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Eukaryotic Collection

Background imageEukaryotic Collection: Dictyota dichotoma

Dictyota dichotoma
Cyanotype photograph by Anna Atkins, one of the first natural history photographers. From British Algae: Cyanotype Impressions, 1853. Date: 1853

Background imageEukaryotic Collection: Discosphaera tubifera, coccolithophore

Discosphaera tubifera, coccolithophore
Scanning electron microscope (SEM) showing the unicellular planktonic algae Discosphaera tubifera from the North Atlantic surrounded by a sphere of calcite plates - coccoliths

Background imageEukaryotic Collection: Fucus bulbosus, kelp

Fucus bulbosus, kelp
Plate 161 from Fuci, or coloured figures and descriptions of the Plants referred by botanists to the genus Fucus (1808-1819), Volume III, by Mary Dawson Turner

Background imageEukaryotic Collection: Fucus radiatus, kelp

Fucus radiatus, kelp

Background imageEukaryotic Collection: Plasmodium sp. malarial parasite

Plasmodium sp. malarial parasite
Scanning electron microscope image of a malarial protozoal parasite. The parasite requires the anopheles mosquito to complete its life cycle

Background imageEukaryotic Collection: Acanthophracta, radiolarians

Acanthophracta, radiolarians
Coloured lithograph by Ernst Haeckel from Kunstformen der Natur, 1899-1904. Date: 1904

Background imageEukaryotic Collection: Macrocystis pyrifera, giant kelp

Macrocystis pyrifera, giant kelp
Giant kelp, also known as kelp forest, seaweed and sea grass. Specimen annotated as Macrocystis pirifera from South Africa, held at the Natural History Museum, London

Background imageEukaryotic Collection: Acanthoica acanthifera, coccosphere

Acanthoica acanthifera, coccosphere
Scanning electron microscope (SEM) image of a coccosphere, collected in the North Atlantic (x 25, 000 on negative). Artificially coloured by computer

Background imageEukaryotic Collection: Coelosphaeridium, calcareous alga

Coelosphaeridium, calcareous alga

Background imageEukaryotic Collection: Globorotalia scitula, foraminifera fossil

Globorotalia scitula, foraminifera fossil
Scanning electron microscope (SEM) image showing a fossilised planktonic species of foraminifera

Background imageEukaryotic Collection: Diatoms

Diatoms
Selected slide of a group of fossil diatoms collected from Bori, Hungary in September 1895 and viewed under the light microscipe using differential interfereance contrast

Background imageEukaryotic Collection: Foraminifer model

Foraminifer model
Model of typical nummulitic foraminfer after Zittel

Background imageEukaryotic Collection: Emiliana huxleyi, coccolith

Emiliana huxleyi, coccolith
Scanning electron microscope image of a complete sphere of coccoliths from modern oceans. These are thin calcite shells protecting the coccolithophore within

Background imageEukaryotic Collection: Bulimina

Bulimina
Plate 53 from Voyage of H.M.S. Challenger 1873-1876. Zoology Vol. 9. Foraminifera Plates, 1884 by C. Wyville Thomson

Background imageEukaryotic Collection: Algae

Algae

Background imageEukaryotic Collection: Chondrus crispus

Chondrus crispus
Cyanotype photograph by Anna Atkins, one of the first natural history photographers. From British Algae: Cyanotype Impressions, 1853. Date: 1853

Background imageEukaryotic Collection: Amphiroa orbignyana, coralline red algae

Amphiroa orbignyana, coralline red algae
Amphiroa algae specimen collected by Charles Darwin, held in Sir William Hookers private collection of preserved plant and algal specimens, Herbarium Hookeranium

Background imageEukaryotic Collection: Amoeba proteus, amoebae

Amoeba proteus, amoebae
A glass model of amoebae, created by Leopold and Rudolf Blaschka in the late nineteenth century and held at the Natural History Museum, London

Background imageEukaryotic Collection: Emiliania huxleyi coccolithophores

Emiliania huxleyi coccolithophores collected from a bloom in the SW Approaches to the English Channel in June 2004. Date: 2004

