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Decapod crustacean phylogenetics
Martin, J.W.; Crandall, K.A.; Felder, D.L. (Ed.) (2009). Decapod crustacean phylogenetics. Crustacean Issues, 18. CRC Press: Boca Raton. ISBN 978-1-4200-9258-5. vii, 616 pp.
Deel van: Schram, F.R. (Ed.) Crustacean Issues. Balkema/CRC Press/Taylor & Francis: Rotterdam. ISSN 0168-6356; e-ISSN 2155-5397, meer

Beschikbaar in  Auteurs 
    VLIZ: Crustacea CRU.130 [101513]

Trefwoorden
    Phylogenetics
    Crustacea [WoRMS]; Decapoda [WoRMS]
    Marien/Kust

Auteurs  Top 
  • Martin, J.W., redacteur
  • Crandall, K.A., redacteur
  • Felder, D.L., redacteur

Inhoud
  • Schram, F.R. (2009). On the origin of Decapoda, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 3-13, meer
  • Toon, A.; Finley, M.; Staples, J.; Crandall, K.A. (2009). Decapod phylogenetics and molecular evolution, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 17-29, meer
  • Scholtz, G.; Abzhanov, A.; Alwes, F.; Biffis, C.; Pint, J. (2009). Development, genes, and decapod evolution, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 31-46, meer
  • Schubart, C.D. (2009). Mitochondrial DNA and decapod phylogenies: The importance of pseudogenes and primer optimization, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 47-65, meer
  • Palero, F.P.; Crandall, K.A. (2009). Phylogenetic inference using molecular data, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 67-88, meer
  • Chu, K.H.; Tsang, L.M.; Ma, K.Y.; Chan, T.-Y.; Ng, P.K.L. (2009). Decapod phylogeny: What can protein-coding genes tell us?, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 89-99, meer
  • Tudge, C.C. (2009). Spermatozoal morphology and its bearing on decapod phylogeny, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 101-119, meer
  • Asakura, A. (2009). The evolution of mating systems in decapod crustaceans, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 121-182, meer
  • Porter, M.L.; Cronin, T.W. (2009). A shrimp's eye view of evolution: How useful are visual characters in decapod phylogenetics?, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 183-195, meer
  • Boyko, C.B.; Williams, J.D. (2009). Crustacean parasites as phylogenetic indicators in decapod evolution, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 197-220, meer
  • Clark, P.F. (2009). The bearing of larval morphology on brachyuran phylogeny, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 221-241, meer
  • Fransen, C.H.J.M.; de Grave, S. (2009). Evolution and radiation of shrimp-like decapods: an overview, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 245-259, meer
  • Tavares, C.; Serejo, C.S.; Martin, J.W. (2009). A preliminary phylogenetic analysis of the Dendrobranchiata based on morphological characters, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 261-279, meer
  • Bracken, H.D.; de Grave, S.; Felder, D.L. (2009). Phylogeny of the infraorder Caridea based on mitochondrial and nuclear genes (Crustacea: Decapoda), in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 281-305, meer
  • Robles, R.; Tudge, C.C.; Dworschak, P.C.; Poore, G.C.B.; Felder, D.L. (2009). Molecular phylogeny of the Thalassinidea based on nuclear and mitochondrial genes, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 309-326, meer
  • Felder, D.L.; Robles, R. (2009). Molecular phylogeny of the family Callianassidae based on preliminary analyses of two mitochondrial genes, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 325-342, meer
  • Tshudy, D.; Robles, R.; Chan, T.-Y.; Ho, K.C.; Chu, K.H.; Ahyong, S.T.; Felder, D.L. (2009). Phylogeny of marine clawed lobster families Nephropidae Dana, 1852, and Thaumastochelidae Bate, 1888, based on mitochondrial genes, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 357-368, meer
  • Ahyong, S.T. (2009). The polychelidan lobsters: phylogeny and systematics (Polychelida: Polychelidae), in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 369-396, meer
  • Ahyong, S.T.; Schnabel, K.E.; Maas, E.W. (2009). Anomuran phylogeny: New insights from molecular data, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 399-414, meer
  • Scholtz, G.; McLay, C.L. (2009). Is the Brachyura Podotremata a monophyletic group?, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 417-435, meer
  • Hultgren, K.M.; Guerao, G.; Marques, F.P.L.; Palero, F.P. (2009). Assessing the contribution of molecular and larval morphological characters in a combined phylogenetic analysis of the superfamily Majoidea, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 437-455, meer
  • Palacios-Theil, E.; Cuesta, J.A.; Campos, E.; Felder, D.L. (2009). Molecular genetic re-examination of subfamilies and polyphyly in the family Pinnotheridae (Crustacea: Decapoda), in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 457-474, meer
  • Wetzer, R.; Martin, J.W.; Boyce, S.L. (2009). Evolutionary origin of the gall crabs (family Cryptochiridae) based on 16S rDNA sequence data, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 475-490, meer
  • Schubart, C.D.; Reuschel, S. (2009). A proposal for a new classification of Portunoidea and Cancroidea (Brachyura: Heterotremata) based on two independent molecular phylogenies, in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 533-549, meer
  • Thoma, B.P.; Schubart, C.D.; Felder, D.L. (2009). Molecular phylogeny of western Atlantic representatives of the genus Hexapanopeus (Decapoda: Brachyura: Panopeidae), in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 551-565, meer
  • Mantelatto, F.L.M.; Robles, R.; Schubart, C.D.; Felder, D.L. (2009). Molecular phylogeny of the genus Cronius Stimpson, 1860, with reassignment of C. tumidulus and several American species of Portunus to the genus Achelous De Haan, 1833 (Brachyura: Portunidae), in: Martin, J.W. et al. (Ed.) Decapod crustacean phylogenetics. Crustacean Issues, 18: pp. 567-579, meer

Abstract
    Decapod crustaceans are of tremendous interest and importance evolutionarily, ecologically, and economically. There is no shortage of publications reflecting the wide variety of ideas and hypotheses concerning decapod phylogeny, but until recently, the world's leading decapodologists had never assembled to elucidate and discuss relationships among the major decapod lineages and between decapods and other crustaceans. Based on the findings presented by an international group of scientists at a symposium supported by the Society for Integrative and Comparative Biology, The Crustacean Society, and several other societies, and with major funding from the National Science Foundation, Decapod Crustacean Phylogenetics provides a comprehensive synopsis of the current knowledge of this vast and important group of animals. This volume contains state-of-the-art reviews of literature and methodologies for elucidating decapod phylogeny. The contributions include studies on the fossil origin of decapods, morphological and molecular phylogenetic analyses, the evolution of mating and its bearing on phylogeny, decapod evo-devo studies, decapod spermiocladistics, and phylogenetic inference. The experts also present research on preliminary attempts to construct the first known phylogenetic tree for various groups of decapods. Several contributions offer the most comprehensive analyses to date on major clades of decapods, and others introduce data or approaches that could be used in the future to help resolve the phylogeny of the Decapoda. Currently, the Decapoda contain an estimated 15,000 species, some of which support seafood and marine industries worth billions of dollars each year to the world's economy. This volume is a fascinating overview of where we are currently in our understanding of these important creatures and their phylogeny and also provides a window into the future of decapod research. This work will be of great interest to researchers, instructors, and students in marine biology, evolutionary biology, crustacean biology, resource management, and biodiversity database management.

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