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Description: English: Photomicrograph of a cluster of Symbiodinium sp., isolated from a reef-building coral (Stylophora pistillata). The squares in the image are part of a haemocytometer, which is used to score the density of dinoflagellates in a sample. Date: 1 January 2009. Source: Own work. Author:
Timwijgerde.
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Description: English: Symbiodinium kawagutii. Date: 18 July 2017, 15:25:51. Source:
flickr. Author: Liti Haramaty.
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Description: English: Cross-section of mantle tissue showing dense zooxanthellae. Date: 20 March 2012. Source: Own work. Author:
JSLUCAS75.
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Description: English: Unicellular algae (zooxanthellae) colouring the tissue of the giant clam Tridacna in the Great Barrier Reef, Australia. Date: 27 April 2009, 09:47:33. Source: Own work. Author:
Jessika14.
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Description: English: Symbiodinium, colloquially called "zooxanthellae". Corals contain dense populations of round micro-algae commonly referred to as zooxanthellae. A typical coral will have one to several million symbiont cells in an area of tissue the size of a thumbnail. Date: 28 July 2018, 04:52:37. Source:
flickr. Author: Todd C. LaJeunesse.
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Description: English: Corals are colonies comprised of millions of clonal polyps, each of which contain millions of photosynthetic algae that live symbiotically within their tissue. This image “ColonyToSymbiont” was created by John A. Burt from Porites cylindrica by Philippe Bourjon (CC-BY-SA-3.0), Porites cylindrica en Samoa by Larry Basch (CC-PD), Zooxantelas en pólipo de Porites astreoides by NOAA (CC-PD), and Zooxanthellae by Todd LaJeunesse (CC-BY-2.0). Date: 27 October 2022. Source: Own work. Author:
John A. Burt.
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Description: English: Zooxanthellae isolated from the stony coral Stylophora pistillata. Date: 23 February 2017, 13:54:29. Source: Own work. Author:
Tim Wijgerde.
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Description: English: Lobed star coral in Akumal Bay, Mexico. Date: 25 November 2015. Source: Own work. Author:
Jmr002.
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Description: Español: Plan de organización corporal de un anthozoo simbionte. Capas dérmicas. Adaptación del archivo "Anemonia viridis body organisation", del artículo "Comprehensive EST analysis of the symbiotic sea anemone, Anemonia viridis", de Cécile Sabourault el al (2009). (
http://www.biomedcentral.com/1471-2164/10/333) (License CC by-2.0). Date: 2 August 2015, 12:13:32. Source: Own work. Author:
Josuevg.
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Symbiodinium (sim-buy-o-din-ee-um). Dinoflagellates which are usually encountered as endosymbionts of invertebrates. They can also be maintained in culture. They can produce gymnodinioid cells. There is an circumferential groove (the girdle or cingulum) which wraps around the cell, and a longitudinal groove which extends from the point of flagellar insertion towards the back of the cell. The circumferential flagellum and the trailing flagellum are evident. Plastids with chlorophylls a and c. Differential interference contrast.
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Symbiodinium (sim-buy-o-din-ee-um). Dinoflagellates which are usually encountered as endosymbionts of invertebrates. They can also be maintained in culture. They can produce gymnodinioid cells. There is an circumferential groove (the girdle or cingulum) which wraps around the cell, and a longitudinal groove which extends from the point of flagellar insertion towards the back of the cell. The circumferential flagellum and the trailing flagellum are evident. Plastids with chlorophylls a and c. Cysts. Differential interference contrast.
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Symbiodinium (sim-buy-o-din-ee-um). Dinoflagellates which are usually encountered as endosymbionts of invertebrates. They can also be maintained in culture. They can produce gymnodinioid cells. There is an circumferential groove (the girdle or cingulum) which wraps around the cell, and a longitudinal groove which extends from the point of flagellar insertion towards the back of the cell. The circumferential flagellum and the trailing flagellum are evident. Plastids with chlorophylls a and c. Circular structure is a pyrenoid. These pictures are of the type isolate. Differential interference contrast.
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Symbiodinium (sim-buy-o-din-ee-um). Dinoflagellates which are usually encountered as endosymbionts of invertebrates. They can also be maintained in culture. They can produce gymnodinioid cells. There is an circumferential groove (the girdle or cingulum) which wraps around the cell, and a longitudinal groove which extends from the point of flagellar insertion towards the back of the cell. The circumferential flagellum and the trailing flagellum are evident. Plastids with chlorophylls a and c. Circular structure is a pyrenoid. These pictures are of the type isolate. Differential interference contrast.
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Symbiodinium (sim-buy-o-din-ee-um). Dinoflagellates which are usually encountered as endosymbionts of invertebrates. They can also be maintained in culture. They can produce gymnodinioid cells. There is an circumferential groove (the girdle or cingulum) which wraps around the cell, and a longitudinal groove which extends from the point of flagellar insertion towards the back of the cell. The circumferential flagellum and the trailing flagellum are evident. Plastids with chlorophylls a and c. Cysts. These pictures are of the type isolate. Differential interference contrast.
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Symbiodinium (sim-buy-o-din-ee-um). Dinoflagellates which are usually encountered as endosymbionts of invertebrates. They can also be maintained in culture. They can produce gymnodinioid cells. There is an circumferential groove (the girdle or cingulum) which wraps around the cell, and a longitudinal groove which extends from the point of flagellar insertion towards the back of the cell. The circumferential flagellum and the trailing flagellum are evident. Plastids with chlorophylls a and c. Cysts. Differential interference contrast.
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Symbiodinium (sim-buy-o-din-ee-um). Dinoflagellates which are usually encountered as endosymbionts of invertebrates. They can also be maintained in culture. They can produce gymnodinioid cells. There is an circumferential groove (the girdle or cingulum) which wraps around the cell, and a longitudinal groove which extends from the point of flagellar insertion towards the back of the cell. The circumferential flagellum and the trailing flagellum are evident. Plastids with chlorophylls a and c. Differential interference contrast.
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Symbiodinium (sim-buy-o-din-ee-um). Dinoflagellates which are usually encountered as endosymbionts of invertebrates. They can also be maintained in culture. They can produce gymnodinioid cells. There is an circumferential groove (the girdle or cingulum) which wraps around the cell, and a longitudinal groove which extends from the point of flagellar insertion towards the back of the cell. The circumferential flagellum and the trailing flagellum are evident. Plastids with chlorophylls a and c. Detail showing the granular nucleus (in the anterior epicone of the cell). Differential interference contrast.
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Symbiodinium (sim-buy-o-din-ee-um). Dinoflagellates which are usually encountered as endosymbionts of invertebrates. They can also be maintained in culture. They can produce gymnodinioid cells. There is an circumferential groove (the girdle or cingulum) which wraps around the cell, and a longitudinal groove which extends from the point of flagellar insertion towards the back of the cell. The circumferential flagellum and the trailing flagellum are evident. Plastids with chlorophylls a and c. Differential interference contrast.
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Symbiodinium (sim-buy-o-din-ee-um). Dinoflagellates which are usually encountered as endosymbionts of invertebrates. They can also be maintained in culture. They can produce gymnodinioid cells. There is an circumferential groove (the girdle or cingulum) which wraps around the cell, and a longitudinal groove which extends from the point of flagellar insertion towards the back of the cell. The circumferential flagellum and the trailing flagellum are evident. Plastids with chlorophylls a and c. Cysts, but note division stages. Differential interference contrast.
