Mol. Evol., (Band 22), Seite 160-174.

Hasiotis, S.T und Mitchell, C.E. (1989): Lungfish burrows in the Upper Triassic Chincle and Dolores formations Colorado Plateau-discussion: new evidence suggests origin by a burrowing decapod crustacean, J. Sediment. Petrol., (Band 59), Seite 871-875.

Hendy, M.D. und Penny, D. (1989): A framework for the quantitative study of evolutionary trees, Syst. Zool., (Band 38).

[Seite 108↓]

Hennig, W. (1966): Phylogenetic systematics, University of Illinois, Urbana.

Hickson, R.E.; Simon, C.; Cooper, A.C.; Spicer, G.S.; Sullivan, J. und Penny, D. (1996): Conserved sequence motifs, alignment, and secondary structure of the third domain of animal 12A rRNA, Mol. Biol. Evol., (Band 13), Seite 150-169.

Hickson, R.E.; Simon, C. und Perrey, S.W. (2000): The performance of several multiple,sequence alignment programsin relation to secondary-structure features for an rRNA Sequence, Mol. Biol. Evol., (Band 17), Seite 530-539.

Hillis, D.M. (1998): Taxonomic sampling , phylogenetic accuracy, and investigator bias, Syst. Biol., (Band 47), Seite 3-8.

Hillis, D.M.; Pollock, D.D.; McGuire, J.A. und Zwickl, D.J. (2003): Is sparse taxon sampling a problem for phylogenetic inference?, Syst. Biol., (Band 52), Seite 124-126.

Hobbs Jr., H.H. (1988): Crayfish distribution, adaptive radiation and evolution, Holdich, D.M. und Lowery, R.S., Freshwater Crayfish: Biology, Management and Exploitation., Seite 52-82, Croom Helm, London.

Hoeh, W.R.; Stewart, D.T.; Sutherland, B.W. und Zouros, E. (1996): Multiple origins of gender-assoziated mitochondrial DNA lineages in bivalves (Mollusca: Bivalvia), Evolution, (Band 50), Seite 2276-2286.

Holdich, D.M. und Reeve, I.D. (1988): Functional morphology and anatomy, Holdich, D.M. und Lowery, R.S., Freshwater Crayfish: Biology, Management and Exploitation., Seite 11-51, Croom Helm, London.

Hovemann, B.; Richter, S.; Walldorf, U. und Cziepluch, C. (1988): Two genes encode related cytoplasmatic elongation factors 1 alpha (EF-1 alpha) in Drosophila melanogaster with continuous and stagespecific expression, Nucleic Acids Res., (Band 16), Seite 3175-3194.

Huxley, T.H. (1880): The Crayfish: an Introduction in the Study of Zoology, Kegan Paul, Trench & Co., London.

Hwang, U.W.; Friedrich, M.; Tautz, D.; Park, C.J. und Kim, W. (2001): Mitochondrial protein phylogeny joins myriapods and chelicerates, Nature, (Band 413), Seite 154-157.

Johnson, K.P. (2001): Taxon sampling and the phylogenetic position of Passeriformes: evidence from 916 avian cytochrome b sequences, Syst. Biol., (Band 50), Seite 128-136.

Jukes, T.H. und Cantor, C.R. (1969): Evolution of protein molecules, Munro, H.N., Mammalian Protein Metabolism., Seite 21-132, Academic Press, New York.

Kerfoot, C.W und Lynch, M. (1987): Branchiopod communities: associations with planktivorous fish in space and time, Kerfoot, W.C. und Sih, A., Predation: direct and indirect impacts on aquatic communities., Seite 367-378, Hanover: University Press of New England.

Kidwell, M.G. und Lisch, D.R. (2001): Perspective: transposable elements, parasitic DNA, and genome evolution, Int. J. Org. Evol., (Band 55), Seite 1-24.

[Seite 109↓]

Kim, S.H. (1979): Crystal structure of yeast tRNA-phe and general structural features of other tRNAs, Schimmel, P.R.; Soll, D. und Abelson, J.N., Transfer RNA: structure, properties and recognition., Cold Spring Harbour Laboratory, Cold Spring Harbour, NY.

Kishino, H. und Hasegawa, M. (1989): Evaluation of the maximum likelihood estimate of the evolutionary tree topologies from DNA sequence data, and the branching order in Hominoidea, J. Mol. Evol., (Band 29), Seite 170-179.

