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doi:10.1017/S0271164800000579

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Information: Series in Geology, Notes for Short Course , Volume 6: Foraminifera , 1982 , pp. 192 - 219

DOI: https://doi.org/10.1017/S0271164800000579 [Opens in a new window]
Copyright: Copyright © 1982 University of Tennessee, Knoxville

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Adams, C. G. 1967. Tertiary foraminifera in the Tethyan, American and Indo-Pacific provinces, In: Adams, C. G. and Ager, D. B. (eds.), Aspects of Tethyan biogeography. System. Assoc., Publ. 7: 195–217.Google Scholar

Albani, A. D. and Johnson, K. R. 1975. Resolution of foraminiferal biotopes in Broken Bay, New South Wales. Geol. Soc. Australia J. 22: 435–446.Google Scholar

Albers, C. C. and others. 1966. Foraminiferal ecological zones of the Gulf Coast: Progress report of the New Orleans Paleoecologic Committee Gulf Coast Section, Soc. Econ. Paleontol. Mineral. Gulf Coast Assoc. Geol. Soc. Trans., 16: 345–348.Google Scholar

Alexandrowicz, S. W. 1969. Thuramminoides sphaeroidalis Plummer (foraminifera) from Cambrian beds of the vicinity of Sandomierz. Annls. Soc. Geol. Pologne, 39: 27–34.Google Scholar

Alldredge, A. L. and Jones, B. M. 1973. Hastigerina pelagica: Foraminiferal habitat for planktonic dinoflagellates. Mar. Biol., 22: 131–135.Google Scholar

Alvarez, L. W., Alvarez, W., Asaro, F. and Michel, H. V. 1980. Extraterrestrial cause for Cretaceous-Tertiary extinction. Science, 208: 1095–1108.Google Scholar

Alvarez, W., Arthur, M. A., Fischer, A. G., Lowrie, W., Napoleone, G., Premoli Silva, I. and Roggenthen, W. M. 1977. Upper Cretaceous - Paleocene magnetic stratigraphy at Gubbio, Italy. V. Type section for the late Cretaceous - Paleocene geomagnetic reversal time scale. Geol. Soc. Amer. Bull., 88: 383–389.Google Scholar

Alvarez, W. A. et al. 1982. Iridium anomaly approximately synchronous with terminal Eocene extinctions. Science, 216: 886–888.Google Scholar

Anderson, J. B. 1968. Ecology of foraminifera from Mississippi Sound and surrounding waters. Alabama Acad. Sci. J., 39: 261–269.Google Scholar

Anderson, O. R. and Be, A. W. H. 1976a. A cytochemical fine structure study of phagotrophy in a planktonic foraminifer, Hastigerina pelagica (d'Orbigny). Biol. Bull., 151: 437–449.Google Scholar

Anderson, O. R. and Bé, A. W. H. 1976b. The ultrastructure of a planktonic foraminifer, Globigerinoides sacculifer (Brady) and its symbiotic dinoflagellates. J. Foram. Res., 6(1): 1–21.Google Scholar

Anderson, O. R. and Bé, A. W. H. 1978. Recent advances in foraminiferan fine structure research, In: Hedley, R. H. and Adams, C. G. (eds.), “Foraminifera”, 3: 121–202. Acad. Press, London.Google Scholar

Anderson, O. R., Spindler, M., Bé, A. W. H. and Hemleben, C. 1979. Trophic activity of planktonic foraminifera. J. Mar. Biol. Assoc. U.K., 59: 791–799.Google Scholar

Anglada, R. and Randrianasolo, A. J. O. 1971. Contribution à l'étude systématique du sous-ordre des Miliolina (Foraminiferida). Ann. univ. Provence, Sci., 46: 161–176.Google Scholar

Arthur, M. A. and Schlanger, S. O. 1979. Cretaceous “Oceanic Anoxic Events” as casual factors in development of reef-reservoired giant oil fields. Amer. Assoc. Petrol. Geol. Bull., 63: 870–885.Google Scholar

Balakhmatova, V. T. 1972. K sistematike semeystva Ataxophragmiidae Schwager, 1877. [On systematics of the family Ataxophragmiidae Schwager, 1877.] Akad. Nauk SSSR, Vopr. Mikropaleont., 5: 70–74.Google Scholar

Bandy, O. L. 1964. Foraminiferal biofacies in sediments of Gulf of Batabano, Cuba and their geologic significance. Amer. Assoc. Petrol. Geol., Bull. 48: 1666–1679.Google Scholar

Bandy, O. L. 1967. Cretaceous planktonic foraminiferal zonation. Micropaleontology, 13: 1–31.Google Scholar

Bandy, O. L. 1972. Origin and development of Globorotalia (Turborotalia) pachyderma. Micropaleontology, 18: 294–318.Google Scholar

Bandy, O. L. 1975. Messinian evaporite deposition and the Miocene/Pliocene boundary, Paquasia-Capodarso sections, Sicily, In: Saito, T., and Burckle, L.H. (eds.) Late Neogene epoch boundaries. Micropaleontology Spec. Pub. No. 1: 49–63.Google Scholar

Bandy, O. L., Ingle, J. C. Jr. and Resig, J. M. 1964. Foraminifera, Los Angeles County outfall area, California. Limnol. Oceanogr., 9: 124–137.Google Scholar

Bandy, O. L., Ingle, J. C. Jr. and Resig, J. M. 1965a. Modification of foraminiferal distribution by the Orange County outfall, California. Ocean Sci. Ocean Engineer., Trans. Marine Technol. Soc., 1965: 54–76.Google Scholar

Bandy, O. L., Ingle, J. C. Jr. and Resig, J. M. 1965b. Foraminiferal trends, Hyperion outfall, California. Limnol. Oceanogr., 10: 314–332.Google Scholar

Banner, F. T. 1966. Morfologiya, klassifikatsiya i stratigraficheskoe znachenie spirotsiklinid. [Morphology, classification and stratigraphic significance of the Spirocyclinidae.] Adad. Nauk. SSSR, Vopr. Mikropaleontol., 10: 201–224.Google Scholar

Banner, F. T. 1970. A synopsis of the Spirocyclinidae. Revta. Esp. Micropaleontol., 2: 243–290.Google Scholar

Banner, F. T. 1971. A new genus of the Planorbulinidae, an endoparasite of another foraminifer: Rev. Esp. Micropaleontol., 3: 113–128.Google Scholar

Banner, F. T. and Blow, W. H. 1960. Some primary types of species belonging to the superfamily Globigerinacea. Contr. Cushman Found. Foram. Res., 11: 1–41.Google Scholar

Banner, F. T. and Pereira, C. P. G. 1981. Some biserial and triserial agglutinated smaller foraminifera: their wall structure and its significance. J. Foram. Res., 11: 85–117.Google Scholar

Barker, P. F. and Burrell, J. 1977. The opening of Drake Passage. Mar. Geol., 24: 15–34.Google Scholar

Barnard, T. and Banner, F. T. 1980. The Ataxophragmiidae of England: Part I. Albian-Cenomanian Arenobulimina and Crenaverneuilina. Revta. Esp. Micropaleontol., 12: 383–430.Google Scholar

Barr, F. T. and Berggren, W. A. 1982. Lower Tertiary biostratigraphy and tectonics of northeastern Libya. 2nd Symposium on the Geology of Libya, Tripoli: 163–192.Google Scholar

Bates, J. M. and Spencer, R. S. 1979. Modification of foraminiferal trends by the Chesapeake-Elizabeth sewage outfall, Virginia Beach, Virginia. J. Foram. Res., 9: 125–140.Google Scholar

Batjes, D. A. J. 1958. Foraminifera of the Oligocene of Belgium. Inst. Roy. Sci. Natur. Belg. Mem. 143: 1–187.Google Scholar

Baum, G., Vail, P. R. and Hardenbol, J. 1982. Unconformities and depositional sequences in relationship to eustatic sea-level changes: Gulf and Atlantic coastal plains. IGCP Proj. 174 Field Conference, Baton Rouge, Jan. 19–29, 1981.Google Scholar

Bé, A. W. H. 1968. Shell porosity of Recent planktonic foraminifera as a climatic index. Science, 161 (3844): 881–884.Google Scholar

Bé, A. W. H. 1980. Gametogenic calcification in a spinose planktonic foraminifer, Globigerinoides sacculifer (Brady). Mar. Micropaleontol. 5(3): 283–310.CrossRef Google Scholar

Bé, A. W. H. and Anderson, O. R. 1976. Gametogenesis in planktonic foraminifera. Science, 192 (4242): 890–892.Google Scholar

Bé, A. W. H., Caron, D. A. and Anderson, O. R. 1981. Effects of feeding frequency on life processes of the planktonic foraminifer Globigerinoides sacculifer (Brady) in laboratory culture. J. Mar. Biol. Assoc. U.K., 61(1): 257–277.CrossRef Google Scholar

Bé, A. W. H. and Ericson, D. B. 1963. Aspects of calcification in planktonic foraminifera, In: Comparative Biology of Calcified Tissues. New York Acad. Sci. Trans., 109 (1): 65–81.Google Scholar

Bé, A. W. H., Frerichs, W. E., Harrison, R. and Heiman, M. E. 1976. Variability in test porosity of Orbulina universa d'Orbigny at two Indian Ocean localities: Prog. Micropaleontol. Asano Mem. Vol.: 1–11.Google Scholar

Bé, A. W. H., Hemleben, C., Anderson, O. R., Spindler, M., Hacunda, J. and Tuntivate-Choy, S. 1977. Laboratory and field observations of living planktonic foraminifera. Micropaleontology, 23(2): 155–179.Google Scholar

Bé, A. W. H., Hemleben, C., Anderson, O. R. and Spindler, M. 1979. Chamber formation in planktonic foraminifera. Micropaleontology, 25(3): 294–307.CrossRef Google Scholar

Bé, A. W. H., Hemleben, C., Anderson, O. R. and Spindler, M. 1980. Pore structures in planktonic foraminifera. J. Foram. Res., 10(2): 117–128.CrossRef Google Scholar

Bé, A. W. H. and Lott, L. 1964. Shell growth and structure of planktonic foraminifera. Science, 145(3634): 823–824.Google Scholar

Bé, A. W. H. and Spero, H. 1981. Shell regeneration and biological recovery of planktonic foraminifera after physical injury induced in laboratory culture. Micropaleontology, 27(3): 305–316.CrossRef Google Scholar

Bé, A. W. H., Spero, H. and Anderson, O. R. 1982. Effects of symbiont elimination and reinfection on the life processes of the planktonic foraminifer Globigerinoides sacculifer. Mar. Biol. Google Scholar

Bé, A. W. H. and Tolderlund, D. S. 1971. Distribution and ecology of living planktonic foraminifera in surface waters of the Atlantic and Indian Oceans, In: Funnell, B. M. and Riedel, W. R., (eds.), The Micropalaeontology of Oceans: 105–149, Cambridge University Press.Google Scholar

Beckmann, J. P. 1960. Distribution of benthonic foraminifera at the Cretaceous-Tertiary boundary of Trinidad (West Indies). Rept. Intern. Geol. Congr., 21st sess., Norden, Copenhagen, Part 5: 57–69.Google Scholar

Belyaeva, N. V. 1964. Distribution of planktonic foraminifera in the water and on the floor of the Indian Ocean. Trudy Inst. Okeanol. Akad. Nauk SSSR., 69: 12–83.Google Scholar

Benson, R. H. 1975. The origin of the psychrosphere as recorded in changes of deep-sea ostracode assemblages. Lethaia, 8: 69–83.Google Scholar

Berger, W. H., and Winterer, E. L. 1974. Plate stratigraphy and the fluctuating carbonate line, In: Hsu, K. J. and Jenkyns, H. C. (eds.), Pelagic sediments on land and under the sea. Intl. Assoc. Sedimentol. Spec. Publ., 1: 11–48.Google Scholar

Berggren, W. A. 1962. Some planktonic foraminifera from the Maestrichtian and type Danian Stages of southern Scandinavia. Stockholm Contrib. Geol., 9: 1–106.Google Scholar

