Crustacea, Amphipoda, Talitridae) from Northeast Atlantic and Mediterranean Coastal Regions

Total Page:16

File Type:pdf, Size:1020Kb

Crustacea, Amphipoda, Talitridae) from Northeast Atlantic and Mediterranean Coastal Regions Zoosyst. Evol. 90 (2) 2014, 133–146 | DOI 10.3897/zse.90.8410 museum für naturkunde New genus and two new species of driftwood hoppers (Crustacea, Amphipoda, Talitridae) from northeast Atlantic and Mediterranean coastal regions David J. Wildish1,2 1 Fisheries & Oceans Canada, Biological Station, 531 Brandy Cove Road, St. Andrews, New Brunswick, E5B 2S9, Canada 2 Atlantic Reference Centre, Huntsman Marine Science Centre, 1 Lower Campus Road, St. Andrews, New Brunswick, E5B 2L7, Canada http://zoobank.org/D1D134DB-3E05-4434-9327-7BF90A912982 Corresponding author: David J. Wildish ([email protected]) Abstract Received 12 August 2014 A new specialist driftwood talitrid from the Swale, U.K., is figured and described as Ne- Accepted 21 September 2014 otenorchestia kenwildishi gen. n., sp. n. A further new driftwood talitrid, Macarorchestia Published 10 October 2014 pavesiae sp. n., is figured and described from coastal regions in the Adriatic Sea.Orches - tia microphtalma Amanieu & Salvat, 1963 from the Atlantic coast of France is re-des- Academic editor: ignated as Macarorchestia microphtalma (Amanieu & Salvat, 1963). A key is provided Matthias Glaubrecht for the known species of driftwood talitrids in northeastern Atlantic and Mediterranean coastal regions. Key Words Neotenorchestia kenwildishi gen. n., sp. n. Macarorchestia pavesiae sp. n. Macarorchestia microphtalma (Amanieu & Salvat, 1963) comb. n. Introduction supporting the lineal “island” theory was presented in Wildish (2012), showing that driftwood talitrids reached Driftwood specialist hoppers are a rare, difficult to find, the northeast Atlantic islands on driftwood transports. ecological group of Talitridae which are virtually con- After reaching the remote, recently-formed, volcanic fined to rotting driftwood where they live in galleries, islands they evolved further there into terrestrial or cav- consuming rotting driftwood and reproducing with rela- ernicolous forms if sub-tropical rain forest or seashore tively small broods (1 to 19 ova per brood in the Maca- caves were contiguous habitats with the supralittoral and rorchestia so far described). The ova are incubated in the also lacked a talitrid fauna. Alternatively driftwood spe- brood pouch formed by the oostegites on peraeon seg- cialists remained in place in their primary ecotope as su- ments 2 through 5 and hatch as juvenile forms. Because pralittoral, driftwood hoppers if the supply of driftwood talitrids have no larval stage their dispersal, particular- habitat was plentifully available. ly to distant oceanic islands, was seen as problematic. Currently known driftwood taxa (Wildish et al. 2012) The general view was that some form of passive rafting comprise 5 species presently grouped in 2 genera from dispersal was involved (Wildish 1988). In the lineal “is- the Mediterranean and northeast Atlantic (Macarorches- land” theory (Wildish 2012) this view was focussed and tia and Orchestia), with another genus (Platorchestia) the hypothesis proposed that driftwood hoppers, with reported from the west coast of North America by Bous- near-permanent residence in driftwood, were important field (1982). The preponderance of driftwood hoppers in agents of long distance dispersal for talitrids, particular- the northeast Atlantic/Mediterranean coastal areas is sug- ly to distant oceanic islands. Circumstantial evidence gested to be the result of more intensive sampling there. Copyright David J. Wildish. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. 