Kjer, K.M. (1995): Use of rRNA secondary structure in phylogenetic studies to identify homologous positions: an example of alignment and data presentation from the frogs, Mol. Phylogenet. Evol., (Band 4), Seite 314-330.

Kluge, A.G. (2001): Philosophical conjectures and their refutation, Syst. Biol., (Band 50), Seite 322-330.

Konings, D.A.M und Gutell, R.R. (1995): A comparison of thermodynamic foldings with comparatively derived structures of 16S and 16S-like rRNAs, RNA, (Band 1), Seite 559-574.

Kurabayashi, A. und Ueshima, R. (2000): Complete sequence of the mitochondrial DNA of the primitive ophisthobranch gastropod Pupa strigosa: systematic implication of the genome organization, Mol. Biol. Evol., (Band 17), Seite 266-277.

Lake, J. (1991): The order of sequence alignment can bias the selection of tree topology, Mol. Biol. Evol., (Band 8), Seite 378-385.

Lang, B.F.; Burger, G.; O'Kelly, C.J.; Cedergren, R.; Golding, G.B.; Lemieux, C.; Sankoff, D.; Turmel, M. und Gray, M.W. (1997): An ancestral mitochondrial DNA resembling a eubacterial genome in miniature, Nature, (Band 387), Seite 493-497.

Lavrov, D.V.; Boore, J.L. und Brown, W.M. (2002): Complete mtDNA sequences of two millipedes suggest a new model for mitochondrial gene rearrangements: duplication and nonrandom loss, Mol. Biol. Evol., (Band 19), Seite 163-169.

Lecointre, G.; Philippe, H.; Van Le, L. und Le Guyader, H. (1993): Species sampling has a major impact on phylogenetic inference, Mol. Phylogenet. Evol., (Band 2), Seite 205-224.

Li, W.H. (1997): Molecular evolution, Sinauer; Sunderland, MA..

Linder, F. (1945): Affinities within the Branchiopoda with notes on some dubious fossils, Ark. för Zool., (Band 37A), Seite 1-28.

Llopart, A.; Comeron, J.M.; Brunet, F.G.; Lachaise, D. und Long, M. (2002): Intron presence-absence polymorphism in Drosophila driven by Darwinian selection, Proc. Natl. Acad. Sci. USA, (Band 99), Seite 8121-8126.

Logsdon, J.M., Jr.; Stoltzfus, A. und Doolittle, W.F. (1998): Recent cases of spliceosomal intron gain?, Curr. Biol., (Band 8), Seite R560-R563.

Logsdon Jr., J.M. (1998): The recent origins of spliceosomal introns revisited, Curr. Opin. Genet. Dev., (Band 8), Seite 637-648.

[Seite 110↓]

Lynch, M. und Richardson, A.O. (2002): The evolution of spliceosomal introns, Curr. Opin. Genet. Dev., (Band 12), Seite 701-710.

Machida, R.J.; Miya, M.U.; Nishida, M. und Nishida, S. (2002): Complete mitochondrial DNA sequence of Tigriopus japonicus (Crustacea: Copepoda), Mar. Biotechnol., (Band 4), Seite 406-417.

Margush, T. und McMorris, F.R. (1981): Consensus n-trees, Bull. Math. Biol., (Band 43), Seite 239-244.

Martin, J.W. und Belk, D. (1988): Review of the clam shrimp family Lynceidae Stebbing, 1902 (Branchiopoda: Conchostraca), in the Americas, J. Crust. Biol., (Band 8), Seite 451-482.

Martin, J.W. und Cash-Clark, C.E. (1995): The external morphology of the onychopod ``cladoceran´´ genus Bythotrephes (Crustacea, Branchiopoda, Onychopoda, Cercopagididae), with notes on the morphology and phylogeny of the order Onychopoda, Zool. Scripta, (Band 24), Seite 61-90.

Maxam, A.M. und Gilbert, W. (1977): A new method for sequencing DNA, Proc. Natl. Acad. Sci. USA, (Band 74), Seite 560-564.

Michel, F. und Ferat, J.L. (1995): Structure and activities of group II introns, Annu. Rev. Biochem., (Band 64), Seite 435-461.

Mordukhai-Boltovskoi, P.D. (1968): On the taxonomy of the Polyphemidae, Crustaceana, (Band 14), Seite 197-209.