Berggren, W. A. 1969. Cenozoic chronostratigraphy, planktonic foraminiferal zonation and the radiometric time scale. Nature, 224: 1072–1075.Google Scholar

Berggren, W. A. 1971. Tertiary boundaries and correlations, In: Gunnell, B. M., and Riedel, W. R. (eds.), Micropaleontology of the Oceans: 693–809. Cambridge Univ. Press.Google Scholar

Berggren, W. A. 1972a. Cenozoic biostratigraphy and paleobiogeography of the North Atlantic, Init. Rept. Deep Sea Drill. Proj., 12: 965–1001.Google Scholar

Berggren, W. A. 1972b. A Cenozoic time-scale - some implications for regional geology and paleobiology. Lethaia, 5: 195–215.Google Scholar

Berggren, W. A. 1974a. Late Paleocene-Early Eocene benthonic foraminiferal biostratigraphy and paleoecology of Rockall Bank. Micropaleontology, 20: 426–448.Google Scholar

Berggren, W. A. 1974b. Paleocene benthonic foraminiferal biostratigraphy, biogeography and paleoecology of Libya and Mali. Micropaleontology, 20: 449–465.Google Scholar

Berggren, W. A. 1977. North Atlantic Cenozoic foraminifera, In: Swain, F. M. (ed.), Stratigraphic Micropaleontology of Atlantic Basins and Borderlands: 389–410, Elsevier, Amsterdam.Google Scholar

Berggren, W. A. and Aubert, J. 1975. Paleocene benthonic foraminiferal biostratigraphy and paleoecology of Atlantic-Tethyan regions: Midway-type fauna. Palaeogeogr. Palaeoclimatol., Palaeoecol., 18: 73–192.Google Scholar

Berggren, W. A. and Aubert, J. 1976. Late Paleogene (Late Eocene and Oligocene) benthonic foraminiferal biostratigraphy and paleobathymetry of Rockall Bank and Hatton-Rockdall basin. Micropaleontology 22: 307–326.Google Scholar

Berggren, W. A. and Aubert, J. in press. Paleogene benthonic foraminiferal biostratigraphy and bathymetry of the central Coast Ranges of California. U.S. Geol. Surv. Prof. Paper. Google Scholar

Berggren, W. A. and Haq, B. U. 1976. The Andalusian Stage (Late Miocene): biostratigraphy, biochronology and paleoecology. Palaeogeogr., Palaeoclimatol., Palaeoecol., 20: 67–129.Google Scholar

Berggren, W. A. and Hollister, C. D. 1977. Plate tectonics and paleo-circulation - commotion in the ocean. Tectonophysics, 38: 11–48.Google Scholar

Berggren, W. A. and Phillips, J. D. 1971. The influence of continental drift on the distribution of Cenozoic benthonic foraminifera in the Caribbean and Mediterranean regions, In: Gray, C. (ed.), The Geology of Libya, Catholic Press, Beirut: 265–299.Google Scholar

Berggren, W. A. and Schnitker, D. in press. Cenozoic marine environments in the North Atlantic and Norwegian-Greenland Sea, In: Saxov, S. (ed.), Structure and development of the Greenland-Scotland Ridge, NATO Advanced Research Institute, Bressanone, Italy, May 11–16, 1981. Plenum Press, New York.Google Scholar

Berggren, W. A., et al. 1976. The El Cuervo section (Andalusia, Spain): micropaleontological anatomy of an Early Miocene lower bathyal deposit. Mar. Micropaleontol., 1: 195–247.Google Scholar

Berggren, W. A. and Van Couvering, J. A. 1974. The Late Neogene: biostratigraphy, geochronology and paleoclimatology of the last 15 million years in marine and continental sequences. Palaeogeogr., Palaeoclimatol., Palaeoecol., 16: 1–126.Google Scholar

Berggren, W. A. and Van Couvering, J. A. 1978. Biochronology, In: Cohee, G. V., Glaessner, M. F., and Hedberg, H. D. (eds.), The geologic time scale, studies in geology. Amer. Assoc. Petrol. Geol. Mem. 6: 39–55.Google Scholar

Bergstresser, T. J. 1982. Planktonic foraminifera from the Upper Cretaceous Pierre Shale at Red Bird, Wyoming. J. Foram. Res., in press.Google Scholar

Bermudez, P. J. and de Rivero, F. C. 1963. Estudio systematico de los foraminiferos quitinosos, microgranulares y arenaceos. Univ. Cent. Venezuela, Ed. Bibl. 14, Colec. Cien. Biol. 1, Caracas, 398 p.Google Scholar

Betjeman, K. J. 1969. Recent foraminifera from the western continental shelf of Western Australia. Contr. Cushman Found. Foram. Res., 20: 119–138.Google Scholar

Bilyard, G. R. 1974. The feeding habits and ecology of Dentalium entale simpsoni Henderson. Veliger, 17: 126–138.Google Scholar

Blainville, H. M. D. de. 1825. Manuel de malacologie et de conchyliologie. (1837), F. G. Levrault, Paris, 664 p.Google Scholar

Blanc, P.-L., et al. 1980. North Atlantic deep water formed by the later middle Miocene. Nature, 283: 553–555.CrossRef Google Scholar

Blow, W. H. 1969. Late Middle Eocene to Recent planktonic foraminiferal biostratigraphy, In: Brönnimann, P., and Renz, H. H. (eds.), First Int. Conf. Plankt. Microfossils, Geneva: 199–421.Google Scholar

Blow, W. H. 1979. The Cainozoic Globigerinida. A study of the morphology taxonomy, evolutionary relationships and the stratigraphical distribution of some Globigerinida (mainly Globigerinacea). Text, pt. II, sec. 2, Danian to Oligocene planktonic foraminiferal biostratigraphy. ix + 753–1413 p., E. J. Brill, Leiden.Google Scholar

Bolli, H. M. 1957a. The genera Praeglobotruncana, Rotalipora, Globotruncana, and Abathomphalus in the Upper Cretaceous of Trinidad, B. W. I. U.S. Natl. Mus. Bull., 215: 51–60.Google Scholar

Bolli, H. M. 1957b. The genera Globigerina and Globorotalia in the Paleocene-lower Eocene Lizard Springs Formation of Trinidad, B. W. I. U.S. Natl. Mus. Bull., 215: 61–68.Google Scholar

Bolli, H. M. 1957c. Planktonic foraminifera from the Oligocene-Miocene Cipero and Lengua Formations of Trinidad, B. W. I. U.S. Natl. Mus. Bull., 215: 97–213.Google Scholar

Bolli, H. M. 1966. Zonation of Cretaceous to Pliocene marine sediments based on planktonic foraminifera. Bol. Inf. Asoz. Venez. Geol. Min. e Petr., 9: 3–32.Google Scholar

Boltovskoy, E. 1965a. Twilight of foraminiferology. J. Paleontol., 39: 383–390.Google Scholar

Boltovskoy, E. 1965b. Los foraminiferos Recientes; biologia, metodos de estudio, aplicacion oceanografica. EUDEBA, Buenos Aires, 510 p.Google Scholar

Boltovskoy, E. 1966. Depth at which foraminifera can survive in sediments. Contr. Cushman Found. Foram. Res., 17: 43–45.Google Scholar

Boltovskoy, E. 1980. On the benthonic bathyal-zone foraminifera as stratigraphic guide fossils. J. Foram. Res., 10: 163–172.Google Scholar

Boltovskoy, E., Giussani, G., Watanabe, S. and Wright, R. 1980. Atlas of Benthic Shelf Foraminifera of the Southwest Atlantic. 147 p., Dr. W. Junk, The Hague.Google Scholar

Boltovskoy, E. and Lena, H. 1971. The foraminifera (except family Allogromiidae) which dwell in fresh water. J. Foram. Res. 1: 71–76.Google Scholar

Boltovskoy, E. and Wright, R. 1976. Recent Foraminifera. 515 p., Dr. W. Junk, The Hague.Google Scholar

Bradshaw, J. S. 1955. Preliminary laboratory experiments on ecology of foraminiferal populations. Micropaleontology, 1: 351–358.Google Scholar

Bradshaw, J. S. 1959. Ecology of living planktonic foraminifera in the North and Equatorial Pacific Ocean. Contr. Cushmanman Found. Foram. Res., 10(2): 25–64.Google Scholar

Bradshaw, J. S. 1961. Laboratory experiments on the ecology of foraminifera. Contr. Cushman Found. Foram. Res. 12: 87–106.Google Scholar

Brady, H. B. 1876. A monograph of Carboniferous and Permian foraminifera (the genus Fusulina excepted). Paleontogr. Soc. Mon. 30: 1–166.Google Scholar

Brady, H. B. 1884. Report on the foraminifera dredged by H.M.S. Challenger, during the years 1873–1876. Rept. Sci. Res. Voy. H.M.S. Challenger, Zool. 9: 1–814.Google Scholar

Brand, T. E. and Lipps, J. H. 1982. Foraminifera in the trophic structure of shallow-water Antarctic marine communities. J. Foram. Res. 12: 96–104.Google Scholar

Brasier, M. D. 1975. The ecology and distribution of Recent foraminifera from the reefs and shoals around Barbuda, West Indies. J. Foram. Res., 5: 193–210.Google Scholar

Bremer, M. L. and Lohnmann, G. P. in press. Evidence for primary control of the distribution of certain Atlantic Ocean benthonic foraminifera by degree of carbonate saturation. Deep Sea Research. Google Scholar

Briggs, J. C. 1974. Marine Zoogeography. McGraw-Hill, New York, 475 p.Google Scholar

Brönnimann, P., Zaninetti, L., Bozorgnia, F., Dashti, G. R. and Moshtaghian, A. 1971. Lithostratigraphy and foraminifera of the Upper Triassic Naiband Formation, Iran. Revue Micropaleontol., 14: 7–16.Google Scholar

Brouwer, J. 1965. Agglutinated foraminiferal faunas from some turbidite sequences. I. II. K. Nederl. Akad. Wetensch. Proc., ser. B, 68: 309–334.Google Scholar

Browne, R. G. and Schott, V. J. 1963. Arenaceous foraminifera from the Osgood Formation Osgood, Indiana. Bull. Amer. Paleontol. 46: 191–234.Google Scholar

Buchanan, J. B. and Hedley, R. H. 1960. A contribution to the biology of Astrorhiza limicola. J. Mar. Biol. Assoc. U.K., 39: 549–560.Google Scholar

Buchardt, B. and Hansen, H. J. 1977. Oxygen isotope fractionation and algal symbiosis in benthic foraminifera. Bull. Geol. Soc. Denmark, 26: 185–194.Google Scholar

Buzas, M. A. 1967. An application of canonical analysis as a method for comparing faunal areas. Anim. Ecol., 36: 563–577.Google Scholar

Buzas, M. A. 1970. On the quantification of biofacies. Proc. N. Amer. Paleontol. Conv. 1969. B: 101–116.Google Scholar

Buzas, M. A. 1972. Biofacies analysis of presence or absence data through canonical variate analysis. J. Paleontol., 46: 55–57.Google Scholar

Buzas, M. A. 1974. Vertical distribution of Ammobaculites in the Rhode River, Maryland, J. Foram. Res., 4: 144–147.Google Scholar

Buzas, M. A. 1978. Foraminifera as prey for benthic deposit feeders: results of predator exclusion experiments. J. Mar. Res., 36: 617–625.Google Scholar

Buzas, M. A. 1979. Quantitative biofacies analysis, In: Lips, J. H., Berger, W. H., Buzas, M. A., Douglas, R. G. and Ross, C. A. Foraminiferal Ecology and Paleoecology. Soc. Econ. Paleontol. Mineral. Short Course No. 6: 11–20, Houston, 1979.Google Scholar

Buzas, M. A. 1982. Regulation of foraminiferal densities by predation in the Indian River, Florida. J. Foram. Res., 12: 66–71.CrossRef Google Scholar