134 Wildish, D.J. : New species of driftwood talitrid hoppers Other geographic areas and particularly the southern Component species. Currently includes five species: M. hemisphere, where no driftwood hoppers have yet been martini, M. roffensis, M. remyi, M. pavesiae sp. n., M. found, have not been sampled intensively enough to con- microphtalma (Amanieu & Salvat, 1963) new comb. clude that they are without driftwood talitrid specialists. As a result of molecular studies of Macarorchestia Diagnosis. As in Stock (1989) except that the lacinia remyi it was suggested that two genetically distinguish- mobilis of the left mandible is 4 - 5 -dentate. The propo- able forms: one centred in the Tyrrhenian and the other dus of the seventh peraeopod carries distinctive tufts of in the Adriatic Sea were present (Pavesi et al. 2011). This long, slender setae, which are sexually dimorphic. The result was confirmed with further relative growth stud- first antenna with up to 5 articles (versus 3 in Stock). ies (Wildish et al. 2012) and a new species referable to The pleopods are biramous with a basis which is not Macarorchestia is described herein. Molecular and rel- reduced, but both rami are variously reduced dependant ative growth studies (Wildish et al. 2012; Pavesi et al. on the total body length of the largest adults of the spe- 2014) determined the taxonomic identity of an unknown cies. Thus in the smallest species, martini, there is no talitrid taxon found in a driftwood log which stranded in segmentation in the rami and 1-3 plumose setae and in the Swale, U.K., and found morphological evidence sup- the largest, microphtalma, there up to 5 segments and porting a generic level change in nomenclature for Or- 11 plumose setae. The pleopod rami may be sexually chestia microphtalma Amanieu & Salvat, 1963. A formal dimorphic, as in male M. remyi, and the second antennal presentation of the taxonomic changes outlined above is flagellum articles are sexually dimorphic in female M. provided with a key for the currently known driftwood pavesiae sp. n. In addition all species are small, that is species from the Mediterranean and northeast Atlantic to say < 15 mm in total body length and lack epidermal coastal region. pigment patterns. Material and methods Macarorchestia martini Stock, 1989 Stock 1989: 1109. Slides were prepared as temporary mounts without stain- ing and after dissecting mouthparts and limbs. Some Material examined. Male holotype and 8 females (al- were prepared as permanent mounts by Sara LeCroy, af- lotype and paratypes) on loan from Zoological Museum ter staining with lignin pink and permanently mounted in of Amsterdam, Amsterdam, the Netherlands (AMPH. CMCP-10 (Master’s Company, Inc.). 108.57). Collected by J. Stock on 2 August, 1987 from Photographs of limb parts were made with a Carl Gruta das Agulhas in Porto Judeus on the island of Ter- Zeiss photomicroscope and digital Canon 990 camera. ceira, Azores archipelago. Adobe Photoshop (version 7.0), Illustrator (version 11.0) and a Wacom tablet were used to draw limb parts Distribution. Known only from the type locality on the and prepare plates, essentially as outlined in Coleman island of Terceira. (2003, 2006). Antenna, mouth and limb part abbrevi- ations used throughout are: A1 = first antenna, A2 = Epidermal pigment patterns. Not mentioned by Stock second antenna, LL = lower lip (labium), UL = upper (1989). lip (labrum), RMnd = right mandible, LMnd = left mandible, Mx1 = first maxilla, Mx2 = second max- Remarks. This is the type species and smallest Maca- illa, Mxpd = maxilliped, Gn1 = first gnathopod , Gn2 rorchestia. Stock (1989) was equivocal about whether = second gnathopod, P3 to P7 = peraeopods 3 through this was a recent troglobiont specialist or trogloxenous 7, Pl1 to Pl3 = pleopods 1 through 3, Up1 to Up3 = form. I concur with the latter view and believe that the uropods 1 through 3, and T = telson. Body length was adaptations (small body length, body length greater in the measured accurately from digital photographs of each female, small eyes, reduced pleopod rami and shortened individual pinned in a dissecting dish. The total body length of the first 5 peraeopods) indicate