Moreira, D.; Le Guyader, H. und Philippe, H. (1999): Unusually high evolutionary rate of the elongation factor 1 alpha genes from the Ciliophora and its impact on the phylogeny of eukaryotes, Mol. Biol. Evol., (Band 16), Seite 234-245.

Mullis, M.W.; Falcoma, F.; Scharf, S.; Snikl, R.; Horn, G. und Ehrlich, H. (1986): Specific amplification of DNA in vitro: the polymerase chain reaction, Cold Spring Harbour Symp. Quant. Biol., (Band 51), Seite 260.

Munasinghe, D.H.N.; Murphy, N.P. und Austin, C.M. (2003): Utility of mitochondrial DNA sequences from four gene regions for systematic studies of Australian freshwater crayfish of the genus Cherax (Decapoda: Parastacidae), J. Crust. Biol., (Band 23), Seite 402-417.

Murphy, W.J.; Eizirek, W.E.; Johnson, W.E.; Zhang, Y.P.; Ryder, O.A. und O'Brien, S.J. (2001): Molecular phylogenetics and the origin of placental mammals, Nature, (Band 409), Seite 614-618.

Nardi, F.; Carapelli, A.; Fanciulli, P.P.; Dallai, R. und Frati, F. (2001): The complete mitochondrial DNA sequence of the basal hexapod Tetrodontophora bielanensis: evidence for heteroplasmy and tRNA translocations, Mol. Biol. Evol., (Band 18), Seite 1293-1304.

Nardi, F.; Spinsanti, G.; Boore, J.L.; Carapelli, A.; Dallai, R. und Frati, F. (2003): Hexapod origins: monophyletic or paraphyletic?, Science, (Band 299), Seite 1887-1889.

Negrea, S.; Botnariuc, N. und Dumont, H.J. (1999): Phylogeny, evolution and classification of the Branchiopoda (Crustacea), Hydrobiologia, (Band 412), Seite 191-212.

Nixon, K.C. 1999-2000 Winclada (beta) 0.9.9 N.Y. Ithaca

[Seite 111↓]

Nugent, J.M. und Palmer, J.D. (1991): RNA-mediated transfer of the gene coxII from the mitochondrion to the nucleus during flowering plant evolution, Cell, (Band 66), Seite 2636-2640.

Olesen, J. (1998): A phylogenetic analysis of the Conchostraca and Cladocera (Crustacea, Branchiopoda, Diplostraca), Zool. J. Linn. Soc., (Band 122), Seite 491-536.

Olesen, J. (2000): An updated phylogeny of the Conchostraca-Cladocera clade (Branchiopoda, Diplostraca), Crustaceana, (Band 73), Seite 869-886.

Olesen, J. (2002): Branchiopod phylogeny-continued morphological support for higher taxa like the Diplostraca and Cladocera, and for paraphyly of 'Conchostraca' and 'Spinicaudata', Crustaceana, (Band 75), Seite 77-84.

Olesen, J.; Martin, J.W. und Roessler, E.W. (1996): External morphology of the male of Cyclestheria hislopi (Baird, 1859) (Crustacea, Branchiopoda, Spinicaudata), with a comparison of male claspers among the Conchostraca and Cladocera and its bearing on phylogeny of the ``bivalved´´ Branchiopoda, Zool. Scripta, (Band 25), Seite 291-316.

Olsen, G.J. und Woese, C.R. (1993): Ribosomal RNA: a key to phylogeny, FASEB J., (Band 7), Seite 113-123.

Ortmann, A.E. (1897): Ueber 'Bipolarität' in der Verbreitung mariner Tiere, Zoologische Jahrbücher, Abteilung Systematik., (Band 9), Seite 571-595.

Page, R. D. M. (1996): TREEVIEW: An application to display phylogenetic trees on personal computers, Comput. Applic. Biosci., (Band 12), Seite 357-358.

Palmer, J.D. und Logsdon, J.M., Jr. (1991): The recent origins of introns, Curr. Opin. Genet. Dev., (Band 1), Seite 470-477.

Philippe, H. und Laurent, J. (1998): How good are deep phylogenetic trees?, Curr. Opin. Genet. Dev., (Band 8), Seite 616–623.

Phillips, A.; Janies, D. und Wheeler, W.C. (2000): Multiple sequence alignment in phylogenetic analysis, Mol. Phylogenet. Evol., (Band 16), Seite 317-330.