Buzas, M. A. and Culver, S. J. 1979. Foraminifera: distribution of provinces in the western North Atlantic. Science 209: 687–689.CrossRef Google Scholar

Caron, D. A., Bé, A. W. H. and Anderson, O. R. 1982. Effects of variations in light intensity on life processes of the planktonic foraminifer Globigerinoides sacculifer in laboratory culture. J. Mar. Biol. Assoc. U.K., 62(2): 435–451.Google Scholar

Carpenter, W. B., Parker, W. K. and Jones, T. R. 1862. Introduction to the study of foraminifera. Roy. Soc. London, 319 p.Google Scholar

Cebulski, D. E. 1969. Foraminiferal populations and faunas in barrier-reef tract and lagoon, British Honduras. Amer. Assoc. Petrol. Geol. Mem., 11: 311–328.Google Scholar

Chapman, E. and Parr, W. J. 1936. A classification of the foraminifera. Proc. Roy. Soc. Vict. n. ser., 14: 139–151.Google Scholar

Charletta, A. C. Eocene benthic foraminiferal paleoecology and paleobathymetry of the New Jersey continental margin. Unpubl. Ph.D. dissert., Rutgers University: 73 p.Google Scholar

Christiansen, B. 1958. The foraminifer fauna in the Drobak Sound in the Oslo Fjord (Norway). Nutt Mag. Zool., 6: 5–91.Google Scholar

Christiansen, B. 1964. Spiculosiphon radiata, a new foraminifera from northern Norway. Astarte, 25: 1–8.Google Scholar

Cifelli, R. 1982. Textural observations on some living species of planktonic foraminifera. Smithsonian Contr. Paleobiol. 45: 1–44.Google Scholar

Closs, D. 1963. Foraminiferos e Tecamebas da Lagoa dos Patos (R. G. S.) Bol. escol. Geol. Univ. Rio Grande do Sul, Porto Alegre, 11: 1–130.Google Scholar

Closs, D. and Medeiros, V. M. F. 1965. New observations on the ecological subdivision of the Patos Lagoon in southern Brazil. Bol. Inst. Cienc. Nat. Univ. Rio Grande do Sul, Porto Alegre, 24: 7–33.Google Scholar

Collinson, P. 1980. Vertical distribution of foraminifera off the coast of Northumberland, England. J. Foram. Res., 10: 75–78.Google Scholar

Conkin, J. E. 1954. Hyperammina kentuckyensis n. sp. from the Mississippian of Kentucky, and discussion of Hyperammina and Hyperamminoides. Contrib. Cushman Found. Foram. Res., 5: 165–169.Google Scholar

Conkin, J. E. 1961. Mississippian smaller foraminifera of Kentucky, southern Indiana, northern Tennessee, and south-central Ohio. Bull. Amer. Paleontol., 43: 131–368.Google Scholar

Conkin, J. E. and Ciesielski, P. 1973. Lower Mississippian (Kinderhookian) arenaceous foraminifera from the Maury Formation at Gipsy, Limestone County, Alabama. Alabama Geol. Surv. Bull. 103: 1–54.Google Scholar

Conkin, J. E. and Conkin, B. M. 1960. Silurian and Devonian foraminifera of Kentucky. Geol. Soc. Amer. Abst. S.E. Sec., p. 89.Google Scholar

Conkin, J. E. and Conkin, B. M. 1964a. Devonian foraminifera: Part I, the Louisiana Limestone of Missouri and Illinois. Bull. Amer. Paleontol., 43: 53–105.Google Scholar

Conkin, J. E. and Conkin, B. M. 1964b. Mississippian foraminifera of the United States: Part 1 - the Northview Formation of Missouri. Micropaleontology, 10: 19–46.Google Scholar

Conkin, J. E. and Conkin, B. M. 1965. Ordovician (Richmondian) foraminifera from Oklahoma, Missouri, Illinois, and Kentucky. Oklahoma Geol. Notes, 25: 207–221.Google Scholar

Conkin, J. E. and Conkin, B. M. 1967. Arenaceous foraminifera as a key to Upper Devonian-Lower Mississippian relationships in the type Mississippian area, In: Teichert, C. and Yochelson, E. L., (eds.), Essays in Paleontology and Stratigraphy. Kansas Univ. Dept. Geol., Spec. Publ., No. 2: 85–101.Google Scholar

Conkin, J. E. and Conkin, B. M. 1968. A revision of some Upper Devonian foraminifera from Western Australia. Palaeontology, 11: 601–609.Google Scholar

Conkin, J. E. and Conkin, B. M. 1970a. North American Kinderhookian (Lower Mississippian) arenaceous foraminifera. 6th Internat. Congr. Strat. Geol. Carbonif., Sheffield. 2: 575–584.Google Scholar

Conkin, J. E. and Conkin, B. M. 1970b. Middle Devonian arenaceous foraminifera of central Ohio: Part 1 - Revision of the genus Webbinelloidea Stewart and Lampe, 1947. Micropaleontology, 16: 1–14.Google Scholar

Conkin, J. E. and Conkin, B. M. 1971. Arenaceous foraminifera from the Lower Mississippian Banff Formation of the Crowsnest area, British Columbia-Alberta, Canada. 7th Internat. Cong. Strat. and Geol. Carbonif., Krefeld, p. 39.Google Scholar

Conkin, J. E. and Conkin, B. M. 1973a. Pre-Pennsylvanian foraminifera of North America. 12th Internat. Geol. Congr., India, p. 319–335.Google Scholar

Conkin, J. E. and Conkin, B. M. 1973b. The paracontinuity and the determination of the Devonian-Mississippian boundary in the type Lower Mississippian area of North America. Univ. Louisville Stud. Paleontol. Stratig., 1: 1–34.Google Scholar

Conkin, J. E. and Conkin, B. M. 1977. Paleozoic smaller foraminifera of the North Atlantic Borderlands, In: Swain, F. M., Stratigraphic Micropaleontology of Atlantic Basin and Borderlands, p. 49–59, Elsevier, Amsterdam.Google Scholar

Conkin, J. E. and Conkin, B. M. 1979. North American Ordovician agglutinate foraminifera. Univ. Louisville Stud. Paleontol. Stratig., 8: 1–24.Google Scholar

Conkin, J. E. and Conkin, B. M. 1981. Early Mississippian (Kinderhookian) smaller foraminifera from the McCraney Limestone of Missouri and Illinois. Univ. Louisville Stud. Paleontol. Stratig., 15: 1–39.Google Scholar

Conkin, J. E. and Conkin, B. M. 1982. Agglutinate foraminifera from the Early Mississippian (Kinderhookian) Caballero Formation of New Mexico. 9th Internat. Cong. Strat. Geol. Carbonif. C. R., in press.Google Scholar

Conkin, J. E., Conkin, B. M. and Canis, W. F. 1968. Mississippian foraminifera of the United States: Part 3: The limestones of the Chouteau Group in Missouri and Illinois. Micropaleontology, 14: 133–178.Google Scholar

Conkin, J. E., Conkin, B. M., and McDonand, D. E. 1963. Mississippian smaller foraminifera from the Southern Peninsula of Michigan. Micropaleontology, 9: 215–227.Google Scholar

Conkin, J. E., Conkin, B. M. and Pike, J. W. 1965. Mississippian foraminifera of the United States: Part 2 - The Hannibal Formation of northeastern Missouri and western Illinois. Micropaleontology, 11: 335–359.Google Scholar

Conkin, J. E., Conkin, B. M., Sawa, T. and Kern, M. 1970. Middle Devonian Moellerina greenei Zone and suppression of the genus Weikkoella Summerson, 1958. Micropaleontology, 16: 399–406.Google Scholar

Conkin, J. E., Conkin, B. M. and Thurman, E. D. 1979. Inauris and Sorosphaerella, new genera of Paleozoic agglutinate foraminifera, and their stratigraphic significance. Univ. Louisville Stud. Paleontol. Stratig., 10: 1–12.Google Scholar

Conkin, J. E., Conkin, B. M., Walton, M. M. and Neff, E. D. 1981. Devonian and Early Mississippian smaller foraminiferans of southern Indiana and northwestern Kentucky. Geol. Soc. Amer. Guide. Field Trip, No. 2: 87–112.Google Scholar

Conkin, J. E. and MacFarquhar, W. 1971. Foraminiferal genus Pelosina in the Caribbean and its relationships to the Paleozoic problematic genus Thuramminoides. Trans. Fifth Carib. Geol. Conf., Geol. Bull., 5: 137–139.Google Scholar

Conkin, J. E. and Wang, Ke-liang. 1980. Chinese Paleozoic agglutinate foraminifera and their stratigraphic significance: Part 1 - Hyperammina kentuckyensis guangxiensis, new subspecies, from South China. Univ. Louisville Stud. Paleontol. Stratig., 14: 1–14.Google Scholar

Coomans, H. E. 1962. The marine mollusk fauna of the Virginian area as a basis for defining zoogeographical provinces. Beaufortia, 9: 83–104.Google Scholar

Cooper, C. L. 1947. Upper Kinkaid (Mississippian) microfauna from Johnson County, Illinois. J. Paleontol., 21: 81–94.Google Scholar

Corliss, B. H. 1979a. Response of deep-sea benthonic foraminifera to development of the psychrosphere near the Eocene/Oligocene boundary. Nature, 282: 63–65.Google Scholar

Corliss, B. H. 1979b. Quaternary Antarctic bottom water history; benthonic foraminiferal evidence from the southeast Indian Ocean. Quat. Res., 12: 271–289.Google Scholar

Corliss, B. H. 1981. Deep-sea benthonic foraminiferal faunal turnover near the Eocene/Oligocene boundary. Mar. Micropaleontol., 6: 367–384.Google Scholar

Corliss, B. H. in press. Quaternary circulation of the Antarctic Circumpolar Current.Google Scholar

Croneis, C. and Toomey, D. F. 1965. Gunsight (Virgilian) wewokellid sponges and their depositional environment. J. Paleontol. 39: 1–16.Google Scholar

Culver, S. J. 1980. Bibliography of North American Recent benthic foraminifera. J. Foram. Res., 10: 286–302.Google Scholar

Culver, S. J. and Buzas, M. A. 1980. Ditribution of recent benthic foraminifera off the North American Atlantic Coast. Smithsonian Contr. Mar. Sci. 6: 1–512.Google Scholar

Culver, S. J. and Buzas, M. A. 1981a. Recent benthic foraminiferal provinces on the Atlantic continental margin of North America. J. Foram. Res., 11: 217–240.Google Scholar

Culver, S. J. and Buzas, M. A. 1981b. Distribution of recent benthic foraminifera in the Gulf of Mexico. Smithsonian Contr. Mar. Sci., 8: 1–898.Google Scholar

Culver, S. J. and Buzas, M. A. 1981c. Foraminifera: distribution of provinces in the Gulf of Mexico. Nature, 290: 328–329.Google Scholar

Culver, S. J. and Buzas, M. A. 1982a. Distribution of recent benthic foraminifera in the Caribbean region. Smithsonian Contr. Mar. Sci. (13): (in press).Google Scholar

Culver, S. J. and Buzas, M. A. 1982b. Recent benthic foraminiferal provinces between Newfoundland and Yucatan. Geol. Soc. Amer. Bull., 93: 269–277.Google Scholar

Culver, S. J. and Buzas, M. A. in press. Recent benthic foraminiferal provinces in the Gulf of Mexico. J. Foram. Res. Google Scholar

Cummings, R. H. 1955. Nodosinella Brady, 1876 and associated Upper Paleozoic genera. Micropaleontology, 1: 221–238.Google Scholar

Cummings, R. H. 1956. Revision of the Upper Paleozoic textularid foraminifera. Micropaleontology, 2: 201–242.Google Scholar

Curry, W. B. and Lohmann, G. P. in press. Change in the distribution of ¹³C in deep water of the North Atlantic during the last glaciation.Google Scholar

Cushman, J. A. 1910–1916. A monograph of the foraminifera of the North Pacific Ocean. U.S. Natl. Mus. Bull., 71(1–6): 1–59.Google Scholar