that M. martini length (TBL) was measured from the most anterior part is a driftwood specialist. of the cephalon to the telson tip, on digital photographs with the aid of Image Pro Plus software. Limb ratios were calculated as Pl3/TBL, in units of mm. Macarorchestia roffensis (Wildish, 1969) Wildish 1969: 288; Lincoln 1979: 212; Wildish 1987: 571, Systematics as Orchestia remyi roffensisor O. roffensis; Ruffo 1993: 739. Genus Macarorchestia Stock, 1989 Material examined. Male holotype (BMNH 1968:64), Stock 1989: 1109; Ruffo 1993: 738. one female allotype (BMNH 1968:65) and 416 paratypes of all life history stages (BMNH 1968:66). Collected by Type species. M. martini Stock, 1989 D.J.Wildish(DJW) in August 1968, 0.2 km upstream from zse.pensoft.net Zoosyst. Evol. 90 (3) 2014, 133–146 135 Chatham Ness in Limehouse Reach, Medway estuary, posited in the Natural History Museum, Verona and Muse- near Rochester, Kent, U.K. um at Rome University, Rome, Italy by L. Pavesi. Distribution. Besides the type locality one other locali- Type locality. Lesina, Adriatic Sea, Italy (41°54’11”N, ty in the Medway estuary was found in 1968 with a few 15°26’50”E). specimens in a driftwood log by DJW. The location was ~ 0.6 km upstream from the old Rochester Bridge in Tower Other material examined. 17 individuals collected by Reach on the eastern shore. A few specimens collected by L.Pavesi in April 2006 at Varano, Adriatic Sea, Italy DJW in 1999 from the Swale, in Ferry Reach ~ 0.5 Km (41°55’12”N, 15°47’29”E). northwest of Kingsferry Bridge on the mainland shore. Diagnosis. M. pavesiae sp. n. is distinguished from its Epidermal pigment patterns. Absent. close relative, M. remyi, by its smaller size, sexually di- morphic second antennal flagellum articles in adult fe- Remarks. This is the second smallest Macarorchestia. males and absence of sexual dimorphism in pleopod rami. The type locality was destroyed during reclamation of Frindsbury marsh as an industrial estate. Description. Based on male paratypes: total body lengths in the range of 8.0 to 6.7 mm. Figs 1 and 2. The male holotype has similar morphology to male paratypes dis- Macarorchestia remyi (Schellenberg, 1950) sected in preparing the figures.
Recommended publications
  • The Beachflea Platorchestia Platensis
    The beachflea Platorchestia OCEANOLOGIA, 48 (2), 2006. pp. 287–295. platensis (Krøyer, 1845): C 2006, by Institute of a new addition to the Oceanology PAS. Polish fauna (with KEYWORDS a key to Baltic talitrid Platorchestia platensis amphipods)* Talitrid amphipod Southern Baltic John I. Spicer1 Urszula Janas2 1 Marine Biology and Ecology Research Centre, School of Biological Sciences, University of Plymouth, Plymouth PL4 8AA, UK; e-mail: [email protected] 2 Institute of Oceanography, University of Gdańsk, al. Marszałka Piłsudskiego 46, PL–81–378 Gdynia, Poland Received 20 December 2005, revised 23 May 2006, accepted 5 June 2006. Abstract The present paper reports for the first time on the occurrence of Platorchestia platensis (Krøyer, 1845) (Crustacea, Amphipoda) in Puck Bay (southern Baltic, Poland) in May 2005. A key to the Baltic talitrids is given, which can be used to identify males and females of the four species occurring on Polish shores (Talitrus saltator, Talorchestia deshayesii, Orchestia cavimana, Platorchestia platensis)and additionally Orchestia gammarellus, which may yet be found in the Polish coastal zone. Only three species of talitrid amphipod (Crustacea) have been recorded from Polish shores. The sandhoppers Talitrus saltator (Montagu, 1808) and Talorchestia deshayesii (Audouin, 1826) are ubiquitous beneath flotsam and jetsam or wrack cast up at the high water mark on sandy beaches * This work was funded through European Community project BALTDER under the fifth FP, contract No EVK3-CT-2002-80005 and the Polish Ministry of Scientific Research and Information. The complete text of the paper is available at http://www.iopan.gda.pl/oceanologia/ 288 J.
