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Figure 7; Harpacticoid copepods exhibiting dorsoventrally flattened body shapes (females only, dorsal view; genital double-somite shaded). A Philippiphonte aspidosoma (Laophontidae) B Porcellidium viride (Philippi, 1840) (Porcellidiidae) C Neopeltopsis pectinipes Hicks, 1976 (Peltidiidae) D Hamondia superba Huys, 1990 (Hamondiidae) E Alteutha oblonga (Goodsir, 1845) (Peltidiidae) F Peltidium purpureum Philippi, 1839 (Peltidiidae) G Zaus abbreviatus Sars, 1904 (Harpacticidae) H Paramenophia platysoma (Thompson & Scott, 1903) (Thalestridae) I Xouthous purpurocinctus (Norman & Scott, 1905) (Pseudotachidiidae) J Xouthous parasimulans (Médioni & Soyer, 1968) (Pseudotachidiidae) K Mucropedia kirstenae Bouck, Thistle & Huys, 1999 (Harpacticidae) L Donsiella phycolimnoriae Hicks, 1990 (Pseudotachidiidae) M Alteuthoides kootare Hicks, 1986 (Peltidiidae) N Peltidiphonte rostrata Gheerardyn & Fiers in Gheerardyn, Fiers, Vincx & De Troch, 2006 (Laophontidae) O Peltobradya bryozoophila Médioni & Soyer, 1968 (Ectinosomatidae) P Scutellidium arthuri Poppe, 1884 (Tisbidae).
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Balanus crispatus
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Mohsen M. El-Sherbiny, Ali M. Al-Aidaroos
Zookeys
Figure 3.Acartia bispinosa female from the northern Red Sea. A antenna B mandible C maxillule D maxilla E maxilliped F Leg 1 G leg 2, posterior surface H Leg 3, posterior surface I leg 4, posterior surface J third exopodal segment of leg 1, anterior surface K second endopodal segment of leg 3, anterior surface L basis of leg 4, anterior surface I leg 5 anterior surface. All scale bars in mm.
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Eduardo Suárez-Morales, Juan M. Fuentes-Reinés
Zookeys
Figure 2.Halicyclops gaviriai sp. n., adult holotype female from northern Colombia. A leg 1 B leg 2 C leg 3 D leg 4 E. leg 4 terminal endopodal segment showing details of armature. Scale bars: A–D= 50 μm, E=25 μm.
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Hyun Woo Bang, Jeffrey G. Baguley, Heejin Moon
Zookeys
Figure 3.Attheyella (Attheyella) tahoensis sp. n. female: A P1, anterior B P2, anterior C P3, anterior D P4, anterior.
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Seong Yong Moon, Seok-Hyun Youn, B. A. Venmathi Maran
Zookeys
Figure 3.Stephos geojinensis sp. n., female paratype. A P1 B P2 C P3 D P4 E fifth legs. Scale bars = 50 µm.
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Pitriana P, Valente L, von Rintelen T, Jones DS, Prabowo RE, von Rintelen K (2020) An annotated checklist and integrative biodiversity discovery of barnacles (Crustacea, Cirripedia) from the Moluccas, East Indonesia. ZooKeys 945: 17-83.
Wikimedia Commons
Figure 25; Amphibalanus sp. (MZB Cru Cir 135) a upper view b side view c external view of scutum and tergum d internal view of scutum and tergum e cirrus I f cirrus II g cirrus III h cirrus IV i cirrus V j cirrus VI k penis l maxilla m maxillule n mandible o mandibular palp. Scale bars: 3 mm (a, b); 1 mm (c–g); 2 mm (h–k); 0.5 mm (l–o).
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PRESERVED_SPECIMEN; ; ; 70% alc.->dry; Det. by: Eric A. Lazo-Wasem 2013; GM image; Gray Museum; IZ number 62098; lot count 75; original catalog number GM 1450; host: IZ.062099; 1970-04-14T00:00:00Z
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PRESERVED_SPECIMEN; ; ; microslide; ; IZ number 93539; lot count 1; Microslide 01, balsam, whole mount; other number Set97-16;
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PRESERVED_SPECIMEN; Sacculina Thompson, 1836; Identified by:Boyko CÂ .B.; Individual Count:1; Event date:1980-10-30T00:00:00Z
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Figure 3; Structure of the spermatheca in Megalopodinae: Megalopus, Temnaspis, Poecilomorpha, Sphondylia. a Megalopus inscriptus b Megalopus sp. c T. septemmaculata d T. speciosa e P. cyanipennis f apex of the spermatheca in P. cyanipennis g P. atripes, h apex of the spermatheca in P. atripes, i Sphondylia sp.