Cushman, J. A. 1918–1931. The foraminifera of the Atlantic Ocean. U.S. Natl. Mus. Bull. 104(108): 1–1064.Google Scholar

Cushman, J. A. 1918. The foraminifera of the Atlantic Ocean, Part 1, Astrorhizidae. U.S. Natl. Mus. Bull. 104(1): 1–111.Google Scholar

Cushman, J. A. 1926. The foraminifera of the Velasco Shale of the Tampico Embayment. Amer. Assoc. Petrol. Geol. Bull., 10: 583.Google Scholar

Cushman, J. A. 1927. An outline of a re-classification of the foraminifera. Contr. Cushman Lab. Foram. Res., 3: 1–105.Google Scholar

Cushman, J. A. 1928a. Foraminifera du Stampien du Basin de Paris. Bull. Soc. Sci. Seine-et-oise, 11 p.Google Scholar

Cushman, J. A. 1928b. Foraminifera, their classification and economic use. Cushman Lab Foram. Res. Spec. Publ. 1: 1–401.Google Scholar

Cushman, J. A. 1930. Notes on early Paleozoic foraminifera. Contrib. Cushman Lab. Foram. Res., 6: 43–44.Google Scholar

Cushman, J. A. 1940. Foraminifera Their Classification and Economic Use. 3rd ed. Harvard Univ. Press, Cambridge, 535 p.Google Scholar

Cushman, J. A. 1948. Foraminifera: Their Classification and Economic Use. 4th Ed. Harvard Univ. Press. Cambridge, 588 p.Google Scholar

Cushman, J. A. 1950. Cushman Card Catalog of Foraminifera. U.S. Geol. Surv., Washington, 33 16 mm microfilm reels.Google Scholar

Cushman, J. A. 1951. Paleocene foraminifera of the Gulf Coast region of the United States and adjacent areas. U.S. Geol. Surv. Prof. Paper 232: 1–75.Google Scholar

Cushman, J. A. and Cahill, E. D. 1933. Miocene foraminifera of the coastal plain of the United States. U.S. Geol. Surv. Prof. Paper 175-A: 1–50.Google Scholar

Cushman, J. A. and Renz, H. H. 1946. The foraminiferal fauna of the Lizard Springs Formation of Trinidad, British West Indies. Cushman Lab. Foram. Res. Spec. Publ., 18: 1–48.Google Scholar

Cushman, J. A. and Waters, J. A. 1927a. Pennsylvanian foraminifera from Michigan. Contrib. Cushman Lab. Foram. Res., 3: 107–110.Google Scholar

Cushman, J. A. and Waters, J. A. 1927b. Arenaceous Paleozoic foraminifera from Texas. Contrib. Cushman Lab. Foram. Res., 3: 146–153.Google Scholar

Cushman, J. A. and Waters, J. A. 1928a. Upper Paleozoic foraminifera from Sutton County, Texas. J. Paleontol., 2: 358–371.Google Scholar

Cushman, J. A. and Waters, J. A. 1928b. The development of Climacammina and its allies in the Pennsylvanian of Texas. J. Paleontol., 2: 119–130.Google Scholar

Cushman, J. A. and Waters, J. A. 1928c. Some foraminifera from the Pennsylvanian and Permian of Texas. Contrib. Cushman Lab. Foram. Res., 4: 31–55.Google Scholar

Cushman, J. A. and Waters, J. A. 1928d. Additional Cisco foraminifera from Texas. Contrib. Cushman. Lab. Foram. Res., 4: 6–67.Google Scholar

Cushman, J. A. and Waters, J. A. 1930. Foraminifera of the Cisco Group of Texas. Texas Univ. Bull., 3019: 22–80.Google Scholar

Dana, J. D. 1853a. Crustacea. U.S. Exploring Expedition, Report 1838–1842. 14: 690–1618.Google Scholar

Dana, J. D. 1853b. On an isothermal oceanic chart illustrating the geographical distribution of marine animals. Amer. J. Sci., 16: 153–167, 314–327.Google Scholar

Delaca, T. E. in press. Use of dissolved amino acids by the foraminifer Notodendrodes antarctikos. Amer. Zool. Google Scholar

Delaca, T. E., Karl, D. M. and Lipps, J. H. 1981. Direct use of dissolved organic carbon by agglutinated benthic foraminifera. Nature 289: 287–289.Google Scholar

Delaca, T. E. and Lipps, J. H. 1972. The mechanism and adaptive significcance of attachment and substrate pitting in the foraminiferan Rosalina globularis (d'Orbigny). J. Foram. Res., 2: 68–72.Google Scholar

Delaca, T. E., Lipps, J. H. and Hessler, R. R. 1980. The morphology and ecology of a new large agglutinated Antarctic foraminifer (Textulariina: Notodendrodidae nov.). J. Linnaean Soc. London, Zool., 69: 205–224.Google Scholar

Delage, Y. and Herouard, E. 1896. Traité de zoologie concrète. Tome 1. La cellule et les Protozoaires. 868 p., Schleicher Feres, Paris.Google Scholar

Dietrich, G., et al. 1980. General Oceanography, 2nd ed. 626 p., John Wiley, New York.Google Scholar

Douglas, R. G. 1973. Benthonic foraminiferal biostratigraphy in the central North Pacific, Leg 17, Deep Sea Drilling Project. Init. Rept. Deep Drill. Proj., 17: 607–671.Google Scholar

Douglas, R. G. 1981. Paleoecology of continental margin basins: A modern case history from the borderland of Southern California, In: Douglas, R. G., Colburn, I. P., and Gorsline, D. S. (eds.), Depositional systems of active continental margin basins: short course notes: Soc. Econ. Paleontol. Mineral., Pacific Section, Los Angeles, p. 121–156.Google Scholar

Douglas, R. G. and Savin, S. M. 1975. Oxygen and carbon isotope analyses of Tertiary from Shatsky Rise and other sites in the North Pacific Ocean, Init. Rept. Deep Sea Drill. Proj., 32: 509–520.Google Scholar

Douglas, R. G. and Savin, S. M. 1978. Oxygen isotopic evidence for the depth stratification of Tertiary and Cretaceous planktonic foraminifera. Mar. Micropaleontol., 3: 175–196.Google Scholar

Douglas, R. and Woodruff, F. 1981. Deep-sea benthic foraminifera, In: Emiliani, C. (ed.), The Oceanic Lithosphere. The Sea, 7: 1233–1327. Interscience, New York.Google Scholar

Duguay, L. E. and Taylor, D. L. 1978. Primary production and calcification by the soritid foraminifer Archais angulatus (Fitchell and Moll). J. Protozool., 25: 356–361.Google Scholar

Dujardin, F. 1835. Observations nouvelles sur less prétendus céphalopodes microscopiques. Ann. Sci. Nat. ser. 2, 3: 312–314.Google Scholar

Dunn, P. H. 1931. The foraminifera of the Bainbridge. Ohio J. Sci., 31; 279.Google Scholar

Dunn, P. H. 1942. Silurian foraminifera of the Mississippi Basin. J. Paleontol., 16: 317–342.Google Scholar

Duplessy, J. -C., Blanc, P. -L. and Be, A. W. H. 1981. Oxygen-18 enrichment of planktonic foraminifera due to gametogenic calcification below the euphotic zone. Science, 213: 1247–1250.Google Scholar

Duplessy, J. -C., Moyes, M. and Pujol, C. 1980. Deep water formation in the North Atlantic Ocean during the last ice age. Nature, 286: 479–482.Google Scholar

Eicher, D. L. 1967. Cenomanian and Turonian foraminifera from the western interior of the United States. Proc. 1 Int. Conf. plankt. foram: 163–176, Leiden, E. J. Brill.Google Scholar

Eisenack, A. 1932. Neue Mikrofossilen des baltischen Silurs. II. Palaeontol. Z. 14: 257–277.Google Scholar

Eisenack, A. 1937. Neue Microfossilen des baltischen Silurs. IV. Palaeontol. Z. 19: 217–243.Google Scholar

Eisenack, A. 1954. Foraminiferen aus dem baltischen Silurs. Senk. Leth. 35: 51–72.Google Scholar

Eldredge, N. and Gould, S. J. 1972. Punctuated equilibria: an alternative to phyletic gradualism, In: Schopt, T. J. M. (ed.), Models in Paleobiology: 82–115, Freeman, Cooper and Co., San Francisco, Calif. Google Scholar

Ellis, B. F. and Messina, A. R. 1940–1982. Catalogue of the foraminifera. Amer. Mus. Nat. Hist., New York; Supplements (yearly).Google Scholar

El-Naggar, Z. R. 1971. On the classification, evolution and stratigraphical distribution of the Globigerinacea, In: Farinacci, A., Proc. II Planktonic Conf. 1: 421–476, Edizioni Tecnoscienze, Rome.Google Scholar

Ekman, S. 1953. Zoogeography of the Sea. 417 p. Sidgwick and Jackson, London.Google Scholar

Fleisher, R. L. 1974. Cenozoic planktonic foraminifera and biostratigraphy, Arabian Sea Deep Sea Drilling Project, Leg 23A. Init. Rept. Deep Sea Drill Proj., 23A: 1001–1072.Google Scholar

Frankel, L. 1972. Subsurface reproduction in foraminifera. J. Paleontol., 46: 62–65.Google Scholar

Frankel, L. 1975. Subsurface feeding in foraminifera. J. Paleontol., 49: 563–565.Google Scholar

Franz, D. R. and Merrill, A. S. 1980. Molluscan distribution patterns on the continental shelf of the Middle Atlantic Bight (Northwest Atlantic). Malacologia, 19: 209–225.Google Scholar

Frerichs, W. E. 1979. Planktonic foraminifera from the Sage Breaks Shale, Centennial Valley, Wyoming. J. Foram. Res., 9: 159–184.Google Scholar

Frerichs, W. E. 1980a. Age of the western interior Clioscaphites chouteauensis Zone. J. Paleontol., 54: 366–370.Google Scholar

Frerichs, W. E. 1980b. Paleoceanographic control of planktonic foraminiferal distributions in the Upper Cretaceous Niobrara Formation of the western interior. Cushman Found. Foram. Res. Spec. Pub., 19: 196–201.Google Scholar

Frerichs, W. E. and Adams, P. R. 1973. Correlation of the Hilliard Formation with the Niobrara Formation: Wyoming Geol. Assoc., Guidebook, 25th Field Conf: 187–192.Google Scholar

Frerichs, W. E., Atherton, C. C. and Shive, P. N. 1975. Planktonic foraminifera from the chalky members of the Niobrara Formation, Centennial Valley, Wyoming. J. Foram. Res., 5: 294–312.Google Scholar

Frerichs, W. E. and Bergstresser, J. J. 1982. Planktonic foraminifera from the Late Cretaceous Fort Hays Limestone of the Western Interior (in preparation).Google Scholar

Frerichs, W. E. and Dring, N. B. 1981. Planktonic foraminifera from the Smoky Hill Shale of West Central Kansas. J. Foram. Res., 11: 47–69.Google Scholar

Frerichs, W. E. and Ely, R. 1978. Test porosity as a paleoenvironmental tool in the Late Cretaceous of the Western Interior. Contrib. to Geol. 16: 89–94.Google Scholar

Frerichs, W. E. and Gaskill, C. H. 1978. Textilaria americana Ehrenberg, type series of Heterohelix. J. Foram. Res., 8: 143–146.Google Scholar

Frerichs, W. E., Heiman, M. E., Borgman, L. E. and Bé, A. W. H. 1971. Latitudinal variations in planktonic foraminiferal test porosity: Part 1 optical studies. J. Foram. Res., 2: 6–13.Google Scholar

Frerichs, W. E., Pokras, E. M. and Evetts, M. J. 1977. The genus Hastigerinoides and its significance in the biostratigraphy of the western interior. J. Foram. Res., 7: 149–156.Google Scholar

Galloway, J. J. 1933. A manual of foraminifera. James Furman Kemp Memorial Ser., Pub. 1. 483 p., Principia Press, Bloomington, Ind. Google Scholar