    [Show full text]
  • HELCOM Red List
    SPECIES INFORMATION SHEET Talitrus saltator English name: Scientific name: Sand hopper Talitrus saltator Taxonomical group: Species authority: Class: Malacostraca Montagu, 1808 Order: Amphipoda Family: Talitridae Subspecies, Variations, Synonyms: Generation length: Talitrus locustra Sars, 1890 females 1,5 year males 21 months Past and current threats (Habitats Directive Future threats (Habitats Directive article 17 article 17 codes): codes): Tourism (cleaning of beaches; G05.05) Tourism (cleaning of beaches; G05.05) IUCN Criteria: HELCOM Red List DD – Category: Data Deficient Global / European IUCN Red List Category: Habitats Directive: NE/NE – Protection and Red List status in HELCOM countries: Denmark –/–, Estonia –/–, Finland –/–, Germany –/2 (Endangered, incl. North Sea, Latvia –/–, Lithuania –/–, Poland strictly protected by law/–, Russia –/–, Sweden –/– Distribution and status in the Baltic Sea region The species inhabits supralittoral sandy beaches in the southern and western Baltic Sea (Trave Estuary, Greifswald Lagoon, Rugia Lagoons, Polish coast, Curonian Lagoon). As the habitat is under pressure by tourism and the species has been found sensitive to the side-effects of tourism, e.g. trampling and cleaning of algal belts from beaches, it is likely that the population has declined. Outside the HELCOM area the species can be found in the north-eastern Atlantic and North Sea, as well as along European coasts from southern Norway to the western Mediterranean. © HELCOM Red List Benthic Invertebrate Expert Group 2013 www.helcom.fi > Baltic Sea trends > Biodiversity > Red List of species SPECIES INFORMATION SHEET Talitrus saltator Distribution map The georeferenced records of species compiled from the databases of the Swedish Species Information Centre (Artportalen) and the Leibniz Institute for Baltic Sea Research (IOW), and from Zaddach (1844), Drzycimski & Nawodzinska (1965), and Weslawski et al.
    [Show full text]
  • SPECIES INFORMATION SHEET Orchestia Gammarellus
    SPECIES INFORMATION SHEET Orchestia gammarellus English name: Scientific name: – Orchestia gammarellus Taxonomical group: Species authority: Class: Malacostraca Pallas, 1766 Order: Amphipoda Family: Talitridae Subspecies, Variations, Synonyms: Generation length: Orchestia gammarella Pallas, 1766 1–2 years Past and current threats (Habitats Directive Future threats (Habitats Directive article 17 article 17 codes): codes): IUCN Criteria: HELCOM Red List DD – Category: Data Deficient Global / European IUCN Red List Category: Habitats Directive: Tourism (cleaning of beaches; G05.05), – Construction (J02.12.01) Protection and Red List status in HELCOM countries: Denmark –/–, Estonia –/–, Finland –/–, Germany –/V (Near threatened, incl. North Sea), Latvia –/–, Lithuania –/–, Poland –/–, Russia –/–, Sweden –/– Distribution and status in the Baltic Sea region Orchestia gammarellus is a rare amphipod which lives in a potentially deteriorated habitat in the southern and western Baltic Sea. The only recent finding is from Germany. The Swedish data are entirely from the 1920s and 1930s but on the other hand the species has not necessarily been looked for more recently. Outside the HELCOM area the species is transatlantic. The species is widespread and frequently recorded on European coasts from western Norway and Iceland to Mediterranean and Black Sea; also South-West Africa. © HELCOM Red List Benthic Invertebrate Expert Group 2013 www.helcom.fi > Baltic Sea trends > Biodiversity > Red List of species SPECIES INFORMATION SHEET Orchestia gammarellus
    [Show full text]
  • The 17Th International Colloquium on Amphipoda
    Biodiversity Journal, 2017, 8 (2): 391–394 MONOGRAPH The 17th International Colloquium on Amphipoda Sabrina Lo Brutto1,2,*, Eugenia Schimmenti1 & Davide Iaciofano1 1Dept. STEBICEF, Section of Animal Biology, via Archirafi 18, Palermo, University of Palermo, Italy 2Museum of Zoology “Doderlein”, SIMUA, via Archirafi 16, University of Palermo, Italy *Corresponding author, email: [email protected] th th ABSTRACT The 17 International Colloquium on Amphipoda (17 ICA) has been organized by the University of Palermo (Sicily, Italy), and took place in Trapani, 4-7 September 2017. All the contributions have been published in the present monograph and include a wide range of topics. KEY WORDS International Colloquium on Amphipoda; ICA; Amphipoda. Received 30.04.2017; accepted 31.05.2017; printed 30.06.2017 Proceedings of the 17th International Colloquium on Amphipoda (17th ICA), September 4th-7th 2017, Trapani (Italy) The first International Colloquium on Amphi- Poland, Turkey, Norway, Brazil and Canada within poda was held in Verona in 1969, as a simple meet- the Scientific Committee: ing of specialists interested in the Systematics of Sabrina Lo Brutto (Coordinator) - University of Gammarus and Niphargus. Palermo, Italy Now, after 48 years, the Colloquium reached the Elvira De Matthaeis - University La Sapienza, 17th edition, held at the “Polo Territoriale della Italy Provincia di Trapani”, a site of the University of Felicita Scapini - University of Firenze, Italy Palermo, in Italy; and for the second time in Sicily Alberto Ugolini - University of Firenze, Italy (Lo Brutto et al., 2013). Maria Beatrice Scipione - Stazione Zoologica The Organizing and Scientific Committees were Anton Dohrn, Italy composed by people from different countries.