Poe, S. (1998): Sensitivity of phylogeny estimation to taxonomic sampling, Syst. Biol., (Band 47), Seite 18-31.

Poe, S. und Swofford, D.L. (1999): Taxon sampling revisited, Nature, (Band 398), Seite 299-300.

Popper, K. (1963): Conjectures and Refutations, Schick, T., Routledge and Keagan Paul, London.

Preuss, G. (1951): Die Verwandtschaft der Anostraca und Phyllopoda, Zool. Anz., (Band 147), Seite 50-63.

Regier, J.C. und Shultz, J.W. (1997): Molecular phylogeny of the major arthropod groups indicates polyphyly of crustaceans and a new hypothesis for the origin of hexapods, Mol. Biol. Evol., (Band 14), Seite 902-913.

Regier, J.C. und Shultz, J.W. (1998): Molecular phylogeny of arthropods and the significance of the Cambrian 'explosion' for molecular systematics, Am. Zool., (Band 38), Seite 918-928.

Richter, S. (2002): The Tetraconata concept: hexapod-crustacean relationships and the phylogeny of Crustacea, Org. Divers. Evol., (Band 2), Seite 217-237.

[Seite 112↓]

Richter, S.; Braband, A. und Scholtz, G. (2001): The phylogenetic relationships of 'predatory water-fleas' (Cladocera: Onychopoda, Haplopoda) inferred from 12S rDNA, Mol. Phylogenet. Evol., (Band 19), Seite 105-113.

Rieppel, O. (1999): Einführung in die computergestützte Kladistik, Dr. Friedrich Pfeil, München.

Rivera, M.C. und Lake, J.A. (1992): Evidence that eukaryotes and eocyte prokaryotes are immediate relatives, Science, (Band 257), Seite 74-76.

Rode, A.L. und Babcock, L.E. (2003): Phylogeny of fossil and extant freshwater crayfish and some closely related nephropid lobsters, J. Crust. Biol., (Band 23), Seite 418-435.

Roessler, E.W. (1995): Review of Colombian Conchostraca (Crustacea) -ecological aspects and life-cycles-family Cyclestheriidae, Hydrobiologia, (Band 298), Seite 113-124.

Roger, A.J. und Doolittle, W.F. (1993): Molecular evolution Why introns-in-pieces?, Nature, (Band 364), Seite 289-290.

Roger, A.J.; Sandblom, O.; Doolittle, W.F. und Philippe, H. (1999): An Evaluation of elongation factor 1alpha as a phylogenetic marker for eukaryotes, Mol. Biol. Evol., (Band 16), Seite 218-233.

Rosenberg, M.S. und Kumar, S. (2001): Incomplete taxon sampling is not a problem for phylogenetic inference, Proc. Natl. Acad. Sci. USA, (Band 98), Seite 10751-10756.

Rosenberg, M.S. und Kumar, S. (2003): Taxon sampling, bioinformatics, and phylogenomics, Syst. Biol., (Band 52), Seite 119-124.

Saitou, N. und Nei, M. (1987): The neighbour-joining method: a new method for reconstructing phylogenetic trees, Mol. Biol. Evol., (Band 4), Seite 406-425.

Sambrook, J.; Fritsch, E.F. und Maniatis, T. (1989): Molecular Cloning A Laboratory Manual, 2.. Auflage, Cold Spring Habour Laboratory Press, USA.

Sanchis, A.; Michelena, J. M.; Latorre, A.; Quicke, D. L. J.; Gärdenfors, U. und Belshaw, R. (2001): The phylogenetic analysis of variable-length sequence data: elongation factor-1 alpha introns in european populations of the parasitoid wasp genus Pauesia (Hymenoptera: Braconidae: Aphidiinae), Mol. Biol. Evol., (Band 18), Seite 1117-1131.

Sanger, F.; Nicklen, S. und Coulsen, A.R. (1977): DNA-sequencing with chain terminating inhibitors, Proc. Natl. Acad. Sci. USA, (Band 74), Seite 5463-5467.

Sanmartín, I.; Enghoff, H. und Ronquist, F. (2001): Patterns of animal dispersal, vicariance and diversification in the Holarctic, Biol. J. Linn. Soc., (Band 73), Seite 345-390.

