DOCSLIB.ORG

A Global Assessment of Freshwater Crab Diversity Darren CJ Yeo

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
A Global Assessment of Freshwater Crab Diversity Darren CJ Yeo Northern Michigan University The Commons Journal Articles 2008 A Global Assessment of Freshwater Crab Diversity Darren CJ Yeo PKL Ng Neil Cumberlidge Northern Michigan University, [email protected] Celio Magalhães Savel Regan Daniels PhD Stellenbosch University, South Africa, [email protected] See next page for additional authors Follow this and additional works at: http://commons.nmu.edu/facwork_journalarticles Part of the Biology Commons Recommended Citation Yeo, D. C. J., Ng, P. K. L., Cumberlidge, N., Magalhaes, C., Daniels, S. R., & Campos, M. 2008. A global assessment of freshwater crab diversity (Crustacea: Decapoda: Bracyura). In: Freshwater Animal Diversity Assessment (eds. Balian EV, Leveque C, Segars H, Martens M). Hydrobiologia 595: 275-286. This Journal Article is brought to you for free and open access by The ommonC s. It has been accepted for inclusion in Journal Articles by an authorized administrator of The ommonC s. For more information, please contact [email protected],[email protected],[email protected]. Author(s) Darren CJ Yeo, PKL Ng, Neil Cumberlidge, Celio Magalhães, Savel Regan Daniels PhD, and Martha R. Campos This journal article is available at The ommonC s: http://commons.nmu.edu/facwork_journalarticles/228 Hydrobiologia (2008) 595:275–286 DOI 10.1007/s10750-007-9023-3 FRESHWATER ANIMAL DIVERSITY ASSESSMENT Global diversity of crabs (Crustacea: Decapoda: Brachyura) in freshwater Darren C. J. Yeo Æ Peter K. L. Ng Æ Neil Cumberlidge Æ Ce´lio Magalha˜es Æ Savel R. Daniels Æ Martha R. Campos Ó Springer Science+Business Media B.V. 2007 Abstract An assessment of the global freshwater true freshwater crab diversity including likely num- crab diversity is presented. A total of 1,476 species in bers of undescribed taxa suggest that the field remains 14 families are currently known from all zoogeo- largely in a ‘‘discovery’’ phase. Main ideas on the graphical regions (except Antarctica), including origins, diversification, and phylogeny of true fresh- 1,306 species in eight exclusively freshwater families water crabs are briefly discussed. The economic (Pseudothelphusidae, Trichodactylidae, Potamonauti- importance of freshwater crabs is also highlighted. dae, Deckeniidae, Platythelphusidae, Potamidae, Gecarcinucidae and Parathelphusidae). Estimates of Keywords Global assessment Á Freshwater crab Á Diversity Á Crustacea Á Decapoda Á Brachyura Á Species estimates Guest editors: E. V. Balian, C. Le´veˆque, H. Segers & K. Martens Freshwater Animal Diversity Assessment Introduction D. C. J. Yeo (&) Á P. K. L. Ng Department of Biological Sciences, National University Of the more than 6,700 known species of brachyuran of Singapore, 14 Science Drive 4, Singapore 117543, crabs, over 1,300 are true freshwater crabs. True Republic of Singapore freshwater crabs are regarded as those that have e-mail: [email protected] adopted freshwater, semi-terrestrial or terrestrial N. Cumberlidge modes of life, and are characterized by their ability Department of Biology, Northern Michigan University, to complete their life cycle independently of the Marquette, MI 49855, USA marine environment. These crabs are currently C. Magalha˜es assigned to eight exclusively freshwater families— Instituto Nacional de Pesquisas da Amazoˆnia, Caixa Pseudothelphusidae and Trichodactylidae (Mexico, postal 478, Manaus 69011-970 Amazonas, Brazil Central and South America), Potamonautidae (Africa and Madagascar), Deckeniidae and Platythelphusidae S. R. Daniels Department of Botany and Zoology, University of (East Africa), Potamidae (North Africa, southern Stellenbosch, Private Bag X1, Matieland 7602, Europe, Asia), Gecarcinucidae (Seychelles, Asia), South Africa and Parathelphusidae (Asia, Australasia) (Martin & Davis, 2001). Wholly or primary freshwater