    [Show full text]
  • National Reports (Term of Reference A) Presented at the 46Th Meeting of the ICES Working Group on Introductions and Transfers Of
    National Reports (Term of Reference a) Presented at the 46th meeting of the ICES Working Group on Introductions and Transfers of Marine Organisms, held in Gdynia, Poland from 4 to 6 March 2020. Arranged Alphabetically by Country Compiled by Cynthia H McKenzie, Chair, WGITMO CANADA …………………………………………………………………… …. 2 DENMARK ………………………………………………………………………. 10 FINLAND ………………………………………………………………………. 18 FRANCE ………………………………………………………………………. 21 GERMANY ………………………………………………………………………. 33 GREECE ………………………………………………………………………. 46 ICELAND ………………………………………………………………………. 54 ITALY ………………………………………………………………………. 58 LITHUANIA ………………………………………………………………………. 73 NETHERLANDS …………………………………………………………………. 75 NORWAY ………………………………………………………………………. 77 POLAND ………………………………………………………………………. 86 PORTUGAL ………………………………………………………………………. 89 SWEDEN ………………………………………………………………………. 99 UNITED KINGDOM ……………………………………………………………. 104 UNITED STATES …………………………………………………………………. 119 1 CANADA National Report for Canada 2019 Report Prepared By: Cynthia McKenzie, Fisheries and Oceans Canada, Newfoundland and Labrador Region: [email protected]; Contributions By: Nathalie Simard, Fisheries and Oceans Canada, Quebec Region: [email protected]; Kimberly Howland, Fisheries and Oceans Canada, Central and Arctic Region: [email protected]; Renée Bernier and Chantal Coomber, Fisheries and Oceans Canada, Gulf Region: renee.bernier@dfo- mpo.gc.ca, [email protected]; Angelica Silva, Fisheries and Oceans Canada, Maritimes Region: [email protected] Overview: NEW or SPREAD
    [Show full text]
  • Uehara-Prado Marcio D.Pdf
    FICHA CATALOGRÁFICA ELABORADA PELA BIBLIOTECA DO INSTITUTO DE BIOLOGIA – UNICAMP Uehara-Prado, Marcio Ue3a Artrópodes terrestres como indicadores biológicos de perturbação antrópica / Marcio Uehara do Prado. – Campinas, SP: [s.n.], 2009. Orientador: André Victor Lucci Freitas. Tese (doutorado) – Universidade Estadual de Campinas, Instituto de Biologia. 1. Indicadores (Biologia). 2. Borboleta . 3. Artrópode epigéico. 4. Mata Atlântica. 5. Cerrados. I. Freitas, André Victor Lucci. II. Universidade Estadual de Campinas. Instituto de Biologia. III. Título. (rcdt/ib) Título em inglês: Terrestrial arthropods as biological indicators of anthropogenic disturbance. Palavras-chave em inglês : Indicators (Biology); Butterflies; Epigaeic arthropod; Mata Atlântica (Brazil); Cerrados. Área de concentração: Ecologia. Titulação: Doutor em Ecologia. Banca examinadora: André Victor Lucci Freitas, Fabio de Oliveira Roque, Paulo Roberto Guimarães Junior, Flavio Antonio Maës dos Santos, Thomas Michael Lewinsohn. Data da defesa : 21/08/2009. Programa de Pós-Graduação: Ecologia. iv Dedico este trabalho ao professor Keith S. Brown Jr. v AGRADECIMENTOS Ao longo dos vários anos da tese, muitas pessoas contribuiram direta ou indiretamente para a sua execução. Gostaria de agradecer nominalmente a todos, mas o espaço e a memória, ambos limitados, não permitem. Fica aqui o meu obrigado geral a todos que me ajudaram de alguma forma. Ao professor André V.L. Freitas, por sempre me incentivar e me apoiar em todos os momentos da tese, e por todo o ensinamento passado ao longo de nossa convivência de uma década. A minha família: Dona Júlia, Bagi e Bete, pelo apoio incondicional. A Cris, por ser essa companheira incrível, sempre cuidando muito bem de mim. A todas as meninas que participaram do projeto original “Artrópodes como indicadores biológicos de perturbação antrópica em Floresta Atlântica”, em especial a Juliana de Oliveira Fernandes, Huang Shi Fang, Mariana Juventina Magrini, Cristiane Matavelli, Tatiane Gisele Alves e Regiane Moreira de Oliveira.
