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Influence of organic reefs on the evolution of post-Palaeozoic algae

Published online by Cambridge University Press:  01 May 2009

G. F. Elliott
Affiliation:
Department of Palaeontology, British Museum (Natural History), Cromwell Road, London SW7 5BD

Summary

In reviewing those fossil algae associated with biotic reefs since the beginning of the Mesozoic, examples are discussed of algae showing evolution attributed to reef or peri-reefal conditions, those showing diversification attributed to reef environments, and those with frequent occurrence in reef conditions but with evolution not directly attributable to reefs.

Type
Articles
Copyright
Copyright © Cambridge University Press 1979

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References

Behr, K. & Behr, H.-J. 1976. Cyanophyten aus oberjurassichen Algen-Schwamm-Riffen. Lethaia 9, 283–92.CrossRefGoogle Scholar
Buchbinder, B. 1977. The coralline algae from the Miocene Ziqlag Formation in Israel and their environmental significance. In Fossil Algae: Recent Results and Developments (ed. Flügel, E.), pp. 279–85. Berlin, Heidelberg, New York: Springer-Verlag.CrossRefGoogle Scholar
Cabioch, J. 1970. L'origine des mégacytes chez les Porolithon (Corallinacées, Rhodophycées). C. r. hebd. Séanc. Acad. Sci. Paris, 270 D, 474–6.Google Scholar
Cabioch, J. 1972. Étude sur les Corallinacées. 2. La morphogenèse: conséquences systématiques et phylogénétiques. Cah. Biol. mar. 13, 137288.Google Scholar
Conard, M. & Rioult, M. 1977. Halimeda elliotti nov. sp., algue calcaire (Chlorophyceae) du Turonien des Alpes-Maritimes (S. E. France). Geol. méditerran. 4, 8398.Google Scholar
Cuif, J. P. 1969. Différenciation de tissu reproducteur chez les Solénopores triasiques. C. r. hebd. Séanc. Acad. Sci., Paris, 268 D, 776–8.Google Scholar
Denizot, M. & Massieux, M. 1966. Observations sur le genre Distichoplax (Algues melobesiées). Bull. Soc. géol. Fr. (7) 7, 387–91.Google Scholar
Doty, M. S. 1962. Functions of the Algae in the central Pacific. Proc. 9th Pacific Sci. Congr. Bangkok 1957, 4, 148–55.Google Scholar
Dunnington, H. V., Wetzel, R. & Morton, D. M. 1959 Mesozoic and Palaeozoic. In Lexique stratigraphique international, Asie, fasc. 10a, Iraq.Google Scholar
Elliott, G. F. 1963. A Liassic Pycnoporidium (Calcareous Algae). Eclog. geol. Helv. 56, 179–82.Google Scholar
Elliott, G. F. 1965(a). Tertiary solenoporacean algae and the reproductive structures of the Solenoporaceae. Palaeontology 7, 695702.Google Scholar
Elliott, G. F. 1965(b). The interrelationships of some Cretaceous Codiaceae (Calcareous Algae). Palaeontology 8, 199203.Google Scholar
Elliott, G. F. 1968. Permian to Palaeocene calcareous algae (Dasycladaceae) of the Middle East. Bull. Br. Mus. nat. Hist. (Geol)., Suppl. 4.Google Scholar
Elliott, G. F. 1970. Pseudaethesolithon, a calcareous alga from the Fars (Persian Miocene). Geologica romana 9, 3146.Google Scholar
Elliott, G. F. 1972. Cretacicrusta gen. nov., a possible alga from the English Cretaceous. Palaeontology 15, 501–3.Google Scholar
Elliott, G. F. 1973. A Miocene solenoporoid alga showing reproductive structures. Palaeontology 16, 223–30.Google Scholar
Elliott, G. F. 1978. Ecologic significance of post-Palaeozoic green calcareous algae. Geol. Mag. 115, 437–42.CrossRefGoogle Scholar
Emberger, J. 1958. Lithoporella elliotti nov. sp., mélobésiée nouvelle du Jurassique supérieur des Monts des Oulad-Nail, Atlas Saharien (Algérie). Bull. Soc. géol. Fr. (6) 7, 625–9.Google Scholar
Farinacci, A. 1962. Nuovo genere di Verneuilinidae (Foraminifera) marker di zona del Senoniano inferiore. Geologica romana 1, 510.Google Scholar
Fürsich, F. T. & Wendt, J. 1977. Biostratinomy and palaeoecology of the Cassian Formation (Triassic) of the Southern Alps. Palaeogeogr., Palaeoclimat., Palaeoecol., 22, 257323.CrossRefGoogle Scholar