Background imageEukaryotic Collection: Pressed seaweed book

Pressed seaweed book full of mounted seaweeds collected by women living in Jersey during the 1850s and 1860s

Background imageEukaryotic Collection: Radiolaria models

Radiolaria models
Models of two radiolaria made in papier mache by Vaclav Fric

Background imageEukaryotic Collection: Proterozoic ocean floor

Proterozoic ocean floor
A restoration of Proterozoic ocean floor with bun-shaped stromatolites

Background imageEukaryotic Collection: Nummulites gizehensis, nummulites

Nummulites gizehensis, nummulites
These fossils are embedded in Eocene limestone from 2km north-east of Gizeh, west of Cairo. Nummulites were single celled animals that lived on the sea bed

Background imageEukaryotic Collection: Foraminifer

Foraminifer
Scanning electron microscope (SEM) image of a foraminifer - a single celled organism

Background imageEukaryotic Collection: Coccolith

Coccolith
Scanning electron microscope (SEM) image of a Folkestone chalk surface with Cretaceous coccoliths (x2500 on a standard 9 cm wide print)

Background imageEukaryotic Collection: Dorataspis diodon, radiolarian

Dorataspis diodon, radiolarian
A glass model of a radiolarian, created by Leopold and Rudolf Blaschka in the late nineteenth century and held at the Natural History Museum, London

Background imageEukaryotic Collection: Actinophrys sol, heliozoan

Actinophrys sol, heliozoan
A glass model of a radiolarian, created by Leopold and Rudolf Blaschka in the late nineteenth century and held at the Natural History Museum, London

Background imageEukaryotic Collection: Aulacantha scolymantha, radiolarian

Aulacantha scolymantha, radiolarian
A glass model of a radiolarian, created by Leopold and Rudolf Blaschka in the late nineteenth century and held at the Natural History Museum, London

Background imageEukaryotic Collection: Lycogala epidendrum, Wolfs Milk

Lycogala epidendrum, Wolfs Milk
Watercolour on paper, c.1838 by Anna Russell (nee Worsley) (1807-1876). Held in the Library and Archives Date: circa 1838

Background imageEukaryotic Collection: Actinomma asteracanthion, radiolarian

Actinomma asteracanthion, radiolarian
A glass model of a radiolarian, created by Leopold and Rudolf Blaschka in the late nineteenth century and held at the Natural History Museum, London

Background imageEukaryotic Collection: Eucyrtidium cranoides, radiolarian

Eucyrtidium cranoides, radiolarian
A glass model of a radiolarian, created by Leopold and Rudolf Blaschka in the late nineteenth century and held at the Natural History Museum, London

Background imageEukaryotic Collection: Heliosphaera actinota, radiolarian

Heliosphaera actinota, radiolarian
A glass model of a radiolarian, created by Leopold and Rudolf Blaschka in the late nineteenth century and held at the Natural History Museum, London

Background imageEukaryotic Collection: Eucecryphalus schultzei, radiolarian

Eucecryphalus schultzei, radiolarian
A glass model of a radiolarian, created by Leopold and Rudolf Blaschka in the late nineteenth century and held at the Natural History Museum, London

Background imageEukaryotic Collection: Spongosphaera streptacantha, radiolarian

Spongosphaera streptacantha, radiolarian
A glass model of a radiolarian, created by Leopold and Rudolf Blaschka in the late nineteenth century and held at the Natural History Museum, London

Background imageEukaryotic Collection: Aulosphaera elegantissima, radiolarian

Aulosphaera elegantissima, radiolarian
A glass model of a radiolarian, created by Leopold and Rudolf Blaschka in the late nineteenth century and held at the Natural History Museum, London

Background imageEukaryotic Collection: Difflugia pyriformis, amoebae

Difflugia pyriformis, amoebae
A glass model of amoebae, created by Leopold and Rudolf Blaschka in the late nineteenth century and held at the Natural History Museum, London