taxa M. R. Campos Instituto de Ciencias Naturales, Universidad Nacional de undergo direct development in which the large, yolky Colombia, Apartado Ae´reo, Bogota 103698, Colombia eggs hatch directly into juvenile crabs. Crabs found in 123 276 Hydrobiologia (2008) 595:275–286 freshwater also include numerous euryhaline species the forest floor litter or, in some cases, even climbing or secondary freshwater species from primarily trees (Ng, 1988; Ng & Tay, 2001; Cumberlidge et al., marine brachyuran families (e.g. Sesarmidae, Var- 2005). These freshwater crab species do not require unidae, Hymenosomatidae). Although these regular immersion in fresh water and can obtain freshwater species are fully adapted to freshwater/ water either from food, from drinking dew or casual terrestrial living, most do not have direct develop- water, or by capillary or osmotic uptake from moist ment in their life cycle (though highly abbreviated substrata. In the present chapter, such species are also development occurs in some) and most possess one or categorised as ‘‘freshwater-dependent’’ species (see more larval stages. The diversity of these taxa is also later; Table 1). assessed in this chapter (Tables 1 and 2), but the Freshwater crabs are primarily nocturnal, prefer- emphasis will be placed on the true freshwater crabs. ring to remain hidden during the day in sheltered Freshwater crabs belong to the Order Decapoda, the places and foraging mostly at night. They are mostly crustacean group that also includes lobsters, prawns, omnivorous scavengers, mainly feeding on plant crayfish and hermit crabs, which share the character- matter, but some are opportunistic carnivores, feeding istic presence of five pairs of thoracic legs (pereiopods). either on live prey such as fish and prawns or on dead In freshwater crabs the first pereiopods are modified as animals that they encounter (Ng, 1988; unpub.), and pincers (chelipeds), and the remaining four pairs are cannibalism is not uncommon (unpub.). Crabs them- relatively unspecialised walking legs (Fig. 1). The selves also constitute an important food resource for general body plan of freshwater crabs consists of a many species of fishes, birds, caymans, turtles and head, thorax and abdomen, with the head and thorax mammals (see Ng, 1988; Magalha˜es, 2003). (cephalothorax) covered by a broad carapace, and the abdomen reduced, flattened and flexed under the thoracic sternum. In adults, the male abdomen is slim Diversity and endemicity and narrow, and is either triangular or T-shaped, while the female abdomen is broad and round and covers Known global diversity nearly the entire thoracic sternum. Adult males bear two pairs of abdominal appendages (pleopods) that are There are currently a total of 238 genera and 1,476 modified into copulatory structures known as gono- species of known freshwater crabs from 14 families pods. Gonopod structure is taxonomically important, (including 1,306 true freshwater crab species in eight especially because the external morphology of fresh- families: Pseudothelphusidae, Trichodactylidae, water crabs tends to be rather conservative (see Ng, Potamonautidae, Deckeniidae, Platythelphusidae, Pota- 1988; Cumberlidge, 1999, for details). midae, Gecarcinucidae and Parathelphusidae) (as of 1st Freshwater crabs are found in the tropics and August 2006). The species and genus diversity of subtropics in most parts of the world, and occur in a primary as well as secondary freshwater species are wide variety of aquatic and terrestrial habitats. These listed by zoogeographical regions (sensu Cox, 2001)in decapods are present in almost all freshwater bodies, Tables 1 and 2, respectively. The total number of from clear, fast-flowing montane streams to sluggish species or genera of certain families listed in the last lowland rivers and streams, as well as in peat and column of Tables 1 and 2, respectively, do not tally freshwater swamps, stagnant ponds and rice fields, with the