Definition of "foraminifera"
foraminifera
noun
plural foraminifera or foraminiferas
Synonym of foraminifer (“any of a large group of aquatic amoeboid protists of the subphylum Foraminifera, characterized by streaming granular ectoplasm that among other things is used for catching food, often with a calcareous shell with many holes through which pseudopodia protrude”)
Quotations
This elegant Foraminifera has long been one of the best known of recent species; in its young state it is one of the most abundant organisms in the Cuban sand: in this immature form it appears a Foraminifera of the ordinary spiral type; […]
1850, J. W., “Proceedings of the Microscopical Society of London. [Report of William Crawford Williamson’s paper “On the Minute Structure of the Calcareous Shells of Some Recent Species of Foraminifera”.]”, in Edward Newman, editor, The Zoologist: A Popular Miscellany of Natural History, volume VIII, London: John Van Voorst, […], page 2685
By the slow accumulation of dead shells, corals, &c., cemented by the smaller tests of foraminifera, the Coralline Crag eventually attained a thickness of fifty feet.
1872, J[ohn] E[llor] Taylor, “The Story of the ‘Crags’”, in M[ordecai] C[ubitt] Cooke, editor, Hardwicke’s Science-Gossip: An Illustrated Medium of Interchange and Gossip for Students and Lovers of Nature, volume XIII, number 84, London: Robert Hardwicke, […], page 272, column 1
The best method of examining chalk for minute Foraminifera is this: […] The balsam gradually penetrates into the cells, the black rings of the air-bubbles disappear, and the minute, frequently very elegant cells of the Foraminifera become visible.
1875, J. W. Griffith, Arthur Henfrey, “CHALK”, in J. W. Griffith, Martin Duncan, M[iles] J[oseph] Berkeley, T[homas] Rupert Jones, editors, The Micrographic Dictionary; a Guide to the Examination and Investigation of the Structure and Nature of Microscopic Objects, 3rd edition, volume I (Text), London: John Van Voorst, […], page 154, column 1
Several forms were met with which apparently do not occur on the surface, particularly a number of species of a group which is so far as we know entirely undescribed. It seems to be intermediate between the Radiolarians and the Foraminiferas, resembling the former in the condition and appearance of the sarcode and in the siliceous composition of the test, and the latter in external form.
1875 November 25, “The Work of the Challenger”, in Nature: A Weekly Illustrated Journal of Science, volume XIII, number 317, London, New York, N.Y.: Macmillan and Co., published 1876, page 70, column 2
Careful preparation of a fragment of chalk usually brings to light remains, sometimes well preserved, of foraminifera (Rotalina ornata, Cristellaria rotulata, Globigerina bulloides).
1879, A. Ge., “GEOLOGY”, in The Encyclopædia Britannica: A Dictionary of Arts, Sciences, and General Literature, 9th edition, volume X, Edinburgh: Adam and Charles Black, page 358, column 1
Yet more wonderful and beautiful than the Amœbas are the Rhizopoda called Foraminiferas. The hard word Foraminifera means to carry an aperture or opening, and is used as the name of an immense number of tiny creatures living in thin shells with openings in them, though which the inhabitants send out the threads all Rhizopoda have the power of making from the substance of their bodies.
1882, N[ancy] D’Anvers [pseudonym; Nancy Regina Emily Meugens Bell], Lowest Forms of Water Animals: An Illustrated Natural History Reader (Science Ladders; V), New York, N.Y.: G[eorge] P[almer] Putnam’s Sons […], pages 12–13
Backboneless animals precede those with backbones and the minute foraminifera—bits of jelly in shells—species with a more complex organisation.