Schmidt, H.A.; Strimmer, K.; Vingron, M. und von Haeseler, A. 1999-2000 TREE-PUZZLE 5.0

Schmidt, H.A.; Strimmer, K.; Vingron, M. und von Haeseler, A. (2002): TREE-PUZZLE: maximum likelihood phylogenetic analysis using quartets and parallel computing, Bioinformatics, (Band 18), Seite 502-504.

Schminke, H.K. (1981): Adaptation of Bathynellacea (Crustacea, Syncarida) to life in the interstitial (``Zoea Theory´´), Int. Revue ges. Hydrobiol., (Band 66), Seite 575-637.

[Seite 113↓]

Schminke, H.K. (1996): Crustacea, Krebse, Westheide, W. und Rieger, R., Spezielle Zoologie. 1. Teil: Einzeller und Wirbellose Tiere., Seite 501-581, Fischer, Stuttgart.

Scholtz, G. (1993): Teloblasts in decapod embryos: an embryonic character reveals the monophyletic origin of freshwater crayfishes (Crustacea, Decapoda), Zool. Anz., (Band 230), Seite 45-54.

Scholtz, G. (1995): Ursprung und Evolution der Flußkrebse (Crustacea, Astacida), Sitzungsberichte der Gesellschaft Naturforschender Freunde zu Berlin (NF), (Band 34), Seite 93-115.

Scholtz, G. (1998): Von Zellen und Kontinenten-die Evolution der Flusskrebse (Decapoda, Astacida), Staphia, (Band 58), Seite 205-212.

Scholtz, G. (1999): Freshwater crayfish evolution, Freshwater Crayfish, (Band 12), Seite 37-48.

Scholtz, G. (2002): Phylogeny and evolution, Holdich, D.M., Biology of Freshwater Crayfish., Seite 30-52, Blackwell Science, Oxford.

Scholtz, G.; Braband, A.; Tolley, L.; Reimann, A.; Mittmann, B.; Lukhaup, C.; Steuerwald, F. und Vogt, G. (2003): Parthenogenesis in an outsider crayfish, Nature, (Band 421), Seite 806.

Scholtz, G. und Kawai, T. (2002): Aspects of embryonic and postembryonic development of the Japanese freshwater crayfish Cambaroides japonicus (Crustacea, Decapoda) including a hypothesis on the evolution of maternal care in the Astacida, Act. Zool., (Band 83), Seite 202-212.

Scholtz, G. und Richter, S. (1995): Phylogenetic systematics of reptantian Decapoda (Malacostraca: Crustacea), Zool. J. Linn. Soc., (Band 113), Seite 289-328.

Schram, F.R. (2001): Phylogeny of decapods: moving towards a consensus, Hydrobiologia, (Band 449), Seite 1-20.

Schwenk, K.; Sand, A.; Boersma, M.; Brehm, M.; Mader, E.; Offerhaus, D. und Spaak, P. (1998): Genetic markers, genealogies and biogeographic patterns in the Cladocera, Aquat. Ecol., (Band 32), Seite 37-51.

Sharp, P.A. (1985): On the origin of RNA splicing and introns, Cell, (Band 42), Seite 397-400.

Shultz, J.W. und Regier, J.C. (2000): Phylogenetic analysis of arthropods using two nuclear protein-encoding genes supports a crustacean + hexapod clade, Proc. R. Soc. Lond. B, (Band 267), Seite 1011-1019.

Sidall, M.E. und Kluge, A.G. (1997): Probabilism and phylogenetic inference, Cladistics, (Band 13), Seite 313-336.

Smith, G.W. (1912): The freshwater crayfishes of Australia, Proc. Zool. Soc., (Band 10), Seite 144-171.

Spears, T. und Abele, L.G. (2000): Branchiopod monophyly and interordinal phylogeny inferred from 18S ribosomal DNA, J. Crust. Biol., (Band 20), Seite 1-24.

Springer, M.S. und Douzery, E. (1996): Secondary structure and patterns of evolution among mammalian 12S rRNA molecules, J. Mol. Evol., (Band 43), Seite 357-373.

[Seite 114↓]

Stoltzfus, A.; Logsdon, J.M., Jr.; Palmer, J.D. und Doolittle, W.F. (1997): Intron 'sliding' and the diversity of intron positions, Proc. Natl. Acad. Sci. USA, (Band 94), Seite 10739-10744.