sum of species or genera from each zoogeo- and even in pools in tree holes and leaf axils. A fair graphical region because some taxa occur in more than number are also adapted to live in caves. Among the one region (see later, Tables 1 and 2 footnotes). primarily aquatic freshwater crabs, some (e.g. pota- Table 1 also lists separately the number of mids) are entirely adapted to living in fresh water, ‘‘freshwater-dependent’’ species (WDpt). In the and are not thought to be able to survive for long in context of the present volume, our assessment of salt water, while others (e.g. parathelphusids) are the freshwater crab species required grouping more tolerant of saline conditions, and can survive them into two broad ecological categories to reflect immersion in salt water for short periods of time. their different habitat preferences and degrees Terrestrial species may occur well away from of their association with freshwater habitats, viz., permanent freshwater sources, either moving among ‘‘real aquatic’’ species and ‘‘freshwater-dependent’’ 123 Hydrobiologia (2008) 595:275–286 Table 1 Global species diversity of freshwater crabs Family PA NA NT AT OL AU PAC Worldc Total FW WDpt Total FW WDpt Total FW WDpt Total FW WDpt Total FW WDpt Total FW WDpt Total FW WDpt Total FW WDpt aPotamidaed 86 – – – – – 3 1 435 58 – – – – 509 59 aPotamonautidae – – – – – – 115 9 – – – – – – 115 9 aDeckeniidae – – – – – – 2 2 – – – – – – 2 2 aPlatythelphusidae – – – – – – 9 – – – – – – – 9 – aParathelphusidaee 4 – – – – – – – 243 14 52 8 – – 298 22 aGecarcinucidae – – – – – – 8 6 36 3 – – – – 44 9 aPseudothelphusidae – – 16 – 262 3 – – – – – – – – 278 3 aTrichodactylidae – – – – 51 – – – – – – – – – 51 – bGecarcinidaef ––3399998866882020 bHymenosomatidaeg 1–––1–1–8–9–3–22– bOcypodidae – – – – – – – – 2 – – – – – 2 – bSesarmidaeh
Load more

Recommended publications
  • A Classification of Living and Fossil Genera of Decapod Crustaceans
    RAFFLES BULLETIN OF ZOOLOGY 2009 Supplement No. 21: 1–109 Date of Publication: 15 Sep.2009 © National University of Singapore A CLASSIFICATION OF LIVING AND FOSSIL GENERA OF DECAPOD CRUSTACEANS Sammy De Grave1, N. Dean Pentcheff 2, Shane T. Ahyong3, Tin-Yam Chan4, Keith A. Crandall5, Peter C. Dworschak6, Darryl L. Felder7, Rodney M. Feldmann8, Charles H. J. M. Fransen9, Laura Y. D. Goulding1, Rafael Lemaitre10, Martyn E. Y. Low11, Joel W. Martin2, Peter K. L. Ng11, Carrie E. Schweitzer12, S. H. Tan11, Dale Tshudy13, Regina Wetzer2 1Oxford University Museum of Natural History, Parks Road, Oxford, OX1 3PW, United Kingdom [email protected] [email protected] 2Natural History Museum of Los Angeles County, 900 Exposition Blvd., Los Angeles, CA 90007 United States of America [email protected] [email protected] [email protected] 3Marine Biodiversity and Biosecurity, NIWA, Private Bag 14901, Kilbirnie Wellington, New Zealand [email protected] 4Institute of Marine Biology, National Taiwan Ocean University, Keelung 20224, Taiwan, Republic of China [email protected] 5Department of Biology and Monte L. Bean Life Science Museum, Brigham Young University, Provo, UT 84602 United States of America [email protected] 6Dritte Zoologische Abteilung, Naturhistorisches Museum, Wien, Austria [email protected] 7Department of Biology, University of Louisiana, Lafayette, LA 70504 United States of America [email protected] 8Department of Geology, Kent State University, Kent, OH 44242 United States of America [email protected] 9Nationaal Natuurhistorisch Museum, P. O. Box 9517, 2300 RA Leiden, The Netherlands [email protected] 10Invertebrate Zoology, Smithsonian Institution, National Museum of Natural History, 10th and Constitution Avenue, Washington, DC 20560 United States of America [email protected] 11Department of Biological Sciences, National University of Singapore, Science Drive 4, Singapore 117543 [email protected] [email protected] [email protected] 12Department of Geology, Kent State University Stark Campus, 6000 Frank Ave.
