{"id":128,"date":"2016-05-26T09:18:16","date_gmt":"2016-05-26T16:18:16","guid":{"rendered":"https:\/\/sites.evergreen.edu\/vms-spring\/?p=128"},"modified":"2016-06-01T16:33:20","modified_gmt":"2016-06-01T23:33:20","slug":"tintinnid-ciliate","status":"publish","type":"post","link":"https:\/\/sites.evergreen.edu\/vms-spring\/tintinnid-ciliate\/","title":{"rendered":"Tintinnid ciliate"},"content":{"rendered":"
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Author: Kasey Tollefson\u00a0<\/p>\n

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This species of Tintinnids, which I believe to be the Tintinnopsis campanula<\/em> as compared to other species, and it has a shell formed from sand and minerals, illustration also depicts the transparency of the organism. Illustration done by K. Tollefson ’16<\/p><\/div>\n

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The Tintinnid ciliate<\/em> is very unique in its diversity, ranging sizes from 20-200\u00a0\u00b5m, with an enormous assortment of lorica (shells), and the only plankton to possess these shells. Their shells can range from vase, bowl or tubular shapes and is always open at one end, which is the oral end and the other is closed or tapered. One common characteristic of these Tintinnids<\/em> is that they bear cilia (small hair like organelles used for feeding and motility), during part of their life or the entirety of their life cycle, and another is nuclear dualism (macro- and micronuclei).\u00a0 The oral structure of the Tintinnid Ciliate<\/em> contains tentaculoids, which is thought to be related to capturing their prey, such as phytoplankton and other small dissolved organic matter. When feeding, the cell that is attached to the inside of the lorica extends out and in-turn propels the organism through the water, mouth-end first and if interrupted it will withdraw the cell back into the lorica.<\/p>\n

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Class<\/span>: Spirotrichea<\/span><\/p>\n

Subclass<\/span>: Choreotrichida<\/span><\/p>\n

Order<\/span>: Tintinnida \u00a0 \u00a0<\/p>\n