Strimmer, K. und von Haeseler , A. (1996): Quartet puzzling: A quartet maximum likelihood method for reconstructing tree topologies, Mol. Biol. Evol., (Band 13), Seite 964-969.

Strimmer, K. und von Haeseler, A. (1997): Likelihood-mapping: a simple method to visualize phylogenetic content of a sequence alignment, Proc. Natl. Acad. Sci. USA, (Band 94), Seite 6815-6819.

Strukla, G.C. und Padgett, R.A. (2002): A catalytically active group II intron domain 5 can function in the U12-dependent spliceosome, Mol. Cell, (Band 9), Seite 1145-1150.

Studier, J.A. und Keppler, K.J. (1988): A note on the neighbour-joining algorithm of Saitou and Nei, Mol. Biol. Evol., (Band 5), Seite 729-731.

Swain, T.D. und Taylor, D.J. (2003): Structural rRNA characters support monophyly of raptorial limbs and paraphyly of limb specialization in water fleas, Proc. R. Soc. Lond. B, (Band 270), Seite 887-896.

Swofford, D.L.; Olsen, G.J.; Waddell, P.J. und Hillis, D.M. (1996): Phylogenetic inference, Hillis, D.M.; Moritz, C. und Mable, B.K., Molecular systematics, Sinauer, Sunderland, MA..

Tamura, K. und Nei, M. (1993): Estimation of the number of nucleotide substitutions in the control region of mitochondrial DNA in humans and chimpanzees, Mol. Biol. Evol., (Band 10), Seite 512-526.

Tasch, P. (1969): Branchiopoda, Moore, C., Treatise on invertebrate paleontology, part R: Arthropoda 4 (Band 1), Seite 128-191, Geological Society of America, Boulder, and University of Kansas Press, Lawrence, Kansas.

Taylor, D.J.; Crease, T.J. und Brown, W.M. (1999): Phylogenetic evidence for a single long-lived clade of crustaceans cyclic parthenogens and its implications for the evolution of sex, Proc. R. Soc. Lond. B, (Band 266), Seite 791-797.

Thompson, J.D.; Gibson, T.J.; Plewniak, F.; Jeanmougin, F. und Higgins, D.G. 1997 ClustalX 1.8

Thompson, J.D.; Gibson, T.J.; Plewniak, F.; Jeanmougin, F. und Higgins, D.G. (1997): The ClustalX windows interface: flexible strategies for multiple sequence alignment aided by quality analysis tools, Nucleic Acids Res., (Band 24), Seite 4876-4882.

Titus, T.A. und Frost, D.R. (1996): Molecular homology assessment and phylogeny in the lizard family Opluridae (Squamata: Iguania), Mol. Phylogenet. Evol., (Band 6), Seite 49-62.

Turbeville, J.M.; Pfeifer, D.M.; Field, K.G. und Raff, R.A. (1991): The phylogenetic status of arthropods, as inferred from 18S rRNA sequences, Mol. Biol. Evol., (Band 8), Seite 669-686.

Umetsu, K.; Iwabuchi, N.; Yuasa, I.; Saitou, N.; Clark, P.F.; Boxshall, G.; Osawa, M. und Igarashi, K. (2002): Complete mitochondrial DNA sequence of a tadpole shrimp (Triops cancriformis) and analysis of museum samples, Electrophoresis, (Band 23), Seite 4080-4084.

Van de Peer, Y.; Van de Rijk, P.; Wuyts, J.; Winkelmans, T. und De Wachter, R. (2000): The European small subunit ribosomal RNA database, Nucleic Acids Res., (Band 28), Seite 175-176.

[Seite 115↓]

Van de Peer, Y.; Van den Broeck, I.; De Rijk, P. und De Wachter, R. (1994): Database on the structure of small ribosomal subunit RNA, Nucleic Acids Res., (Band 22), Seite 3488-94.

Wada, H.; Kobayashi, M.; Sato, R.; Satoh, N.; Miysaka, H. und Shirayama, Y. (2002): Dynamic insertion-deletion of introns in deuterostome EF-1 alpha genes, J. Mol. Evol., (Band 54), Seite 118-128.

Wägele, J.W. (2000): Grundlagen der Phylogenetischen Systematik, Dr. Friedrich Pfeil, München.