1890, “Geographical Distribution of Living Beings: Plants; Limiting Agents”, in Robert Brown, editor, Our Earth and Its Story: A Popular Treatise on Physical Geography, London, Paris: Cassell & Company, […], page 270, column 1
He then passed to the beds next in succession in the series, and exhibited some beautiful photographic prints of their Oolitic structure, as seen under the microscope, shewing tubules growing round a nucleus, generally a fragment of a calcareous organism—in some cases an entire one, as a Foraminifera—but whether the tubules were of animal or vegetable origin, he was not prepared to say.
1893 May 5, W. C. Lucy, “Annual Address to the Cotteswold Naturalists’ Field Club at Gloucester, May 5th, 1893”, in Proceedings of the Cotteswold Naturalists’ Field Club, volume XI, Gloucester, Gloucestershire: […] John Bellows, published 1895, page 6
The articles are diatoms, spiculas, foraminiferas, and polycystines mounted on microscope slides. They […] are claimed to be exempt from duty as specimens of natural history under paragraph 712. […] We find that the goods are specimens of natural history imported as objects of science, and sustain the protest.
1894 August 21, Wilkinson, general appraiser, “Specimens of Natural History on Microscope Slides, Free”, in Synopsis of the Decisions of the Treasury Department and Board of United States General Appraisers on the Construction of the Tariff, Navigation, and Other Laws for the Year Ending December 31, 1894 (15310–G.A. 2744), Washington, D.C.: Government Printing Office, published 1895, page 730
In addition to mollusks, foraminiferas, coralline algæ, and echinoids have contributed to the formation of the rock [Key Largo limestone].
1913, Samuel Sanford, “Southern Florida”, in George Charlton Matson, Samuel Sanford, Geology and Ground Waters of Florida […] (United States Geological Survey Water-supply Paper; 319), Washington, D.C.: Government Printing Office, page 188
On the Caroline Ridge (present water depth 2900 to 3000 meters) radiolarians are more numerous in the Oligocene and Lower Miocene than in the Middle and Upper Miocene. Also, either radiolarians or planktonic foraminiferas predominate in some layers. If radiolarians predominate, then the foraminiferas are impoverised in their specific composition.
1971 February, Valeri A. Krasheninnikov, “Cenozoic Foraminifera”, in Alfred G[eorge] Fischer et al., Initial Reports of the Deep Sea Drilling Project […], volume VI, Washington, D.C.: National Ocean Sediment Coring Program, National Science Foundation; U.S. Government Printing Office, part II (Shore Laboratory Studies), pages 1067–1068
Constructed in a modular manner, each chamber of a foraminifera is preformed with an organic layer that subsequently mineralizes.
2005, H. C. W. Skinner, A. H. Jahren, “Biomineralization”, in William H. Schlesinger, editor, Biogeochemistry (Treatise on Geochemistry; 8), Amsterdam, Boston, Mass.: Elsevier, section 8.04.3.4.4. (Foraminifera), page 139, column 2
Some foraminifera also have dinoflagellates living within their tissues that aid in growth through photosynthesis. These foraminifera are much like sophisticated satellites that open their solar panels at daybreak. In the morning, the foraminifera transport the algae out of their shells to the ends of their spines and gooey arms […]. There, the dinoflagellates capture sunlight and grow through photosynthesis; in the process they use up the foraminiferas' wastes while producing oxygen. As darkness falls, the algae are are drawn back inside the foraminiferas' shells. Thousands of symbiotic algae may be housed within a foraminifera’s tissues, making it a floating, dense packet of productivity.
2011, Ellen [J.] Prager, “The Invisible Crowd”, in Sex, Drugs, and Sea Slime: The Oceans’ Oddest Creatures and Why They Matter, Chicago, Ill., London: University of Chicago Press, page 5
In the Bay of Prony, a foraminifera, Operculina philippinensis, is abundant in the fraction > 0.5 mm where it can compose up to 65% of the assemblages.
2012, Jean-Pierre Debenay, A Guide to 1,000 Foraminifera from Southwestern Pacific New Caledonia, Marseille: IRD Éditions; Paris: Publications Scientifiques du Muséum, page 38, column 2