    [Show full text]
  • List of Marine Alien and Invasive Species
    Table 1: The list of 96 marine alien and invasive species recorded along the coastline of South Africa. Phylum Class Taxon Status Common name Natural Range ANNELIDA Polychaeta Alitta succinea Invasive pile worm or clam worm Atlantic coast ANNELIDA Polychaeta Boccardia proboscidea Invasive Shell worm Northern Pacific ANNELIDA Polychaeta Dodecaceria fewkesi Alien Black coral worm Pacific Northern America ANNELIDA Polychaeta Ficopomatus enigmaticus Invasive Estuarine tubeworm Australia ANNELIDA Polychaeta Janua pagenstecheri Alien N/A Europe ANNELIDA Polychaeta Neodexiospira brasiliensis Invasive A tubeworm West Indies, Brazil ANNELIDA Polychaeta Polydora websteri Alien oyster mudworm N/A ANNELIDA Polychaeta Polydora hoplura Invasive Mud worm Europe, Mediterranean ANNELIDA Polychaeta Simplaria pseudomilitaris Alien N/A Europe BRACHIOPODA Lingulata Discinisca tenuis Invasive Disc lamp shell Namibian Coast BRYOZOA Gymnolaemata Virididentula dentata Invasive Blue dentate moss animal Indo-Pacific BRYOZOA Gymnolaemata Bugulina flabellata Invasive N/A N/A BRYOZOA Gymnolaemata Bugula neritina Invasive Purple dentate mos animal N/A BRYOZOA Gymnolaemata Conopeum seurati Invasive N/A Europe BRYOZOA Gymnolaemata Cryptosula pallasiana Invasive N/A Europe BRYOZOA Gymnolaemata Watersipora subtorquata Invasive Red-rust bryozoan Caribbean CHLOROPHYTA Ulvophyceae Cladophora prolifera Invasive N/A N/A CHLOROPHYTA Ulvophyceae Codium fragile Invasive green sea fingers Korea CHORDATA Actinopterygii Cyprinus carpio Invasive Common carp Asia CHORDATA Ascidiacea
    [Show full text]
  • (Crustacea : Amphipoda) of the Lower Chesapeake Estuaries
    W&M ScholarWorks Reports 1971 The distribution and ecology of the Gammaridea (Crustacea : Amphipoda) of the lower Chesapeake estuaries James Feely Virginia Institute of Marine Science Marvin L. Wass Virginia Institute of Marine Science Follow this and additional works at: https://scholarworks.wm.edu/reports Part of the Marine Biology Commons, Oceanography Commons, Terrestrial and Aquatic Ecology Commons, and the Zoology Commons Recommended Citation Feely, J., & Wass, M. L. (1971) The distribution and ecology of the Gammaridea (Crustacea : Amphipoda) of the lower Chesapeake estuaries. Special papers in marine science No.2. Virginia Institute of Marine Science, College of William and Mary. http://doi.org/10.21220/V5H01D This Report is brought to you for free and open access by W&M ScholarWorks. It has been accepted for inclusion in Reports by an authorized administrator of W&M ScholarWorks. For more information, please contact [email protected]. THE DISTRIBUTION AND ECOLOGY OF THE GAMMARIDEA (CRUSTACEA: AMPHIPODA) OF THE LOWER CHESAPEAKE ESTUARIES James B. Feeley and Marvin L. Wass SPECIAL PAPERS IN MARINE SCIENCE NO. 2 VIRGIN IA INSTITUTE OF MARINE SC IE NCE Gloucester Point, Virginia 23062 1971 THE DISTRIBUTION AND ECOLOGY OF THE GAMMARIDEA (CRUSTACEA: AMPHIPODA) OF THE LOWER 1 CHESAPEAKE ESTUARIES James B. Feeley and Marvin L. Wass SPECIAL PAPERS IN MARINE SCIENCE NO. 2 1971 VIRGINIA INSTITUTE OF MARINE SCIENCE Gloucester Point, Virginia 23062 This document is in part a thesis by James B. Feeley presented to the School of Marine Science of the College of William and Mary in Virginia in partial fulfillment of the requirements for the degree of Master of Arts.