    [Show full text]
  • Chapter 6 Crabs
    Chapter 6. Freshwater crabs of Africa: diversity, distribution, and conservation. Cumberlidge, N.¹ ¹ Department of Biology, Northern Michigan University, Marquette, Michigan 49855, USA The Purple March Crab Afrithelphusa monodosa (Endangered) which lives in swamps and year-round wetland habitats in north-western Guinea where it is known from only a few specimens from two localities. This species is clearly a competent air-breather and has a pair of well-developed pseudolungs. It is mainly threatened by habitat loss and degradation. © PIOTR NASKREKI An unidentifi ed freshwater crab species within the family Potamonautes. This specimen was collected in central Africa, a region noted for its limited fi eld sampling. © DENIS TWEDDLE IUCN AFR2011_pp178-199_chapter 6_crabs V2.indd 178 4/3/11 18:59:15 The Purple March Crab Afrithelphusa monodosa (Endangered) which lives in swamps and year-round wetland habitats in north-western Guinea. © PIOTR NASKREKI Potamonautes lirrangensis (Least Concern), a relatively abundant and widespread species found in large slow fl owing rivers in rainforests across central and eastern Africa. © DENIS TWEDDLE CONTENTS 6.1 Overview of the African freshwater crab fauna 180 6.1.1 Biogeographic patterns 182 6.2 Conservation status 183 6.3 Patterns of species richness 184 6.3.1 All freshwater crab species: interpretation of distribution patterns 186 6.3.2 Threatened species 187 6.3.3 Restricted range species 188 6.3.4 Data Defi cient species 190 6.4 Major threats 191 6.4.1 Habitat destruction 191 6.4.2 Pollution 192 6.4.3
    [Show full text]
  • Crustacea: Brachyura: Pseudothelphusidae
    10 October 1997 PROCEEDINGS OF THE BIOLOGICAL SOCIETY OF WASHINGTON 1 10(3):388-392. 1997. Pseudothelphusa ayutlaensis, a new species of freshwater crab (Crustacea: Brachyura: Pseudothelphusidae) from Mexico Fernando Alvarez and Jose Luis Villalobos Coleccion Nacional de Crustaceos, Instituto de Biologfa, Universidad Nacional Autonoma de Mexico, Apartado Postal 70-153, Mexico 04510 D.F., Mexico Abstract.—Pseudothelphusa ayutlaensis, new species, is described from the State of Guerrero, Mexico. The new species is placed in the genus Pseudo- thelphusa based on the presence of a first gonopod with the characteristic broadly rounded mesial process and a well developed subtriangular lateral pro- cess. The unique orientation of the mesial and lateral processes of the first gonopod distinguishes P. ayutlaensis from other species in the genus. The genus Pseudothelphusa de Saussure, Pseudothelphusa de Saussure, 1857 1857, is one of the most diverse within the Pseudothelphusa ayutlaensis, new species family Pseudothelphusidae Rathbun, 1893, Figs. 1, 2 with 22 species (Alvarez & Villalobos 1996, Alvarez et al. 1996), distributed ex- Holotype.—8, cw 24.3 mm, cl 16.1 mm; clusively in Mexico, and one, P. puntarenas junction of Pinela and Tonala rivers, Mun- Hobbs, 1991, from Costa Rica. The genus icipio de Ayutla de los Libres, Guerrero is distributed along the Pacific slope from (16°52'N, 99°12'W), 18 Dec 1987, coll. J. Sonora to Guerrero, throughout central P. Gallo; CNCR 8715. Mexico, and along the Gulf of Mexico Paratypes.—2 8, cw 23.0, 22.0 mm, cl slope in Veracruz (Rodriguez 1982, Alvarez 15.0, 14.4 mm; same locality, date, and col- 1989).
    [Show full text]
  • Conservation and Diversification of the Transcriptomes of Adult Paragonimus Westermani and P
    Li et al. Parasites & Vectors (2016) 9:497 DOI 10.1186/s13071-016-1785-x RESEARCH Open Access Conservation and diversification of the transcriptomes of adult Paragonimus westermani and P. skrjabini Ben-wen Li1†, Samantha N. McNulty2†, Bruce A. Rosa2, Rahul Tyagi2, Qing Ren Zeng3, Kong-zhen Gu3, Gary J. Weil1 and Makedonka Mitreva1,2* Abstract Background: Paragonimiasis is an important and widespread neglected tropical disease. Fifteen Paragonimus species are human pathogens, but two of these, Paragonimus westermani and P. skrjabini, are responsible for the bulk of human disease. Despite their medical and economic significance, there is limited information on the gene content and expression of Paragonimus lung flukes. Results: The transcriptomes of adult P. westermani and P. skrjabini were studied with deep sequencing technology. Approximately 30 million reads per species were assembled into 21,586 and 25,825 unigenes for P. westermani and P. skrjabini, respectively. Many unigenes showed homology with sequences from other food-borne trematodes, but 1,217 high-confidence Paragonimus-specific unigenes were identified. Analyses indicated that both species have the potential for aerobic and anaerobic metabolism but not de novo fatty acid biosynthesis and that they may interact with host signaling pathways. Some 12,432 P. westermani and P. skrjabini unigenes showed a clear correspondence in bi-directional sequence similarity matches. The expression of shared unigenes was mostly well correlated, but differentially expressed unigenes were identified and shown to be enriched for functions related to proteolysis for P. westermani and microtubule based motility for P. skrjabini. Conclusions: The assembled transcriptomes of P. westermani and P.