Background imageEukaryotic Collection: Radiolarian

Radiolarian
A glass model of a radiolarian, created by Leopold and Rudolf Blaschka in the late nineteenth century and held at the Natural History Museum, London

Background imageEukaryotic Collection: Syracosphaera anthos

Syracosphaera anthos
Coccosphere from the Western Mediterranean. False coloured to show the shell is formed of inner and outer layers of coccoliths with very different structure

Background imageEukaryotic Collection: Heron- Allen microscope slides of foraminifera

Heron- Allen microscope slides of foraminifera
Christmas greetings spelt out in minute shells which bears the initials of the maker, Edward Heron-Allen, and the year it was made: E H A, 1909

Background imageEukaryotic Collection: Scyphosphaera apsteinii

Scyphosphaera apsteinii. SEM image of an equatorial coccolith

Background imageEukaryotic Collection: Model of coccolith Kamptnerius magnificus

Model of coccolith Kamptnerius magnificus
Copy of the resin model of the coccolith Kamptnerius magnificus Deflandre, 1930 currently on display in the Earth Lab area of the Earth Galleries at the Natural History Museum, London

Background imageEukaryotic Collection: Foraminifera and ostracods models

Foraminifera and ostracods models
Bees wax models of foraminifera and ostracods made by Clive Sheppard for an exhibition in the Invertebrates Gallery, at the Natural History Museum, London

Background imageEukaryotic Collection: Radiolarian model

Radiolarian model
Galls model of radiolarian by Blaschka, held at the Natural History Museum, London

Background imageEukaryotic Collection: Discorbina species, foraminifera

Discorbina species, foraminifera
Plate 11 no. 22 of original artwork by Heron-Allen and Earland, 1913, from the Heron-Allen Library at the Natural History Museum, London. Species from the Clare Island Survey, Co. Mayo, Ireland

Background imageEukaryotic Collection: Foraminifera models

Foraminifera models
One drawer containing some of d Orbigny models and slides previously displayed alongside the models in the galleries

Background imageEukaryotic Collection: Foraminifera

Foraminifera
Part of the display of foraminifera from The Great Exhibition of 1851. Featured are specimens from the London Clay, the Paris Basin and the Gulf of Suez

Background imageEukaryotic Collection: Difflugia Corona

Difflugia Corona
Freshwater Testate Amoebae. Magnification x 450

Background imageEukaryotic Collection: Usnea inflata, beard lichen

Usnea inflata, beard lichen
And Hypogymnia physodes (right), Burnham Beeches, Bucks, W. London. The former is a recent colonist following reductions in SO2 pollution

Background imageEukaryotic Collection: Trypanosomes

Trypanosomes
Scanning electron microscope image showing a trypanosoma blood smear. They have proved to be of great interest as they have evolved very differently to other better studied organisms

Background imageEukaryotic Collection: Ceratolithoides aculeus, coccolith

Ceratolithoides aculeus, coccolith
Scanning electron microscope image of an isolated coocolith from Cretaceous chalk. These are thin calcite shells protecting the coccolithophore within

Background imageEukaryotic Collection: Chorda filum, sea lace

Chorda filum, sea lace
Cut out of mounted specimen of sea lace or Dead mans rope. A brown seaweed, this specimen is 14.5 feet long and held at the Natural History Museum, London

Background imageEukaryotic Collection: Florosphaera profunda, coccolith

Florosphaera profunda, coccolith
Scanning electron microscope image of a complete sphere of coccoliths from modern oceans. These are thin calcite shells protecting the coccolithophore within

Background imageEukaryotic Collection: Globigerina

Globigerina
Plate 77 from Voyage of the H.M.S. Challenger 1873-1876. Zoology Vol. 9. Foraminifera Plates, 1884 by C. Wyville Thomson

Background imageEukaryotic Collection: Orbitolites - Alveolina

Orbitolites - Alveolina
Plate 17 from Voyage of H.M.S. Challenger (1872-1876). Zoology Vol. 9. Foraminifera Plates, 1884 by C. Wyville Thomson