Galloway, J. J. and Harlton, B. H. 1928. Some Pennsylvanian foraminifera of Oklahoma with special reference to the genus Orobias. J. Paleontol., 2: 338–357.Google Scholar

Galloway, J. J. and Ryniker, C. 1930. Foraminifera from the Atoka Formation of Oklahoma. Oklahoma Geol. Surv., Circ. 21: 1–37.Google Scholar

Gerlach, S. A. 1972. Substratum: General introduction, In: Kinne, O. (ed.), Marine Ecology, 1(3): 1245–1250, John Wiley, New York.Google Scholar

Gevirtz, J. L., Park, R. A. and Friedman, G. M. 1971. Paraecology of benthic foraminifera and associated micro-organisms of the continental shelf off Long Island, New York. J. Paleontol., 45: 153–177.Google Scholar

Gibson, T. G. 1967. Stratigraphy and paleoenvironment of phosphatic Miocene strata of North Carolina. Geol. Soc. Amer. Bull., 78: 631–650.Google Scholar

Gibson, T. G. 1968. Stratigraphy and paleoenvironment of the phosphatic Miocene strata of North Carolina: Reply. Geol. Soc. Amer. Bull., 79: 1437–1448.Google Scholar

Gibson, T. G. and Buzas, M. A. 1973. Species diversity: patterns in modern and Miocene foraminifera of the eastern margin of North America. Geol. Soc. Amer. Bull., 84: 217–238.Google Scholar

Glaessner, M. F. 1945. Principles of micropalaeontology. Melbourne Univ. Press, Melbourne, 296 p.Google Scholar

Golik, A. and Phleger, F. B. 1977. Benthonic foraminifera from the Gulf of Panama. J. Foram. Res., 7: 83–99.Google Scholar

Gould, S. J. and Eldredge, N. 1977. Punctuated equilibria: the tempo and mode of evolution reconsidered. Paleobiology, 3: 115–151.Google Scholar

Gradstein, F. M. and Berggren, W. A. 1981. Flysch-type agglutinated foraminiferal assemblages and the Maestrichtian through Paleogene history of the Labrador and North Seas. Mar. Micropaleontol., 6: 211–268.Google Scholar

Gradstein, F. M., Miller, K. G. and Berggren, W. A. 1981. Depth independence of flysch-type agglutinated foraminifera. First Workshop on Arenaceous Foraminifera, September 7–9, Amsterdam: 16–17.Google Scholar

Gradstein, F. M. and Srivastava, S. P. 1980. Aspects of Cenozoic stratigraphy and paleoceanography of the Labrador Sea and Baffin Bay. Palaeogeogr., Palaeoclimatol., Palaeoecol., 30: 261–295.Google Scholar

Grell, K. G. 1973. Protozoology. Springer-Verlag, New York, 554 p.Google Scholar

Grell, K. G. 1979. Cytogenetic systems and evolution in foraminifera. J. Foram. Res., 9: 1–13.Google Scholar

Grice, G. D. and Hart, A. C. 1962. The abundance, seasonal occurence and distribution of the epizooplankton between New York and Bermuda. Ecol. Monogr., 32: 287–309.Google Scholar

Grigyalis, A. A. 1978. O vysshikh taksonakh foraminifer. [Concerning higher taxa of the foraminifera.] Paleont. Zh., 1978 (1): 3–12.Google Scholar

Grubbs, D. M. 1939. Fauna of the Niagaran nodules of the Chicago area. J. Paleontol., 16: 317–342.Google Scholar

Gutschick, R. C. 1960. Early Mississippian (Lower Carboniferous-Tournaisian) micropaleontology in the United States. 21st Internat. Geol. Congr., Pre-Quaternary Micropaleontol., 114–134.Google Scholar

Gutschick, R. C. 1962. Arenaceous foraminifera from oncolites in the Mississippian Sappington Formation of Montana. J. Paleontol., 36: 1291–1304.Google Scholar

Gutschick, R. C. and Treckman, J. E. 1959. Arenaceous foraminifera from the Rockford Limestone of northern Indiana. J. Paleontol., 33: 229–250.Google Scholar

Gutschick, R. C., Weiner, J. L. and Young, L. 1961. Lower Mississippian arenaceous foraminifera from Oklahoma, Texas and Montana. J. Paleontol., 36: 1193–1221.Google Scholar

Haake, F. -W. 1977. Living benthic foraminifera in the Adriatic Sea: Influence of water depth and sediment. J. Foram Res., 7: 62–75.Google Scholar

Hallock, P. 1979. Trends in test shape with depth in large, symbiont-bearing foraminifera. J. Foram. Res., 9: 61–69.Google Scholar

Hallock, P. 1981a. Light dependence in Amphistegina. J. Foram. Res., 11: 40–46.Google Scholar

Hallock, P. 1981b. Algal symbiosis: a mathematical analysis. Mar. Biol., 62: 249–255.Google Scholar

Hallock, P. 1981c. Production of carbonate sediments by selected large benthic foraminifera on two Pacific coral reefs. J. Sed. Petrol., 51: 467–474.Google Scholar

Hallock, P. 1982. Evolution and extinction in larger foraminifera, Proc. 3d North Amer. Paleontol. Conv. Google Scholar

Hallock, P. and Hansen, H. J. 1979. Depth adaptation in Amphistegina: change in lamellar thickness. Bull. Geol. Soc. Denmark, 27: 99–104.Google Scholar

Hansen, H. J. and Buchardt, B. 1977. Depth distribution of Amphistegina in the Gulf of Elat, Israel. Utrecht Micropaleontol. bull., 15: 205–239.Google Scholar

Hansen, H. J. and Dalberg, P. 1979. Symbiotic algae in milioline foraminifera: CO₂ uptake and shell adaptations. Bull. Geol. Soc. Denmark, 28: 47–55.Google Scholar

Hansen, H. J. and Reiss, Z. 1972. Scanning electron microscopy of some asterigerinid foraminifera. J. Foram. Res., 2: 191–199.Google Scholar

Hansen, H. J., Reiss, Z. and Schneidermann, N. 1969. Ultramicrostructure of bilamellar walls in Foraminiferida. Rev. Esp. Micropaleontol., 1(3): 293–316.Google Scholar

Haq, B. U. 1981. Paleogene paleoceanography: Early Cenozoic oceans revisited. Oceanol. Acta, Colloque, C⁴, Geologie des Ocean: 71–82.Google Scholar

Haq, B. U., Premoli-Silva, I. and Lohmann, G. P. 1977. Calcareous plankton paleobiogeographic evidence for major climatic fluctuations in the Early Cenozoic Atlantic Ocean. J. Geophys. Res., 82: 3861–3876.Google Scholar

Hardenbol, J., Vail, R. R. and Ferrer, J. 1981. Interpreting paleo-environments, subsidence history, and sea-level changes of passive margins from seismic and biostratigraphy. Oceanol. Acta, Colloque C3, Geology of continental margins: 33–44.Google Scholar

Harlton, B. H. 1927. Some Pennsylvanian foraminifera of the Glen Formation of southern Oklahoma. J. Paleontol., 1: 15–27.Google Scholar

Harlton, B. H. 1928. Pennsylvanian foraminifera of Oklahoma and Texas. J. Paleontol., 1: 305–310.Google Scholar

Harlton, B. H. 1933. Micropaleontology of the Pennsylvanian Johns Valley Shale of the uachita Mountains, Oklahoma and its relationship to the Mississippian Caney Shale. J. Paleontol., 7: 3–29.Google Scholar

Haynes, J. R. 1965. Symbiosis, wall structure and habitat in foraminifera. Contrib. Cushman Found. Foram. Res., 16: 40–43.Google Scholar

Haynes, J. R. 1981. Foraminifera. John Wiley, New York, 433 p.Google Scholar

Hayward, B. W. and Buzas, M. A. 1979. Taxonomy and paleoecology of Early Miocene benthic foraminifera of North New Zealand and the North Tasman Sea. Smithsonian Contrib. Paleobiol. 36: 1–154.Google Scholar

Hazel, J. E. 1971. Paleoclimatology of the Yorktown Formation (Upper Miocene and Lower Pliocene) of Virginia and North Carolina, In: Oertli, H. J. (ed.) Paleoecologie Ostracodes. Bulletin Centre Recherche Pau-SNPA, 5 Suppl: 361–375.Google Scholar

Hedgpeth, J. W. 1957. Marine biogeography, In: Hedgpeth, J. W. (ed.), Treatise on marine ecology and paleoecology. Geol. Soc. Amer. 67 (1): 359–382.Google Scholar

Hemleben, C. 1969. Zur Morphogenese planktonischer Foraminiferen. Zitteliana, 1: 91–133.Google Scholar

Hemleben, C., Be, A. W. H., Anderson, O. R. and Tuntivate, S. 1977. Test morphology, organic layers and chamber formation of the planktonic foraminifer Globorotalia memardii (d'Orbigny). J. Foram. Res., 7(1): 1–25.Google Scholar

Henbest, L. G. 1958. Ecology and life association of fossil algae and foraminifera in a Pennsylvanian limestone, McAlester, Oklahoma. Contrib. Cushman Lab. Foram. Res., 9: 104–111.Google Scholar

Henbest, L. G. 1963. Biology, mineralogy, and diagenesis of some late Paleozoic sedentary foraminifera and algal-foraminiferal colonies. Cushman Found. Foram. Res. Spec. Publ., 6: 1–44.Google Scholar

Hessler, R. R. 1974. The structure of deep benthic communities from central oceanic waters, In: The biology of the oceanic Pacific, Oregon State Univ. Press, p. 79–93.Google Scholar

Hickman, C. S. and Lipps, J. H. in press. Foraminiferivory: selective ingestion of foraminifera and test alterations produced by the neogastropod Olivella. J. Foram. Res. Google Scholar

Hofker, J. 1951. The foraminifera of the Siboga Expedition. Pt. 3. Siboga Exped., E. J. Brill, Leiden, 513 p.Google Scholar

Hoglund, H. 1947. Foraminifera in the Gullmar Fjord and the Skagerak. Zool. Bidg. Uppsala, 26: 1–328.Google Scholar

Hohenegger, J. and Piller, W. 1977. Die Stellung der Involutinidae Bütschli and Spirillinidae Reuss im System der Foraminiferen. N. Jb. Geol. Palaeontol. Mh., 7: 407–418.Google Scholar

Hornibrook, N. de B. 1966. New Zealand Tertiary microfossil zonation, correlation and climate, In: Hatai, K. (ed.), Tertiary correlations and climatic changes in the Pacific. 11th Pacific Sci. Congress-Tokyo, Symposium No. 25: 29–39.Google Scholar

Hottinger, L. 1977. Distribution of larger Peneroplidae, Borelis and Nummulitidae in the Gulf of Elat, Red Sea. Utrecht Micropaleontol. Bull., 15: 35–109.Google Scholar

Hsu, K. J., Cita, M. B. and Ryan, W. B. F. 1972. The origin of the Mediterranean evaporites. Init. Rept. Deep Sea Drill. Proj. 13: 1203–1231.Google Scholar

Hsu, K. J., Ryan, W. B. F. and Cita, M. B. 1973. Late Miocene desiccation of the Mediterranean. Nature, 242: 240–244.Google Scholar

Ingle, J. C., Keller, G. and Kolpack, R. L. 1980. Benthic foraminiferal biofacies, sediments and water masses of the southern Peru-Chile Trench area, southeastern Pacific Ocean. Micropaleontology, 26: 113–150.Google Scholar

Ireland, H. A. 1939. Devonian and Silurian foraminifera from Oklahoma. J. Paleontol., 13: 190–202.Google Scholar

Ireland, H. A. 1956. Upper Pennsylvanian arenaceous foraminifera from Kansas. J. Paleontol., 30: 831–864.Google Scholar

Jahn, T. L. and Rinaldi, R. A. 1959. Protoplasmic movement in the foraminiferan, Allogromia laticollaris; and a theory of its mechanism. Biol. Bull., 117: 100–118.Google Scholar