    [Show full text]
  • Ecological Correlates of Species Differences in the Lake Tanganyika Crab Radiation
    UvA-DARE (Digital Academic Repository) Ecological correlates of species differences in the Lake Tanganyika crab radiation Marijnissen, S.A.E.; Michel, E.; Kamermans, M.; Olaya-Bosch, K.; Kars, M.; Cleary, D.F.R.; van Loon, E.E.; Rachello Dolmen, P.G.; Menken, S.B.J. DOI 10.1007/s10750-008-9566-y Publication date 2008 Published in Hydrobiologia Link to publication Citation for published version (APA): Marijnissen, S. A. E., Michel, E., Kamermans, M., Olaya-Bosch, K., Kars, M., Cleary, D. F. R., van Loon, E. E., Rachello Dolmen, P. G., & Menken, S. B. J. (2008). Ecological correlates of species differences in the Lake Tanganyika crab radiation. Hydrobiologia, 615(1), 81-94. https://doi.org/10.1007/s10750-008-9566-y General rights It is not permitted to download or to forward/distribute the text or part of it without the consent of the author(s) and/or copyright holder(s), other than for strictly personal, individual use, unless the work is under an open content license (like Creative Commons). Disclaimer/Complaints regulations If you believe that digital publication of certain material infringes any of your rights or (privacy) interests, please let the Library know, stating your reasons. In case of a legitimate complaint, the Library will make the material inaccessible and/or remove it from the website. Please Ask the Library: https://uba.uva.nl/en/contact, or a letter to: Library of the University of Amsterdam, Secretariat, Singel 425, 1012 WP Amsterdam, The Netherlands. You will be contacted as soon as possible. UvA-DARE is a service provided by the library of the University of Amsterdam (https://dare.uva.nl) Download date:26 Sep 2021 DOI:10.1007/s10750-008-9566-y SPECIATION IN ANCIENT LAKES Ecological correlates of species differences in the Lake Tanganyika crab radiation Saskia A.
    [Show full text]
  • Amphibian Alliance for Zero Extinction Sites in Chiapas and Oaxaca
    Amphibian Alliance for Zero Extinction Sites in Chiapas and Oaxaca John F. Lamoreux, Meghan W. McKnight, and Rodolfo Cabrera Hernandez Occasional Paper of the IUCN Species Survival Commission No. 53 Amphibian Alliance for Zero Extinction Sites in Chiapas and Oaxaca John F. Lamoreux, Meghan W. McKnight, and Rodolfo Cabrera Hernandez Occasional Paper of the IUCN Species Survival Commission No. 53 The designation of geographical entities in this book, and the presentation of the material, do not imply the expression of any opinion whatsoever on the part of IUCN concerning the legal status of any country, territory, or area, or of its authorities, or concerning the delimitation of its frontiers or boundaries. The views expressed in this publication do not necessarily reflect those of IUCN or other participating organizations. Published by: IUCN, Gland, Switzerland Copyright: © 2015 International Union for Conservation of Nature and Natural Resources Reproduction of this publication for educational or other non-commercial purposes is authorized without prior written permission from the copyright holder provided the source is fully acknowledged. Reproduction of this publication for resale or other commercial purposes is prohibited without prior written permission of the copyright holder. Citation: Lamoreux, J. F., McKnight, M. W., and R. Cabrera Hernandez (2015). Amphibian Alliance for Zero Extinction Sites in Chiapas and Oaxaca. Gland, Switzerland: IUCN. xxiv + 320pp. ISBN: 978-2-8317-1717-3 DOI: 10.2305/IUCN.CH.2015.SSC-OP.53.en Cover photographs: Totontepec landscape; new Plectrohyla species, Ixalotriton niger, Concepción Pápalo, Thorius minutissimus, Craugastor pozo (panels, left to right) Back cover photograph: Collecting in Chamula, Chiapas Photo credits: The cover photographs were taken by the authors under grant agreements with the two main project funders: NGS and CEPF.
