Cibicididae

Fornasini, C. (1902). Sinossi metodica, dei Foraminiferi sin qui rinvenuti nella sabbia del Lido di Rimini. Memorie della Reale Accademia delle Scienze dell'Istituto di Bologna. ser. 5, t. 10, pp. 1-68., available online at (http://www.biodiversitylibrary.org/item/121637) page(s): p. 59 tf. 60

Fornasini, C. (1906). Illustrazione di specie Orbignyane di rotalidi istituite nel 1826. Memorie della Reale Accademia delle Scienze dell'Istituto di Bologna. ser. 6 t. 2, p. 61-70., available online at (http://www.biodiversitylibrary.org/item/120951#page/69/) page(s): p. 69 pl. 4 fig. 9

Image source: Goës, A. 1894. A Synopsis of the Arctic and Scandinavian recent marine Foraminifera hitherto discovered. Kong. Svenska Vetenskaps-Akademiens Handlingar 25(9): 1-127 + 25 pls. (Notae numerorum tenues mensuram indicant millimetricam).

Le Calvez, Y. (1958). Les foraminifères de la mer celtique. Revue des Travaux de l'Institut des Pêches Maritimes. 22(2), 148-211., available online at (http://archimer.ifremer.fr/doc/00000/4597/) page(s): p. 188 pl. 3 fig. 38-40

Pera, Faro, Portugal

Pra, Faro, Portugal

Several individuals (the pink coiled shells) on the upper shell of the Antarctic scallop Adamussium colbecki. Photo courtesy of Robert Sanders. More information about this image is available at the McMurdo Sound Underwater Field Guide.

found at beach of Malia/Crete/Greece

attached to a pebble found on the bottom of the Greenland Sea/Arctic, cruise of Polarstern found at 78.58N 07.37W at 192m depth 30.9.1995

attached to a pebble, found on the bottom of the Greenland Sea/Arctic, cruise of Polarstern found at 78.58N 07.37W at 192m depth 30.9.1995

Individual collected in Saanich Inlet, Vancouver Island, British Columbia. Image courtesy of R. Timothy Patterson, Carleton University. This image first appeared in J. Foram. Res. 28:201-219 and is used with permission.

Individual collected in Saanich Inlet, Vancouver Island, British Columbia. Image courtesy of R. Timothy Patterson, Carleton University. This image first appeared in J. Foram. Res. 28:201-219 and is used with permission.

Image of the holotype. Test is 0.76 mm. across. Image courtesy of David B. Scott, Dalhousie University.   This image was originally published in Palaeologica Electronica, vol. 3, issue 2, and is used with the kind permission of that journal and the Paleontological Association.

Image of the holotype. Test is 0.76 mm. across. Image courtesy of David B. Scott, Dalhousie University.   This image was originally published in Palaeologica Electronica, vol. 3, issue 2, and is used with the kind permission of that journal and the Paleontological Association.

Image of the holotype; test is 0.4 mm. across. Image courtesy of David B. Scott, Dalhousie University.   This image was originally published in Palaeologica Electronica, vol. 3, issue 2, and is used with the kind permission of that journal and the Paleontological Association.

Image of the holotype. Image courtesy of David B. Scott, Dalhousie University.   This image was originally published in Palaeologica Electronica, vol. 3, issue 2, and is used with the kind permission of that journal and the Paleontological Association.

Image of the holotype, seen from the ventral side. Test is 0.4 mm. across. Image courtesy of David B. Scott, Dalhousie University.   This image was originally published in Palaeologica Electronica, vol. 3, issue 2, and is used with the kind permission of that journal and the Paleontological Association.

Image of the holotype. Scott suggests that this species is misclassified, and may be a member of Cibicidoides. Test is 1 mm. across. Image courtesy of David B. Scott, Dalhousie University.   This image was originally published in Palaeologica Electronica, vol. 3, issue 2, and is used with the kind permission of that journal and the Paleontological Association.

Image of the holotype. Scott suggests that this species is misclassified, and may be a member of Cibicidoides. Test is 1 mm. across. Image courtesy of David B. Scott, Dalhousie University.   This image was originally published in Palaeologica Electronica, vol. 3, issue 2, and is used with the kind permission of that journal and the Paleontological Association.

Image of holotype, which may be a deformed specimen. Test is 0.56 mm. across. Image courtesy of David B. Scott, Dalhousie University.   This image was originally published in Palaeologica Electronica, vol. 3, issue 2, and is used with the kind permission of that journal and the Paleontological Association.

Photo of the holotype. Test is 0.57 mm. across. Image courtesy of David B. Scott, Dalhousie University.   This image was originally published in Palaeologica Electronica, vol. 3, issue 2, and is used with the kind permission of that journal and the Paleontological Association.

Image of the holotype. The roughening of the test surface probably happened after death. Test is 0.57 mm. across. Image courtesy of David B. Scott, Dalhousie University.   This image was originally published in Palaeologica Electronica, vol. 3, issue 2, and is used with the kind permission of that journal and the Paleontological Association.