Jenkins, D. G. 1966. Planktonic foraminiferal zones and new taxa from the Danian to Lower Miocene of New Zealand. New Zealand J. Geol. Geophys., 8: 1088–1126.Google Scholar

Jenkins, D. G. 1966. Planktonic foraminiferal datum planes in the Pacific and Trinidad Tertiary. New Zealand J. Geol. Geophys., 9: 424–427.Google Scholar

Jenkins, D. G. 1967. Planktonic foraminiferal zones and new taxa from the lower Miocene to the Pleistocene of New Zealand. New Zealand J. Geol. Geophys., 10: 1064–1078.Google Scholar

Jenkins, D. G. 1971. New Zealand Cenozoic planktonic foraminifera. New Zealand Geol. Surv. Paleontol. Bull. 42: 1–278.Google Scholar

Jenkins, D. G. 1975. Cenozoic planktonic foraminiferal biostratigraphy of the southwestern pacific and Tasman Sea - DSDP Leg 29. Init. Rept. Deep Sea Drill Proj., 29: 449–467.Google Scholar

Jenkins, D. G. and Orr, W. N. 1972. Planktonic foraminiferal biostratigraphy of the eastern equatorial Pacific, Leg 9. Init. Rept. Deep Sea Drill Proj., 9: 1059–1196.Google Scholar

Kahler, F. and Kahler, G. 1966–1967. Fusulinida (Foraminiferida) Teil 1–4. Fossil. Catal. I. Anim., Pars 111–114. 1–974.Google Scholar

Kanmera, K., Ishii, K. and Toriyama, R. 1976. The evolution and extinction patterns of Permian Fusulinaceans. Contrib. Geology and Paleontology of Southeast Asia, Kobayashi, T. and Hashimoto, W. (eds.), Univ. Tokyo Press, 17: 129–154.Google Scholar

Kauffman, E. G. and Scott, R. W. 1976. Basic concepts of community ecology and paleoecology, In: Scott, R. W. and West, R. R. (eds.), Structure and Classification of Paleocommunities: 1–28, Dowden Hutchinson and Ross, Stroudsburg, Pennsylvania.Google Scholar

Keigwin, L. D. 1980. Palaeoceanographic change in the Pacific at the Eocene-Oligocene boundary. Nature, 287- 722–725.Google Scholar

Kellogg, T. B. 1975. Late Quaternary climatic changes in the Norwegian and Greenland Sea, In: Weller, G. and Bowling, S. A. (eds.), Climate of the Arctic, Univ. Alaska, Fairbanks: 3–36.Google Scholar

Kellough, G. R. 1959. Biostratigraphy and paleoecology of Midway Formation along Tehvacan Greek, Limestone County, Texas. Trans. Gulf Coast Assoc. Geol. Soc., 9: 146–160.Google Scholar

Kellough, G. R. 1965. Paleoecology of the Foramniferida of the Wills Point Formation (Midway Group) in northeast Texas. Trans. Gulf Coast Assoc. Geol. Soc., 15: 73–153.Google Scholar

Kennett, J. P. 1973. Middle and Late Cenozoic planktonic foraminiferal biostratigraphy of the southwestern Pacific - DSDP Leg 21. Init. Rept. Deep Sea Drill. Proj. 21: 575–640.Google Scholar

Kennett, J. P. 1977. Cenozoic evolution of Antarctic glaciation, the circum-Antarctic Current and their impact on global paleoceanography. J. Geophys. Res., 82: 3843–3860.Google Scholar

Kennett, J. P. 1978. The development of planktonic biogeography in the southern ocean during the Cenozoic. Mar. Micropaleontol., 3: 310–346.Google Scholar

Kennett, J. P. 1980. Paleoceanographic and biogeographic evolution of the Southern Ocean during the Cenozoic, and Cenozoic microfossil datums. Palaeogeogr. Palaeoclimatol. Palaeoecol., 31: 123–152.Google Scholar

Kennett, J. P., Houtz, R. E., Andrews, P. B., Edwards, A. R., Gostin, V. A., Hajos, M., Hampton, M. A., Jenkins, D. G., Margolis, S. V., Ovenshine, A. T., Perch-Nielsen, K. 1975. Cenozoic paleoceanography in the southwest Pacific Ocean, Antarctic glaciation and the development of the circum-Antarctic current. Init. Rept. Deep Sea Drill. Proj., 29: 1155–1166.Google Scholar

Kennett, J. P. and Shackleton, N. J. 1976. Oxygen isotope evidence for the development of the psychrosphere 38 Myr ago. Nature, 260: 513–515.Google Scholar

Kent, D. V. 1977. An estimate of the duration of the faunal change at the Cretaceous - Tertiary boundary. Geology, 5: 769–771.Google Scholar

Kinne, O. 1963. The effects of temperature and salinity on marine and brackish water animals. I Temperature. Oceanogr. Mar. Biol. Ann. Rev., 1: 301–340.Google Scholar

Kinne, O. 1970. Temperature: General introduction, In: Kinne, O. (ed.), Marine Ecology, v. 1(1): 321–346, John Wiley, New York.Google Scholar

Kinne, O. 1971. Salinity: Animals - Invertebrates. In: Kinne, O. (ed.), Marine Ecology, v. 1 (2), John Wiley, New York.Google Scholar

Kjellesvig, E. N. 1934. Trenton foraminifera from New York. Geol. Soc. Amer. Proc., 1933: 340.Google Scholar

Krashenninikov, V. A. 1973. Cretaceous benthonic foraminifera, Leg 20, Deep Sea Drilling Project. Init. Rept. Deep Sea Drill. Proj., 20: 205–221.Google Scholar

Krashenninikov, V. A. 1974. Upper Cretaceous benthonic agglutinated foraminifera, Leg 27, Deep Sea Drilling Project. Init. Rept. Deep Sea Drill. Proj., 27: 631–661.Google Scholar

Kroopnick, P. 1974. Correlation between ¹³C and CO₂ in surface waters and atmospheric CO₂ . Earth Planet. Sci. Lett., 22: 397–403.Google Scholar

Kroopnick, P. 1980. The distribution of ¹³C in the Atlantic Ocean. Earth Planet. Sci. Lett., 49: 469–484.Google Scholar

Kroopnick, P., Weiss, R. F. and Craig, H. 1972. Total CO₂, ¹³C, and dissolved oxygen-¹⁸O at Geosecs II in the North Atlantic. Earth Planet. Sci. Lett., 16: 103–110.Google Scholar

Lagoe, M. B. 1979. Recent benthic foraminiferal biofacies in the Arctic Ocean. Micropaleontology, 25: 214–224.Google Scholar

Lamarck, J. B. 1804. Suite des mémoires sur les fossiles des environs de Paris. Ann. Mus. Nat. Hist. Nat., Paris, 5: 179–188.Google Scholar

Lamb, G. M. 1972. Distribution of Holocene Foraminiferida in Mobile Bay and the effect of salinity changes. Geol. Surv. Alabama Circ. 2: 1–12.Google Scholar

Lankford, R. R. and Phleger, F. B. 1973. Foraminifera from the nearshore turbulent zone, western North America. J. Foram. Res., 3: 101–132.Google Scholar

LeCalvez, J. 1938. Recherches sur les Foraminifères. I. Development et reproduction. Arch. Zool. Exp. Gen., 80: 163–333.Google Scholar

LeCalvez, J. 1947. Entosolenia marginata, foraminifère apogamique ectoparasite d'un autre foraminifère Dissorbis vilardeboanus. C. R. Hebd. Seanc. Acad. Sci., Paris, 224: 1448–1450.Google Scholar

Lee, J. J. 1974. Towards understanding the niche of the foraminifera, In: Hedley, R. H. and Adams, C. G. (eds.), Foraminifera, 1: 207–260, Academic Press, London.Google Scholar

Lee, J. J. 1980. Nutrition and physiology of the foraminifera. Biochem. Physiol. Protozoa, 2nd. Ed., 3: 43–66.Google Scholar

Lee, J. J., et al. 1961. Growth and physiology of foraminifera in the laboratory: Part 1- Collection and maintenance. Micropaleontology 7: 461–466.Google Scholar

Lehmann, U. 1971. Jaws, radula, and crop of Arnioceras (Ammonoidea). Palaeontology, 14: 338–341.Google Scholar

Levine, N. D., Corliss, J. O., Cox, F. E. G., Deroux, G., Grain, J., Honigberg, B. M., Leedale, G. F., Loeblich, A. R. III, Lom, J., Lynn, D., Merinfeld, E. G., Page, F. C., Poljansky, G., Sprague, V., Vavra, J. and Wallace, F. G. 1980. A newly revised classification of the Protozoa. J. Protozool. 27: 37–58.Google Scholar

Lipps, J. H. 1964. Miocene planktonic foraminifera from Newport Bay, California. Tulane Stud. Geol. 2: 109–133.Google Scholar

Lipps, J. H. 1966. Wall structure, systematics, and phylogeny studies of Cenozoic planktonic foraminifera. J. Paleontol. 40: 1257–1274.Google Scholar

Lipps, J. H. 1975. Feeding strategies and test function in foraminifera. Benthonics 75 Abstracts, Dalhousie Univ., Halifax, p. 26.Google Scholar

Lipps, J. H. 1981. What, if anything, is micropaleontology? Paleobiology, 7: 167–199.Google Scholar

Lipps, J. H. in press. Biotic interactions in benthonic foraminifera, In: Tevesz, M. J. and McCall, P. (eds.), Biotic interactions in Recent and fossil communities, Pergamon Press.Google Scholar

Lipps, J. H. and Erskian, M. G. 1969. Plastogamy in foraminifera: Glabratella ornatissima (Cushman). J. Protozool., 16: 422–425.Google Scholar

Lipps, J. H. and Valentine, J. W. 1970. The role of foraminifera in the trophic structure of marine communities. Lethaia, 3: 279–286.Google Scholar

Loeblich, A. R. Jr. and Tappan, H. 1961. Cretaceous planktonic foraminifera. Part 1- Cenomanian. Micropaleontology 7: 257–304.Google Scholar

Loeblich, A. R. Jr. and Tappan, H. 1964. Sarcodina, chiefly “Thecamoebians” and Foraminiferida, In: Moore, R. C. (ed.), Treatise on Invertebrate Paleontology. Geol. Soc. Amer. and Univ. Kans. Press, pt. C, Protista 2: 1–900.Google Scholar

Lohmann, G. P. 1978b. Abyssal benthonic foraminifera as hydrographic indicators in the western South Atlantic Ocean. J. Foram. Res., 8: 6–34.Google Scholar

Longoria, J. F. 1974. Stratigraphic, morphologic, and taxonomic studies of Aptian planktonic foraminifera. Rev. Esp. Micropaleontol., No. Extr. Diciembre 1974: 1–134.Google Scholar

Longoria, J. F. and Gamper, M. A. 1975. The classification and evolution of Cretaceous planktonic foraminifera. Part 1: The superfamily Hedbergelloidea. Rev. Esp. Micropaleontol., No. Esp. Enero 1975: 61–96.Google Scholar

Lopez, E. 1979. Algal chloroplasts in the protoplasm of three species of benthic foraminifera: Taxonomic affinity, viability and persistence. Mar. Biol., 53: 201–211.Google Scholar

Luterbacher, H. P. and Premoli-Silva, I. 1964. Biostratigrafia del limite Cretaceo-Terziario nell Appennino Centrale. Riv. Ital. Paleont. Strat., 70: 67–128.Google Scholar

Lutze, G. F. 1965. Zur Foraminiferen-fauna der Ostsee. Meyniana, 15: 75–142.Google Scholar

Lutze, G. F. and Wefer, G. 1980. Habitat and asexual reproduction of Cyclorbicula compressa (d'Orbigny), Soritidae. J. Foram. Res., 10: 251–260.Google Scholar

Malmgren, B. A. and Kennett, J. P. 1981. Phyletic gradualism in a Late Cenozoic planktonic foraminiferal lineage: DSDP Site 284, southwest Pacific. Paleobiology, 7: 230–240.Google Scholar