    [Show full text]
  • Part I. an Annotated Checklist of Extant Brachyuran Crabs of the World
    THE RAFFLES BULLETIN OF ZOOLOGY 2008 17: 1–286 Date of Publication: 31 Jan.2008 © National University of Singapore SYSTEMA BRACHYURORUM: PART I. AN ANNOTATED CHECKLIST OF EXTANT BRACHYURAN CRABS OF THE WORLD Peter K. L. Ng Raffles Museum of Biodiversity Research, Department of Biological Sciences, National University of Singapore, Kent Ridge, Singapore 119260, Republic of Singapore Email: [email protected] Danièle Guinot Muséum national d'Histoire naturelle, Département Milieux et peuplements aquatiques, 61 rue Buffon, 75005 Paris, France Email: [email protected] Peter J. F. Davie Queensland Museum, PO Box 3300, South Brisbane, Queensland, Australia Email: [email protected] ABSTRACT. – An annotated checklist of the extant brachyuran crabs of the world is presented for the first time. Over 10,500 names are treated including 6,793 valid species and subspecies (with 1,907 primary synonyms), 1,271 genera and subgenera (with 393 primary synonyms), 93 families and 38 superfamilies. Nomenclatural and taxonomic problems are reviewed in detail, and many resolved. Detailed notes and references are provided where necessary. The constitution of a large number of families and superfamilies is discussed in detail, with the positions of some taxa rearranged in an attempt to form a stable base for future taxonomic studies. This is the first time the nomenclature of any large group of decapod crustaceans has been examined in such detail. KEY WORDS. – Annotated checklist, crabs of the world, Brachyura, systematics, nomenclature. CONTENTS Preamble .................................................................................. 3 Family Cymonomidae .......................................... 32 Caveats and acknowledgements ............................................... 5 Family Phyllotymolinidae .................................... 32 Introduction .............................................................................. 6 Superfamily DROMIOIDEA ..................................... 33 The higher classification of the Brachyura ........................
    [Show full text]
  • Population Structure, Recruitment, and Mortality of the Freshwater Crab Dilocarcinus Pagei Stimpson, 1861 (Brachyura, Trichodactylidae) in Southeastern Brazil
    Invertebrate Reproduction & Development ISSN: 0792-4259 (Print) 2157-0272 (Online) Journal homepage: https://www.tandfonline.com/loi/tinv20 Population structure, recruitment, and mortality of the freshwater crab Dilocarcinus pagei Stimpson, 1861 (Brachyura, Trichodactylidae) in Southeastern Brazil Fabiano Gazzi Taddei, Thiago Maia Davanso, Lilian Castiglioni, Daphine Ramiro Herrera, Adilson Fransozo & Rogério Caetano da Costa To cite this article: Fabiano Gazzi Taddei, Thiago Maia Davanso, Lilian Castiglioni, Daphine Ramiro Herrera, Adilson Fransozo & Rogério Caetano da Costa (2015) Population structure, recruitment, and mortality of the freshwater crab Dilocarcinuspagei Stimpson, 1861 (Brachyura, Trichodactylidae) in Southeastern Brazil, Invertebrate Reproduction & Development, 59:4, 189-199, DOI: 10.1080/07924259.2015.1081638 To link to this article: https://doi.org/10.1080/07924259.2015.1081638 Published online: 15 Sep 2015. Submit your article to this journal Article views: 82 View Crossmark data Citing articles: 2 View citing articles Full Terms & Conditions of access and use can be found at https://www.tandfonline.com/action/journalInformation?journalCode=tinv20 Invertebrate Reproduction & Development, 2015 Vol. 59, No. 4, 189–199, http://dx.doi.org/10.1080/07924259.2015.1081638 Population structure, recruitment, and mortality of the freshwater crab Dilocarcinus pagei Stimpson, 1861 (Brachyura, Trichodactylidae) in Southeastern Brazil Fabiano Gazzi Taddeia*, Thiago Maia Davansob, Lilian Castiglionic, Daphine Ramiro Herrerab, Adilson Fransozod and Rogério Caetano da Costab aLaboratório de Estudos de Crustáceos Amazônicos (LECAM), Universidade do Estado do Amazonas – UEA/CESP, Centro de Estudos Superiores de Parintins, Estrada Odovaldo Novo, KM 1, 69152-470 Parintins, AM, Brazil; bFaculdade de Ciências, Laboratório de Estudos de Camarões Marinhos e Dulcícolas (LABCAM), Departamento de Ciências Biológicas, Universidade Estadual Paulista (UNESP), Av.