Ghose, B. K. 1977. Paleoceology of the Cenozoic reefal foraminifera and algae. Palaeogeogr., Palaeoclimat., Palaeoecol., 22, 231–56.CrossRefGoogle Scholar
Hillis, L. W. 1959. A revision of the genus Halimeda (order Siphonales). Inst. mar. Sci. Univ. Texas 6, 321403.Google Scholar
Hudson, R. G. S. 1960. The Permian and Trias of the Oman Peninsula, Arabia. Geol. Mag. 97, 299308.CrossRefGoogle Scholar
Johnson, J. H. & Konishi, K. 1960. An interesting late Cretaceous calcareous alga from Guatemala. J. Paleont. 34, 10991105.Google Scholar
Lemoine, Mme M. 1970. Les algues floridées calcaires du Crétacé du sud de la France. Nouv. Archs Mus. Hist. nat. Paris (7) 10, 127240.Google Scholar
Lemoine, M. 1976. Le genre Lithoporella Foslie (algue Rhodophycée Corallinacée) au Tertiaire et au Quaternaire. Bull. Soc. géol. Fr. (7) 18, 773–87.CrossRefGoogle Scholar
Lemoine, M. 1978. Les difficultés de la phylogénie chez les algues corallinacées. Bull. Soc. géol. Fr. (7) 19, 1319–25.Google Scholar
Littler, M. M. 1973. The population and community structure of Hawaiian fringing-reef crustose Corallinaceae (Rhodophyta, Cryptonemiales). J. exp. mar. Biol. Ecol. 11, 103–20.CrossRefGoogle Scholar
Masse, J. P. & Poignant, A. F. 1970. Nouvelle contribution à l'étude des associations algales du Crétacé inférieur provençale. Importance paléoécologique. C. r. somm. Séanc. Soc. géol. Fr. 1970, 43–5.Google Scholar
Massieux, M. 1977. A comparison of the anatomical structures of a Recent and a fossil species of the Corallinaceae. In Fossil Algae: Recent Results and Developments (ed. Flügel, E.), pp. 190–8. Berlin, Heidelberg, New York: Springer-Verlag.CrossRefGoogle Scholar
Poignant, A.-F. 1977(a). Une nouvelle algue corallinacée, Neogoniolithon mountainvillense n. sp., dans le Paléocène du Bassin parisien. Geobios 10, 129–32.CrossRefGoogle Scholar
Poignant, A.-F. 1977(b). The Mesozoic Red Algae: a general survey. In Fossil Algae: Recent Results and Developments (ed. Flügel, E.), pp. 177–89. Berlin, Heidelberg, New York: Springer-Verlag.CrossRefGoogle Scholar
Poignant, A.-F. & Blanc, P. L. 1974. Les algues calcaires du Crétacé supérieur des rides de Villagrains – Landiras et Roquefort – Crean (Aquitaine centale). Geobios 7, 71–5.CrossRefGoogle Scholar
Rosen, B. R. 1977. The depth distribution of Recent hermatypic corals and its palaeontological significance. Mém. Bur. Rech. géol. minièr. 89, 507–17.Google Scholar
Scott, R. W. & Brenckle, P. L. 1977. Biotic zonation of a Lower Cretaceous Coral-Algal-Rudist Reef, Arizona. Proc. 3rd Int. Coral Reef Symp., Miami 1977, 183–9.Google Scholar
Stoddart, G. R. 1969. Ecology and morphology of Recent coral reefs. Biol. Rev. 44, 433–98.CrossRefGoogle Scholar
Taylor, W. R. 1950. Plants of Bikini and other northern Marshall Islands. Ann Arbor and London (Univ. Michigan Stud., Sci. Ser., vol. 18).Google Scholar
Teichert, C. 1958. Cold and deep-water coral banks. Bull. Am. Ass. Petrol. Geol. 42, 1064–82.Google Scholar
Tillier, S. 1975. Précisions morphologiques, structurales et systématiques sur Reptomulticava parviporosa Canu et Lecointre (Bryozoa, Cyclostomata). Geobios 8, 75–8.CrossRefGoogle Scholar
Womersley, H. B. S. & Bailey, A. 1969. The marine algae of the Solomon islands and their place in biotic reefs. Phil. Trans. R. Soc. Lond. B 255, 433–42.Google Scholar
Wood, A. 1944. Organs of reproduction in the Solenoporaceae. Proc. Geol. Ass. 55, 107–13.CrossRefGoogle Scholar
Wray, J. L. 1977. Late Palaeozoic calcareous red algae. In Fossil Algae: Recent Results and Developments (ed. Flügel, E.), pp. 167–76. Berlin, Heidelberg, New York: Springer-Verlag.CrossRefGoogle Scholar
Zankl, H. 1969. Der Hohe Göll. Aufbau und Lebensbild eines Dachsteinkalk-Riffes in der Obertrias der nördlichen Kalkalpen. Abh. senckenb. naturforsch. Ges. 519.Google Scholar