    [Show full text]
  • And Peracarida
    Contributions to Zoology, 75 (1/2) 1-21 (2006) The urosome of the Pan- and Peracarida Franziska Knopf1, Stefan Koenemann2, Frederick R. Schram3, Carsten Wolff1 (authors in alphabetical order) 1Institute of Biology, Section Comparative Zoology, Humboldt University, Philippstrasse 13, 10115 Berlin, Germany, e-mail: [email protected]; 2Institute for Animal Ecology and Cell Biology, University of Veterinary Medicine Hannover, Buenteweg 17d, D-30559 Hannover, Germany; 3Dept. of Biology, University of Washington, Seattle WA 98195, USA. Key words: anus, Pancarida, Peracarida, pleomeres, proctodaeum, teloblasts, telson, urosome Abstract Introduction We have examined the caudal regions of diverse peracarid and The variation encountered in the caudal tagma, or pancarid malacostracans using light and scanning electronic posterior-most body region, within crustaceans is microscopy. The traditional view of malacostracan posterior striking such that Makarov (1978), so taken by it, anatomy is not sustainable, viz., that the free telson, when present, bears the anus near the base. The anus either can oc- suggested that this region be given its own descrip- cupy a terminal, sub-terminal, or mid-ventral position on the tor, the urosome. In the classic interpretation, the telson; or can be located on the sixth pleomere – even when a so-called telson of arthropods is homologized with free telson is present. Furthermore, there is information that the last body unit in Annelida, the pygidium (West- might be interpreted to suggest that in some cases a telson can heide and Rieger, 1996; Grüner, 1993; Hennig, 1986). be absent. Embryologic data indicates that the condition of the body terminus in amphipods cannot be easily characterized, Within that view, the telson and pygidium are said though there does appear to be at least a transient seventh seg- to not be true segments because both structures sup- ment that seems to fuse with the sixth segment.
    [Show full text]
  • The Coastal Talitridae (Amphipoda: Talitroidea) of Southern and Western Australia, with Comments on Platorchestia Platensis (Krøyer, 1845)
    © The Authors, 2008. Journal compilation © Australian Museum, Sydney, 2008 Records of the Australian Museum (2008) Vol. 60: 161–206. ISSN 0067-1975 doi:10.3853/j.0067-1975.60.2008.1491 The Coastal Talitridae (Amphipoda: Talitroidea) of Southern and Western Australia, with Comments on Platorchestia platensis (Krøyer, 1845) C.S. SEREJO 1 AND J.K. LOWRY *2 1 Museu Nacional, Universidade Federal do Rio de Janeiro, Quinta da Boa Vista s/n, Rio de Janeiro, RJ 20940–040, Brazil [email protected] 2 Crustacea Section, Australian Museum, 6 College Street, Sydney NSW 2010, Australia [email protected] AB S TRA C T . A total of eight coastal talitrid amphipods from Victoria, South Australia and Western Australia are documented. Three new genera (Australorchestia n.gen.; Bellorchestia n.gen. and Notorchestia n.gen.) and seven new species (Australorchestia occidentalis n.sp.; Bellorchestia richardsoni n.sp.; Notorchestia lobata n.sp.; N. naturaliste n.sp.; Platorchestia paraplatensis n.sp. Protorchestia ceduna n.sp. and Transorchestia marlo n.sp.) are described. Notorchestia australis (Fearn-Wannan, 1968) is reported from Twofold Bay, New South Wales, to the Eyre Peninsula, South Australia. Seven Australian and New Zealand “Talorchestia” species are transferred to Bellorchestia: B. chathamensis (Hurley, 1956); B. kirki (Hurley, 1956); B. marmorata (Haswell, 1880); B. pravidactyla (Haswell, 1880); B. quoyana (Milne Edwards, 1840); B. spadix (Hurley, 1956) and B. tumida (Thomson, 1885). Two Australian “Talorchestia” species are transferred to Notorchestia: N. australis (Fearn-Wannan, 1968) and N. novaehollandiae (Stebbing, 1899). Type material of Platorchestia platensis and Protorchestia lakei were re-examined for comparison with Australian species herein described.