    [Show full text]
  • A New Classification of the Xanthoidea Sensu Lato
    Contributions to Zoology, 75 (1/2) 23-73 (2006) A new classifi cation of the Xanthoidea sensu lato (Crustacea: Decapoda: Brachyura) based on phylogenetic analysis and traditional systematics and evaluation of all fossil Xanthoidea sensu lato Hiroaki Karasawa1, Carrie E. Schweitzer2 1Mizunami Fossil Museum, Yamanouchi, Akeyo, Mizunami, Gifu 509-6132, Japan, e-mail: GHA06103@nifty. com; 2Department of Geology, Kent State University Stark Campus, 6000 Frank Ave. NW, North Canton, Ohio 44720, USA, e-mail: [email protected] Key words: Crustacea, Decapoda, Brachyura, Xanthoidea, Portunidae, systematics, phylogeny Abstract Family Pilumnidae ............................................................. 47 Family Pseudorhombilidae ............................................... 49 A phylogenetic analysis was conducted including representatives Family Trapeziidae ............................................................. 49 from all recognized extant and extinct families of the Xanthoidea Family Xanthidae ............................................................... 50 sensu lato, resulting in one new family, Hypothalassiidae. Four Superfamily Xanthoidea incertae sedis ............................... 50 xanthoid families are elevated to superfamily status, resulting in Superfamily Eriphioidea ......................................................... 51 Carpilioidea, Pilumnoidoidea, Eriphioidea, Progeryonoidea, and Family Platyxanthidae ....................................................... 52 Goneplacoidea, and numerous subfamilies are elevated
    [Show full text]
  • Redalyc.Assessment of the Decapod Crustacean Diversity in the Guayana
    Biota Neotropica ISSN: 1676-0611 [email protected] Instituto Virtual da Biodiversidade Brasil Magalhães, Célio; Pereira, Guido Assessment of the decapod crustacean diversity in the Guayana Shield region aiming at conservation decisions Biota Neotropica, vol. 7, núm. 2, mayo-agosto, 2007, pp. 111-124 Instituto Virtual da Biodiversidade Campinas, Brasil Available in: http://www.redalyc.org/articulo.oa?id=199114293013 How to cite Complete issue Scientific Information System More information about this article Network of Scientific Journals from Latin America, the Caribbean, Spain and Portugal Journal's homepage in redalyc.org Non-profit academic project, developed under the open access initiative Assessment of the decapod crustacean diversity in the Guayana Shield region aiming at conservation decisions Célio Magalhães1,3 & Guido Pereira2 Biota Neotropica v7 (n2) – http://www.biotaneotropica.org.br/v7n2/pt/abstract?article+bn02007022007 Recebido em 13/09/06 Versão Reformulada recebida em 04/04/07 Publicado em 15/05/07 1Instituto Nacional de Pesquisas da Amazônia, CP 478, CEP 69011-970, Manaus, AM, Brazil 2Instituto de Zoología Tropical, Universidad Central de Venezuela, Apartado 47058, Caracas, 1041-A, Venezuela 3Autor para correspondência: Célio Magalhães, e-mail: [email protected] Abstract Magalhães C. & Pereira, G. Assessment of the decapod crustacean diversity in the Guayana Shield region aiming at conservation decisions. Biota Neotrop. May/Aug 2007 vol. 7, no. 2. http://www.biotaneotropica.org. br/v7n2/pt/abstract?article+bn02007022007. ISSN 1676-0603. The current state of knowledge of freshwater decapod crustacean diversity of the Guayana Shield Region is briefly assessed, based upon information gathered from the scientific literature as well as unpublished data from academic theses, technical reports, and carcinological collections.