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PRESERVED_SPECIMEN; Waikalasma boucheti Buckeridge, 1996; Type status:HOLOTYPE; Identified by:Buckeridge; Individual Count:1; Event date:1994-10-05T00:00:00Z
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PRESERVED_SPECIMEN; Eurylasma pyramidale Jones, 2000; Type status:HOLOTYPE; Identified by:Jones, D.; Individual Count:1; Event date:1989-09-13T17:24:00Z
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PRESERVED_SPECIMEN; Microlasma fragile Jones, 2000; Type status:PARATYPE; Identified by:Jones, D.; Individual Count:2; Event date:1989-02-16T16:27:00Z
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Identifier: commonobjectsofs00wood (
find matches)Title:
The common objects of the sea shore : including hints for an aquariumYear:
1860 (
1860s)Authors:
Wood, J. G. (John George), 1827-1889 Sowerby, G. B. (George Brettingham), 1812-1884Subjects:
Marine animals Marine plants AquariumsPublisher:
London : Routledge, Warne & RoutledgeContributing Library:
University of Pittsburgh Library SystemDigitizing Sponsor:
Lyrasis Members and Sloan FoundationView Book Page:
Book ViewerAbout This Book:
Catalog EntryView All Images:
All Images From Book Click here to
view book online to see this illustration in context in a browseable online version of this book.Text Appearing Before Image:stones, and even on living shells, of which they mostaffect the limpet, because it is not of migratory habits. It is a very remarkable fact, that although thebalanus never moves from the spot on which it hastaken up its habitation, and, indeed, is incapable of anykind of locomotion, yet when very young it was anactive, wandering little creature, furnished with jointedlimbs, much resembling a young shrimp or crab, andswimming freely through the water with a succession ofbounds. When first discovered, the young balani werethought to be veritable crustaceans; but after carefulobservation they were seen to affix themselves to thesides of the vessel in which they were placed, andstraightway to change their roving life for an existenceof settled quiet. Similar strange developments takeplace in many marine animals, but there will not besufficient space for their discussion. 104 BARNACLE. The balanus has a very near relative going by thepopular name of Ship-barnacle, and the scientific titleText Appearing After Image:of Pentalasmis anatifera, the latter title signifying thefive-plated goose-bearer. It is called Pentalasmis, orfive-plated, because its shell is composed of five distinctportions, curiously arranged, and between them thecirrhi are protruded. The word goose-bearing isgiven to it because an old writer named Gerard, wholived in 1636, discovered that the Bernicle-goose (Ber-Note About Images Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.
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Cecrops latreillii
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EB1911 Crustacea Fig. 9.—Balanus
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Monoculus bracteatus
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IZ.093927: Acartia clausii; Leg 2 Digital Image: Yale Peabody Museum of Natural History; photo by E. Lazo-Wasem, 2017 metadata updated: 20 Sep 2017 11:47:42 PRESERVED_SPECIMEN; FEMALE; ; microslide; Det. by: Eric A. Lazo-Wasem; CSBR Slide Grant image; IZ number 93927; lot count 1; Microslide 01, CMCP-10, leg 1; Microslide 01, CMCP-10, leg 2; Microslide 02, CMCP-10, leg 3; Microslide 02, CMCP-10, leg 4; female;
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James St. John|sourceurl=https://flickr.com/photos/47445767@N05/49766431192%7Carchive=%7Creviewdate=2020-04-14 02:59:27|reviewlicense=cc-by-2.0|reviewer=FlickreviewR 2
Wikimedia Commons
Summary[
edit] Description: Balanus amphitrite (Darwin, 1854) - striped acorn barnacles, modern (latest Holocene) The crustaceans are a large group of arthropods that inhabit marine, marginal marine, freshwater, and terrestrial habitats. The crustaceans include crabs, lobsters, shrimp, crayfish, barnacles, ostracods, and other organisms. The oldest fossil crustaceans are in the Cambrian. The group experienced a significant radiation in the oceans during the Mesozoic Marine Revolution. Seen here is a mass of striped acorn barnacles from Florida. Barnacles are sessile, benthic, filter-feeding, marine crustaceans that are obligate hard substrate encrusters. They are particularly common in intertidal, rocky shore environments. They can tolerate subaerial exposure during low tides but have to be in water at least occasionally. When submerged, they extend their feathery limbs to filter feed. The barnacle body is enclosed in a small, cinder cone volcano-shaped carapace composed of overlapping calcareous plates. Fossil barnacles first appear in Cambrian rocks. Striped acorn barnacles have a light-colored carapace with thin, purplish-colored stripes. This species is not native to Florida. Based on its fossil distribution, Balanus amphitrite is apparently native to the Indian Ocean and the southwestern Pacific Basin. It is now globally distributed in tropical and temperate, shallow marine environments. The species' geographic distribution is so widespread in modern seas as a result of human activity - the barnacles have frequently attached to ships that travel across entire ocean basins. Classification: Animalia, Arthropoda, Crustacea, Maxillopoda, Cirripedia, Sessilia, Balanidae Locality: Lighthouse Point beach, southern shore of the eastern tip of Sanibel Island, Gulf of Mexico coast of southwestern Florida, USA More info. at:
en.wikipedia.org/wiki/Crustacean and
en.wikipedia.org/wiki/Barnacle and
en.wikipedia.org/wiki/Amphibalanus_amphitrite. Date: 12 April 2020, 02:34. Source:
Balanus amphitrite (striped acorn barnacles) (Sanibel Island, Florida, USA) 2. Author:
James St. John.
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PRESERVED_SPECIMEN; Acasta perforata Rosell, 1991; Type status:PARATYPE; Identified by:Rosell, N.C.; Individual Count:1; Event date:1985-06-03T11:47:00Z