Background imageEukaryotic Collection: Thurammina - Cyclammina

Thurammina - Cyclammina
Plate 37 from Voyage of H.M.S. Challenger 1873-1876. Zoology Vol. 9. Foraminifera Plates, 1884 by C. Wyville Thomson

Background imageEukaryotic Collection: Carpenteria & Polytrema

Carpenteria & Polytrema
Plate 100 from Voyage of the H.M.S. Challenger 1873-1876. Zoology Vol. 9. Foraminifera Plates, 1884 by C Wyville Thomson

Background imageEukaryotic Collection: Cristellaria

Cristellaria
Plate 68 from Voyage of the H.M.S. Challenger 1873-1876. Zoology Vol. 9. Foraminifera Plates, 1884 by C. Wyville Thomson

Background imageEukaryotic Collection: Nine molluscs, including bivalves and gastropods

Nine molluscs, including bivalves and gastropods
Watercolour 391 by the Port Jackson Painter, entitled Kow-er-ring, Kow-ill, Kaa-din, Wal-gan, from the Watling Collection

Background imageEukaryotic Collection: Dumontia contorta, seaweed

Dumontia contorta, seaweed

Background imageEukaryotic Collection: Scinaia forcellata, seaweed

Scinaia forcellata, seaweed
Cut out of specimen of marine alga or seaweed collected by Holmes in Enoura, Japan. Specimen is held in the Crypt. Herbarium at the Natural History Museum, London

Background imageEukaryotic Collection: Emiliania huxleyi coccosphere

Emiliania huxleyi coccosphere
Coccosphere of Emiliania huxleyi from the Western Mediterranean. E

Background imageEukaryotic Collection: Desmarestia ligulata, seaweed

Desmarestia ligulata, seaweed
Page 55 from Algae Danmonienses: or dried specimens of Marine Plants, principally collected in Devonshire by Mary Wyatt; carefully named according to Dr. Hookers British Flora

Background imageEukaryotic Collection: Amphitetras, diatom

Amphitetras, diatom
Scanning electron microscope (SEM) image showing the diatom Amphitetras with its ornate silica shell (x5000 on a standard 9 cm wide print). Coloured artificially by computer

Background imageEukaryotic Collection: Frontispiece of Catalogue Raisonne d une collection

Frontispiece of Catalogue Raisonne d une collection
Illustration by Francois Boucher from the book Catalogue Raisonne d une collection by Edme Francois Gersaint, 1744

Background imageEukaryotic Collection: Tonguestone (sharks tooth)

Tonguestone (sharks tooth)
A sharks tooth from the species Oxyrhina. Specimen originates from the Globigerina Limestone, Miocene period, NW Malta

Background imageEukaryotic Collection: The pond in the Wildlife Garden

The pond in the Wildlife Garden. Photographed by Derek Adams. Published in Wildlife Garden by Roy Vickery, 2004 page 35

Background imageEukaryotic Collection: Ciliate plankton

Ciliate plankton
Scanning electron microscope image of a ciliate showing clearly the microscopic hairs or cilia that they use for movement and feeding (x 700)

Background imageEukaryotic Collection: Fucus vesiculosis, bladderwrack

Fucus vesiculosis, bladderwrack
Illustration from Botany Library Plate Collection at the Natural History Museum, London. By Leopald Trattinick, 1825

Background imageEukaryotic Collection: Coccoliths

Coccoliths
Scanning electron microscope (SEM) image of coccoliths, these are the limestone scales surrounding the marine phytoplankton coccolithophores

Background imageEukaryotic Collection: Acanthoica acanthifera

Acanthoica acanthifera

Background imageEukaryotic Collection: Myxomycetes, plasmodial slime mould

Myxomycetes, plasmodial slime mould
Scanning electron microscope image of a plasmodial slime mould spore (x12000)

Background imageEukaryotic Collection: Spiral axis of Archimedes, bryozoan

Spiral axis of Archimedes, bryozoan
Archimedes, was a bryozoan possibly living in association with an alga. From the Lower Carboniferous limestone, Iowa, USA. c. 350-330 million years old



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