Marple, M. F. 1955. Small foraminifera of the Pottsville Formation in Ohio. Ohio. J. Sci., 55: 81–89.Google Scholar

Marszalak, D. S. 1969. Observations on Iridia diaphana, a marine foraminifer. J. Protozool., 16: 599–611.Google Scholar

Matera, N. J. and Lee, J. J. 1972. Environmental factors affecting the standing crop of foraminifera in sublittoral and psammolittoral communities of a Long Island salt marsh. Mar. Biol., 14: 89–103.Google Scholar

Matthews, R. K. and Poore, R. Z. 1980. Tertiary ¹⁸O record and glacio-eustastic sea-level fluctuations. Geology, 8: 501–504.Google Scholar

McClellan, W. A. 1966. Arenaceous foraminifera from the Waldron Shale (Niagaran) of southeast Indiana. Bull. Amer. Paleontol., 50: 447–518.Google Scholar

McClellan, W. A. 1973. Siluro-Devonian microfaunal biostratigraphy in Nevada. Bull. Amer. Paleontol., 62: 236–374.Google Scholar

McCulloch, Irene. 1977. Qualitative observations on Recent foraminiferal tests with emphasis on the Eastern Pacific. Pt. I-III, Univ. Southern California, Los Angeles, 1079 p.Google Scholar

McEnery, M. E. and Lee, J. J. 1981. Cytological and fine structural studies of three species of symbiont-bearing larger foraminifera from the Red Sea. Micropaleontology, 27: 71–83.Google Scholar

McGlasson, R. H. 1959. Foraminiferal biofacies around Santa Catalina Island, California. Micropaleontology, 5: 217–240.Google Scholar

McGowran, B. 1968. Reclassification of early Globorotalia. Micropaleontology, 14: 179–198.Google Scholar

Mello, J. R. and Buzas, M. A. 1968. An application of cluster analysis as a method of determining biofacies. J. Paleontol., 42: 747–758.Google Scholar

Menzies, R. J., George, R. Y. and Rowe, G. T. 1973. Abyssal Environment and Ecology of the World Oceans. John Wiley and Sons, New York, 488 p.Google Scholar

Miklukho-Maklay, A. D. 1963. Verkniy Paleozoy sredney Azii. [Upper Paleozoic of central Asia.] Leningrad Univ., Leningrad, 328 p.Google Scholar

Miller, H. W. Jr. 1956. The index value of Silurian foraminifera, and some new forms from wells in Kansas. J. Paleontol., 30: 1350–1359.Google Scholar

Miller, K. G. in press. Late Paleogene paleoceanography of the Bay of Biscay: benthic foraminiferal evidence. Mar. Micropaleontol. Google Scholar

Miller, K. G. and Curry, W. B. 1982. Eocene to Oligocene benthic foraminiferal isotopic record in the Bay of Biscay. Nature, 296: 347–350.Google Scholar

Miller, K. G. and Lohmann, C. P. 1982. Environmental distribution of Recent benthic foraminifera on the northeast United States continental slope. Geol. Soc. Amer. Bull., 93: 200–206.Google Scholar

Miller, K. G. and Tucholke, B. E. in press. Development of Cenozoic abyssal circulation south of the Greenland-Scotland Ridge, In: Saxov, S. (ed.), Structure and development of the Greenland-Scotland Ridge, NATO Advanced Research Institute, Bressanone, Italy, May 11–16, 1981. Plenum Press, New York.Google Scholar

Miller, K. G., Curry, W. B. and Ostermann, D. R. in press. Late Paleogene benthic foraminiferal paleoceanography of the Goban Spur, DSDP Leg 80. Init. Rept. Deep Sea Drill. Proj., 80.Google Scholar

Miller, K. G., Gradstein, F. M. and Berggren, W. A. 1982. Late Cretaceous to Early Tertiary agglutinated benthic foraminifera in the Labrador Sea. Micropaleontology, 28: 1–30.Google Scholar

Millne-Edwards, H. 1838. Memoire sur la distribution geographique des Crustaces. Ann. Sci. Natur. (Zool.), 10: 139–174.Google Scholar

Monger, J. W. H. and Ross, C. A. 1971. Distribution of fusulinaceans in the western Canadian Cordillera. Canadian J. Earth Sci., 8: 259–278.Google Scholar

Montfort, Denys de. 1808. Conchyliologie systématique et classification methodique des coquilles. 1: 1–409.Google Scholar

Moore, T. C., et al., 1978. Cenozoic hiatuses in pelagic sediments. Micropaleontology, 24: 113–138.Google Scholar

Moore, W. E. 1952. Preliminary report on the occurrence of Ordovician foraminifera near Catawba, Virginia. Virginia J. Sci., 3: 334.Google Scholar

Moreman, W. L. 1930. Arenaceous foraminifera from Ordovician and Silurian limestones of Oklahoma. J. Paleontol., 4: 42–59.Google Scholar

Moreman, W. L. 1933. Arenaceous foraminifera from the Lower Paleozoic rocks of Oklahoma. J. Paleontol., 7: 393–397.Google Scholar

Moullade, M. 1964. Pour une simplification de la taxinomie des foraminifères appartenant à la superfamille des Globigerinacea. C. R. Somm. Soc. Geol. Fr., 2: 58–60.Google Scholar

Moullade, M. 1965. Contribution au problème de la classification des Orbitolinidae (Foraminiferida, Lituolacea). C. R. Hebd. Séanc. Acad. Sci. Paris, 260: 4031–4034.Google Scholar

Mound, M. C. 1961. Arenaceous foraminifera from the Brassfield Limestone (Albion) of southeastern Indiana. Ind. Geol. Surv. Bull., 23: 1–38.Google Scholar

Mound, M. C. 1968. Arenaceous Foraminiferida and zonation of the Silurian rocks of northern Indiana. Ind. Geol. Surv. Bull. 38: 1–126.Google Scholar

Muller, W. A. 1975. Competition for food and other niche-related studies of three species of salt-marsh foraminifera. Mar. Biol., 31: 339–351.Google Scholar

Muller, W. A. and Lee, J. J. 1969. Apparent indispensability of bacteria in foraminiferal nutrition. J. Protozool. 16: 471–478.Google Scholar

Murray, J. and Renard, A. F. 1891. Deep-sea deposits based on the specimens collected during the voyage of H.M.S. Challenger in the years 1872–1876. Rept. Voy. Challenger, Longmans, London, 525 p.Google Scholar

Murray, J. 1897. On the distribution of the pelagic foraminifera at the surface and on the floor of the ocean. Nat. Sci. (Ecol.), 11: 17–27.Google Scholar

Murray, J. W. 1963. Ecological experiments on foraminifera. J. Mar. Biol. Assoc. U.K. 43: 621–642.Google Scholar

Murray, J. W. 1971a. Living foraminiferids of tidal marshes: a review. J. Foram. Res. 1: 153–161.Google Scholar

Murray, J. W. 1971b. An Atlas of British Recent Foraminiferids. Elsevier, New York, 244 p.Google Scholar

Murray, J. W. 1973. Distribution and ecology of living benthic foraminiferids. Crane, Russak and Company, New York, 274 p.Google Scholar

Murray, J. W. 1979. Cenozoic biostratigraphy and paleoecology of sites 403 to 406 based on the foraminifers. Init. Rept. Deep Sea Drill. Proj., 48: 415–430.Google Scholar

Myers, E. H. 1935. The life history of Patellina corrugata Williamson, a foraminifer. Bull. Scripps Inst. Oceanogr., Univ. California, Tech. Ser., 3(15): 355–392.Google Scholar

Myers, E. H. 1940. Observations on the origin and fate of flagellated gametes in multiple tests of Discorbis (foraminifera). J. Mar. Biol. Assoc. U.K., 24: 201–226.Google Scholar

Myers, E. H. 1943. Biology, ecology, and morphogenesis of a pelagic foraminifer. Stanford Univ. Pubs., Biol. Sci., 9(1): 1–40.Google Scholar

Myers, E. H. and Cole, W. S. 1957. Foraminifera, In: Hedgpeth, J. W. (ed.), Treatise on Marine Ecology and Paleoecology. Geol. Soc. Amer. Mem. 67(1): 1075–1082.Google Scholar

Natland, M. L. 1933. The temperature- and depth-distribution of some Recent and fossil foraminifera in the southern California region. Scripps Inst. Oceanogr. Bull., Tech. Ser. 3: 225–230.Google Scholar

Norton, R. D. 1930. Ecologic relations of some foraminifera. Scripps Inst. Oceanogr. Bull., Tech. Ser. 2: 331–388.Google Scholar

Nyholm, K. -G. 1962. A study of the foraminifer Gypsina. Zool. Bidrag fran Uppsala, 33: 201–207.Google Scholar

Ode, H. 1974. Distribution and records of the marine Mollusca in the northwest Gulf of Mexico, Part 1: Crassatellacea-Poromyacea: Texas Conchol., 11: 3–8.Google Scholar

Olsson, I. 1976. Distribution and ecology of theforaminiferan Ammotium cassis (Parker) in some Swedish estuaries. Zoon, 4: 137–147.Google Scholar

Olsson, R. K. 1960. Latest Cretaceous and earliest Tertiary stratigraphy of New Jersey coastal plain. J. Paleontol., 47: 643–665.Google Scholar

Olsson, R. K. 1970. Planktonic foraminifera from base of Tertiary, Millers Ferry, Alabama. J. Paleontol., 44: 598–604.Google Scholar

Olsson, R. K., Miller, K. G. and Ungrady, T. E. 1980. Late Oligocene transgression of middle Atlantic Coastal Plain. Geology 8: 549–554.Google Scholar

Orbigny, A. d'. 1826. Tableau méthodique de la classe des céphalopodes. Ann. Sci. Nat. 7: 245–314.Google Scholar

Orbigny, A. d'. 1839. Foraminifères, In: de la Sagra, R., Histoire physique, politique, et naturelle de l'ile de Cuba. 224 p.Google Scholar

Orr, W. N. 1967. Secondary calcification in the foraminiferal genus Globorotalia. Science, 157: 1554–1555.Google Scholar

Otvos, E. G. 1978. Calcareous benthic foraminiferal fauna in a very low salinity setting, Lake Pontchartrain, Louisiana. J. Foram., Res., 8: 262–269.Google Scholar

Owen, S. R. J. 1867. On the surface-fauna of mid-ocean. J. Linnean Soc. Lond. (Zoology), 9: 147.Google Scholar

Ozawa, T. 1970. Notes on the phylogeny and classification of the superfamily Verbeekinoidea. Mem. Fac. Sci. Kyushu Univ., ser. D., Geol., 20: 17–58.Google Scholar

Parker, F. L. 1948. Foraminifera of the continental shelf from the Gulf of Maine to Maryland. Harvard Coll. Mus. Comp. Zool. Bull., 100: 213–241.Google Scholar

Parker, F. L. 1952. Foraminiferal distribution in the Long Island Sound-Buzzards Bay area. Harvard Coll. Mus. Comp. Zool. Bull. 106: 427–473.Google Scholar

Parsons, B. and Sclater, J. G. 1977. An analysis of the variation of ocean floor bathymetry and heat flow with age. J. Geophys. Res., 82: 803–827.Google Scholar

Pessagno, E. A. Jr. 1967. Upper Cretaceous planktonic foraminifera from the western Gulf Coastal Plain. Palaeontograph. Amer. 5: 245–445.Google Scholar

Pessagno, E. A. Jr. and Miyano, K. 1968. Notes on the wall structure of the Globigerinacea. Micropaleontology, 14(1): 38–50.Google Scholar

Peterson, L. C. and Lohmann, G. P. 1982. Major change in Atlantic deep and bottom waters 700,000 yr ago: benthonic foraminiferal evidence from the South Atlantic. Quat. Res., 17: 26–38.Google Scholar

Pflum, C. E. and Frerichs, W. E. 1976. Gulf of Mexico deep-water foraminifers. Cushman Found. Foram. Res. Spec. Pub. no. 14: 1–125.Google Scholar