Wägele, J.W.; Erikson, T.; Lockhart, P. und Misof, B. (1999): The Ecdysozoa: artfact or monophylum?, J. Zool. Syst. Evol. Res., (Band 37), Seite 211-223.

Walossek, D. (1993): The Upper Cambrian Rehbachiella and the phylogeny of Branchiopoda and Crustacea, Fossils Strata, (Band 32), Seite 1-202.

Walossek, D. (1995): The Upper Cambrian Rehbachiella, its larval development, morphology and significance of Branchiopoda and Crustacea, Hydrobiologia, (Band 298), Seite 1-13.

Walossek, D. (1999): On the Cambrian diversity of Crustacea, Schram, F.R. und von Vaupel Klein, J.C., Crustaceans and the Biodiversity Crisis-Proceedings of the Fourth International Crustacean Congress, Amsterdam., Seite 3-27, Brill, Leiden.

Weiner, A. (2002): SINEs and LINEs: the art of biting the hand that feeds you, Curr. Opin. Cell Biol., (Band 14), Seite 343-350.

Wheeler, W.C. (1995): Sequence alignment, parameter sensitivity, and the phylogenetic analysis of molecular data, Syst. Biol., (Band 44), Seite 321-331.

Wheeler, W.C.; Cartwright, P. und Hayashi, C.Y. (1993): Arthropod phylogeny: a combined approach, Cladistics, (Band 9), Seite 1-39.

Wheeler, W.C. und Honeycutt, R.L. (1988): Paired sequence differences in ribosomal RNAs: evolution and phylogenetic implications, Mol. Biol. Evol., (Band 5), Seite 90-96.

Whiting, K.G.; Carpenter, J.C.; Wheeler, Q.D. und Wheeler, W.C. (1997): The Strepsiptera problem: phylogeny of the holometabolous insect orders inferred from 18S and 28S ribosomal DNA sequences and morphology, Syst. Biol., (Band 46), Seite 1-68.

Wilson, K.; Cahill, V.; Ballment, E. und Benzie, J. (2000): The complete sequence of the crustacean Penaeus monodon: are malacostracan crustaceans more closely related to insects than to branchiopods?, Mol. Biol. Evol., (Band 17), Seite 863-874.

Wilson, R. (1998): Genome sequence of the nematode C. elegans: a platform for investigation biology. The C. elegans Sequencing Consortium, Science, (Band 282), Seite 2012-2018.

Wingstrand, K.G. (1978): Comparative spermatology of the Crustacea Entomostraca I subclass Branchiopoda, Kong. Dansk. Vidensk. Selsk. Biolog. Skrifter, (Band 22), Seite 1-67.

Woese, C.R. (1987): Bacterial evolution, Microbiol. Rev., (Band 51), Seite 221-271.

Woese, C.R.; Magrum, L.J.; Gupta, R.; Siegel, R.B.; Stahl, D.A.; Kop, J.; Crawford, N.; Brosius, J.; Gutell, R.; Hogan, J.J. und Noller, H.F. (1980): Secondary structure model for bacterial 16S ribosomal RNA: phylogenetic, enzymatic and chemical evidence, Nucleic Acids Res., (Band 8), Seite 2275-2293.

[Seite 116↓]

Yamauchi, M.; Miya, M. und Nishida, M. (2002): Complete mitochondrial DNA sequence of the Japanese spiny lobster, Panulirus japonicus (Crustacea: Decapoda), Gene, (Band 295), Seite 89-96.

Yang, Z. (1993): Maximum likelihood estimation of phylogeny from DNA sequences when substitution rates differ over sites, Mol. Biol. Evol., (Band 10), Seite 1396-1401.

Zrzavý, J. und Stys, P. (1997): The basic body plan of arthropods: insights from evolutionary morphology and developmental biology, J. Evol. Biol., (Band 10), Seite 353-367.

Zuckerkandl, E. und Pauling, L. (1965): Molecules as documents of evolutionary history, J. Theor. Biol., (Band 8), Seite 357-366.

Zwickl, D.J. und Hillis, D.M. (2002): Increased taxon sampling greatly reduces phylogenetic error, Syst. Biol., (Band 51), Seite 588-598.

Zwieb, C.; Glotz, C. und Brimacombe, R. (1981): Secondary structure comparisons between small subunit ribosomal RNA molecules from six different species, Nucleic Acids Res., (Band 9), Seite 3621-3640.

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