    [Show full text]
  • Molecular Evidence for Recent Divergence of Lake Tanganyika Endemic Crabs (Decapoda: Platythelphusidae)
    ARTICLE IN PRESS Molecular Phylogenetics and Evolution xxx (2006) xxx–xxx www.elsevier.com/locate/ympev Short communication Molecular evidence for recent divergence of Lake Tanganyika endemic crabs (Decapoda: Platythelphusidae) Saskia A.E. Marijnissen a,¤, Ellinor Michel b, Savel R. Daniels c, Dirk Erpenbeck d, Steph B.J. Menken a, Frederick R. Schram e a Institute for Biodiversity and Ecosystem Dynamics, University of Amsterdam, 1090 GT Amsterdam, The Netherlands b Department of Zoology, The Natural History Museum, Cromwell Road, London SW7 5BD, UK c Department of Botany and Zoology, University of Stellenbosch, Private Bag X1, Matieland 7602, South Africa d Queensland Centre for Biodiversity, Queensland Museum, Brisbane, Qld. 4101, Australia e Department of Biology, University of Washington, Seattle, WA 98195, USA Received 13 September 2005; revised 9 March 2006; accepted 10 March 2006 1. Introduction occupy much broader geographical ranges but show lim- ited morphological diVerentiation (e.g., Bott, 1955; Cumb- The East African Rift lakes are renowned as hotspots of erlidge, 1999). Several species of Platythelphusa exhibit endemism and as exemplary settings for studies on processes morphological characters that are considered atypical for that generate biodiversity (Lowe-McConnell, 2003 and refer- freshwater crabs, but are instead reminiscent of marine ences therein). The cichlids in the East African lakes have ancestry (von Sternberg and Cumberlidge, 1999). These received considerable scientiWc attention, leading to an unusual morphological features prompted the suggestion increase of our understanding of the phylogenetic relation- that platythelphusids are among the most primitive of the ships of these Wsh, as well as of the mechanisms underlying extant species of African freshwater crabs.
    [Show full text]
  • Ulcera Aterosclerótica
    UruburuBiomédica M, 2008;28:562-8Granada M, Velásquez LE Biomédica 2008;28:562-8 ARTÍCULO ORIGINAL Distribución parcial de Paragonimus (Digenea: Troglotrematidae) en Antioquia, por presencia de metacercarias en cangrejos dulciacuícolas Mónica Uruburu1,2, Mabel Granada2, Luz Elena Velásquez1, 2 1 Grupo Microbiología Ambiental, Escuela de Microbiología, Universidad de Antioquia, Medellín, Colombia 2 Programa de Estudio y Control de Enfermedades Tropicales/PECET, Universidad de Antioquia, Medellín, Colombia Introducción. La paragonimosis, o distomatosis pulmonar, es una enfermedad con sintomatología similar a la observada en la tuberculosis. Es causada por parásitos del género Paragonimus (Digenea: Troglotrematidae). Las personas se infectan al consumir cangrejos crudos o mal cocidos, con metacercarias del parásito. El primer foco de paragonimosis humana en Colombia se registró durante 1995 en Urrao, Antioquia, donde se hallaron dos especies de cangrejos que hospedaban el parásito. En el 2005 se capturaron cangrejos con metacercarias de Paragonimus en Medellín, lo que motivó la búsqueda del parásito en otras localidades, mediante su presencia en estos crustáceos. Objetivo. Establecer la distribución de Paragonimus en Antioquia, evaluando la presencia de metacercarias en macrocrustáceos braquiuros, dulciacuícolas. Materiales y métodos. Desde 2005 hasta 2007 se capturaron cangrejos en 13 municipios antioqueños. Se relajaron y sacrificaron para la búsqueda del digeneo y la identificación taxonómica. Resultados. En nueve municipios se capturaron 52 cangrejos, 42 (80,76%) con metacercarias de Paragonimus. Todos los crustáceos se determinaron como Pseudothelphusidae, de los géneros Hypolobocera y Strengeriana, y se asignaron a cuatro especies. Tres se registran por primera vez como huéspedes del parásito. Conclusión. Se inicia la construcción de un mapa con la distribución de Paragonimus en Antioquia que incluye por primera vez zonas urbanizadas.
    [Show full text]