    [Show full text]
  • Megalorchestia Pugettensis Class: Malacostraca Order: Amphipoda, Gammaridea a Beach Hopper Family: Talitridae
    Phylum: Arthropoda, Crustacea Megalorchestia pugettensis Class: Malacostraca Order: Amphipoda, Gammaridea A beach hopper Family: Talitridae Taxonomy: Some species of the genus coastal beaches, particularly at night Megalorchestia, including M. pugettensis, (Bousfield 2007). Megalorchestia species are were originally described as members of characterized by a short and stocky body, Orchestoidea (e.g. O. pugettensis) (Bousfield small eyes and short antennae (for key see 2007). These talitrid sand hoppers were Bousfield 1982). divided into two groups: 4-dentate species Cephalon: from the southern hemisphere (Orchestoidea) Rostrum: Rostrum rounded and and 5-dentate species from the northern simple. hemisphere (Megalorchestia) by Brandt in Eyes: Eyes large and oval in shape 1851 (Bousfield 1982). Megalorchestia (Fig. 1). species-level designations are currently in Antenna 1: Short and slightly shorter need of further study as M. columbiana and than the third article of second antenna, M. pugettensis likely contain at least three especially in males (Fig. 1) (Barnard 1975). species each (Bousfield 1982). Antenna 2: Massive peduncle of three articles that are, together, longer than Description the flagellum, especially in males (Fig. 1) Size: Individuals up to 18 mm in length, (Barnard 1975). Flagellum of about 20 excluding antennae (Bowers 1964). The articles. illustrated specimen (from Coos Bay) is 17 Mouthparts: Mandible without palp mm in length. (Talitridae) and maxilliped article four not well Color: White, usually with three spots on last developed. (Mouthparts not figured, see three coxae. The color pattern is particularly Traskorchestia traskiana in this guide). useful in Megalorchestia species identification Pereon: (see Fig. 3, Bowers 1963). In particular, there Coxae: The coxae, or first pereopod are distinctive antero-posterior markings on article, has first plate ½ as large as second the last three thoracic segments in M.
    [Show full text]
  • Cerrorchestia Taboukeli Sp. Nov., a New Terrestrial Amphipod (Amphipoda, Talitridae) from Martinique Island Christophe Piscart, Khaoula Ayati, Mathieu Coulis
    Cerrorchestia taboukeli sp. nov., a new terrestrial amphipod (Amphipoda, Talitridae) from Martinique Island Christophe Piscart, Khaoula Ayati, Mathieu Coulis To cite this version: Christophe Piscart, Khaoula Ayati, Mathieu Coulis. Cerrorchestia taboukeli sp. nov., a new terres- trial amphipod (Amphipoda, Talitridae) from Martinique Island. European Journal of Taxonomy, Consortium of European Natural History Museums, 2019, 588 (588), pp.1-14. 10.5852/ejt.2019.588. hal-02336608 HAL Id: hal-02336608 https://hal.archives-ouvertes.fr/hal-02336608 Submitted on 10 Nov 2020 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Distributed under a Creative Commons Attribution| 4.0 International License European Journal of Taxonomy 588: 1–14 ISSN 2118-9773 https://doi.org/10.5852/ejt.2019.588 www.europeanjournaloftaxonomy.eu 2019 · Piscart C. et al. This work is licensed under a Creative Commons Attribution License (CC BY 4.0). Research article urn:lsid:zoobank.org:pub:E5FD2A8E-B260-41D2-9BE8-1FAEDAC6625A Cerrorchestia taboukeli sp. nov., a new terrestrial amphipod (Amphipoda, Talitridae) from Martinique Island Christophe PISCART 1, *, Khaoula AYATI 2 & Mathieu COULIS 3 1 Univ Rennes, CNRS, ECOBIO – UMR 6553, F-35000, Rennes, France.
    [Show full text]