Phleger, F. B. 1952. Foraminiferal ecology off Portsmouth, New Hamsphire. Harvard Coll. Mus. Comp. Zool. Bull., 106: 315–390.Google Scholar

Phleger, F. B. 1954. Ecology of foraminifera and associated micro-organisms from Mississippi Sound and environs. Bull. Amer. Assoc. Petrol. Geol. 38: 584–647.Google Scholar

Phleger, F. B. 1960. Ecology and Distribution of Recent Foraminifera. Johns Hopkins Press, Baltimore, 297 p.Google Scholar

Phleger, F. B. 1964. Foraminiferal ecology and marine geology. Mar. Geol., 1: 16–43.Google Scholar

Phleger, F. B. 1970. Foraminiferal populations and marine marsh processes. Limnol. Oceanogr., 15: 522–534.Google Scholar

Pirlet, H. and Conil, R. 1973. L'evolution des Archaediscidae viseen. Bull. Soc. Belge Géol. Paleontol. Hydrol., 82: 241–300.Google Scholar

Plummer, H. J. 1927. Foraminifera of the Midway Formation in Texas. Univ. Texas Bull., 2644: 3–206.Google Scholar

Plummer, H. J. 1930. Calcareous foraminifera in the Brownwood Shale near Bridgeport, Texas. Univ. Texas Bull. 3019: 5–21.Google Scholar

Plummer, H. J. 1945. Smaller foraminifera in the Marble Falls, Smithwick, and lower Strawn strata around the Llano Uplift in Texas. Texas Univ. Bull. 4401: 209–271.Google Scholar

Poag, C. W. 1966. Paynes Hammock (Lower Miocene?) foraminifera of Alabama and Mississippi. Micropaleontology, 12: 393–440.Google Scholar

Poag, C. W. 1981. Ecologic Atlas of Benthic Foraminifera of the Gulf of Mexico. Mar. Sci. Inst. Woods Hole, Massachusetts. 174 p.Google Scholar

Poag, C. W. 1982. Environmental implications of test-to-substrate attachment among some modern sublittoral foraminifera. Geol. Soc. Amer. Bull. 93: 252–268.Google Scholar

Poag, C. W. in press. Neogene stratigraphy of the submerged U.S. Atlantic margin.Google Scholar

Pokorný, V. 1958. Grundzüge der zoologischen Mikropaläontologie, Bd. 1: 1–582, VEB Deutsch. Ver. Wissen., Berlin.Google Scholar

Poore, R. Z. 1976. Microfossil correlation of California Lower Tertiary sections: a comparison. U.S. Geol. Surv. Prof. Paper 743-F: F1–8.Google Scholar

Postuma, J. A. 1971. Manual of Planktonic Foraminifera. Elsevier Publ. Co. Amsterdam, 412 p.Google Scholar

Putrya, F. S. 1970. K poznaniyu Yurskikh Lentikulinid zapadnoy Sibiri. [On information of Jurassic Lenticulinidae of western Siberia.] Paleont. Zn. 1970 (4): 29–45.Google Scholar

Rauzer-Chernousova, D. M. and Fursenko, A. V. 1959. Osnovy Paleontologii, Obshchaya Chast. Prosteyshie. [Principles of Paleontology. Part 1, Protozoa.] Akad. Nauk SSSR, 368 p.Google Scholar

Reid, J. L. and Lynn, R. J. 1971. On the influence of the Norwegian-Greenland Sea and Weddell seas upon the bottom waters of the Indian and Pacific Oceans. Deep-Sea Res., 18: 1063–1088.Google Scholar

Reiss, Z. 1957. The Bilamellidea, nov. superfam., and remarks on Cretaceous globorotaliids. Contr. Cushman Found., Foram. Res., 8(4): 127–145.Google Scholar

Reiss, Z. 1963. Reclassification of perforate foraminifera. Israel Geol. Surv. Bull., 35: 1–111.Google Scholar

Reiss, Z. 1977. Foraminiferal research in the Gulf of Elat-Aqaba - a review. Utrecht Micropaleontol. Bull., 15: 7–25.Google Scholar

Resig, J. M. 1974. Recent foraminifera from a landlocked Hawaiian lake. J. Foram. Res., 4: 69–76.Google Scholar

Reuss, A. E. 1862. Entwurf einer systematischen Zusammenstellung der Foraminiferen. K. Akad. Wiss. Wien, Math.-Naturwiss. Cl., Sitz. 44 (Jahrg. 1861): 355–396.Google Scholar

Rhumbler, L. 1911. Die Foraminiferen (Thalamophoren) der Plankton-Expedition; Teil 1. Die allgemeinen Organisationsverhältnisse der Foraminiferen. Plankton-Exped. Humboldt-Stiftung, Ergebn. 3, L, C, 1: 1–331.Google Scholar

Roberts, D. G., Montadert, L. and Searle, R. C. 1979. The western Rockall Plateau: stratigraphy and structural evolution. Init. Rept. Deep Sea Drill. Proj., 48: 1061–1088.Google Scholar

Ross, C. A. 1967. Development of fusulinid (Foraminiferida) faunal realms. J. Paleontol., 41: 1341–1354.Google Scholar

Ross, C. A. 1972. Paleobiological analysis of fusulinacean (Foraminiferida) shell morphology. J. Paleontol., 46: 719–728.Google Scholar

Ross, C. A. and Ross, J. R. P. 1978. Adaptive evolution in the soritids Marginopora and Amphisorus (Foraminiferida). Scan. Elect. Micros. 2: 53–60.Google Scholar

Ross, C. A. and Ross, J. R. P. 1981. Biogeographic influences on Late Palaeozoic faunal distributions, In: Larwood, C. P. and Nielsen, C. (eds.), Recent and Fossil Bryozoa, Intl. Bryozool, Assoc., Olsen and Olsen, Freidensborg, Denmark, 199–212.Google Scholar

Roth, R. and Skinner, J. 1930. The fauna of the McCoy Formation, Pennsylvanian of Colorado. J. Paleontol., 4: 332–352.Google Scholar

Rottger, R. 1973. Die Ektoplasmahulle von Heterostegina depressa (Foraminifera: Nummulitidae). Mar. Biol., 21: 127–138.Google Scholar

Rottger, R. 1976. Ecological observations of Heterostegina depressa (Foraminifera, Nummulitidae) in the laboratory and in its natural habitat. Maritime Sed. Spec. Pub., 1: 75–80.Google Scholar

Rozovskaya, S. E. 1969. K revizii otryada Fusulinida. [On a revision of the Order Fusulinida.] Paleont. Zh. 1969 (3): 34–44.Google Scholar

Rozovskaya, S. E. 1975. Sostav, sistema i filogeniya otryada Fuzulinida. [Composition, phylogeny and systematics of the Order Fusulinida.] Akad. Nauk SSSR, Trudy Paleont. Inst. 149: 1–267.Google Scholar

Rubenstein, D. I. and Koehl, M. A. R. 1977. The mechanisms of filter feeding: some theoretical considerations. Amer. Natur., 111: 981–994.Google Scholar

Saidova, Kh. M. 1975. Bentosyne foraminifery Tikhogo Okeana, Chast' I-III. Akad. Nauk SSSR, Inst. Okeanol. P. P. Shirshova, Moscow, 290 p.Google Scholar

Saidova, Kh. M. 1981. O sovremennom sostoyanii sistemynadvidovykh taksonov Kaynozoyskikh bentosnykh foraminfer. [On the current state of the system of supraspecific taxonomy of Cenozoic benthonic foraminifera.] Akad. Nauk SSSR. Inst. Okeanol. P. P. Shirshova, Moscow, 73 p.Google Scholar

Saito, T. 1977. Late Cenozoic planktonic foraminiferal datum levels: the present state of knowledge toward accomplishing Pan-Pacific correlation, Proc. First Int. Congr. Pacific Neogene Stratig. Tokyo, 61–80.Google Scholar

Saito, T., Thompson, P. R. and Breger, D. 1976. Skeletal ultramicro-structure of some elongate-chambered planktonic foraminifera and related species, In: Takayanagi, Y. and Saito, T. (eds.), Progress in Micropaleontology, Amer. Mus. Nat. Hist., New York, 278–304.Google Scholar

Saito, T., Thompson, P. R. and Breger, D. 1981. Systematic index of Recent and Pleistocene planktonic foraminfera. Univ. Tokyo Press, Tokyo, 190 p.Google Scholar

Sanders, H. L. and Hessler, R. R. 1969. Ecology of the deep-sea benthos. Science, 163: 1419–1424.Google Scholar

Sandon, H. 1932. The food of Protozoa. Egyptian Univ., Publ. Fac. Sci., Misr-Sokkar Press. Cairo, 187 p.Google Scholar

Savin, S. M. 1977. The history of the Earth's surface temperature during the past 100 million years. Ann. Rev. Earth Planet. Sci., 5: 319–355.Google Scholar

Savin, S. M., Douglas, R. G. and Stehli, F. G. 1975. Tertiary marine paleotemperatures. Geol. Soc. Amer. Bull., 86: 1499–1510.Google Scholar

Schafer, C. T. 1971. Sampling and spatial distribution of benthonic foraminifera. Limnol. Oceanogr., 16: 944–951.Google Scholar

Schafer, C. T. and Cole, F. E. 1982. Living benthic foraminifera distributions on the continental slope and rise east of Newfoundland, Canada. Geol. Soc. Amer. Bull., 93: 207–217.Google Scholar

Schnitker, D. 1970. Upper Miocene foraminifera from near Grimesland, Pitt County, North Carolina. N. Carolina Dept. Conserv. Devel., Raleigh, Spec. Publ. 5: 1–129.Google Scholar

Schnitker, D. 1971. Distribution of foraminifera on the North Carolina continental shelf. Tulane Stud. Geol. Paleontol., 8: 169–215.Google Scholar

Schnitker, D. 1974. Western Atlantic abyssal circulation during the past 120,000 years. Nature, 248: 385–387.Google Scholar

Schnitker, D. 1979a. Cenozoic deep water benthic foraminifera, Bay of Biscay. Init. Rept. Deep Sea Drill. Proj., 48: 377–413.Google Scholar

Schnitker, D. 1979b. The deep waters of the western North Atlantic during the past 24,000 years, and the re-initiation of the Western Boundary Undercurrent. Mar. Micropaleontol., 4: 265–280.Google Scholar

Schnitker, D. 1980a. North Atlantic oceanography as a possible cause of Antarctic glaciation and eutrophication. Nature, 284: 615–616.Google Scholar

Schnitker, D. 1980b. Global paleoceanography and its deep water linkage to the Antarctic glaciation. Earth-Sci. Rev., 16: 1–20.Google Scholar

Schnitker, D. 1980c. Quaternary deep-sea benthic foraminifers and bottom water masses. Ann. Rev. Earth Planet. Sci., 8: 343–370.Google Scholar

Schultze, M. S. 1854. Über den Organismus de Polythalamien (Foraminiferen), nebst Bemerkungen über die Rhizopoden im allgemeinen. Wilhelm Engelmann, Leipzig, 68 p.Google Scholar

Sclater, J. G., Abbott, D. and Thiede, J. 1977. Paleobathymetry and Sediments of the Indian Ocean. In: Heirtzler, J. R., Bolli, H. M., and Davis, T. A. (eds.), Indian Ocean geology and biostratigraphy, Amer. Geophys. Union, Washington, D.C., 25–59.Google Scholar

Sclater, J. G., Anderson, R. N. and Bell, N. L. 1971. Elevation of ridges and evolution of the central eastern Pacific. J. Geophys. Res., 76: 7888–7915.Google Scholar

Sclater, J. G., Hellinger, S., and Tapscott, C. 1977. The paleobathymetry of the Atlantic Ocean from the Jurassic to present. J. Geol., 85: 509–552.Google Scholar

Scott, D. B. and Medioli, F. S. 1978. Vertical zonations of marsh foraminifera as accurate indicators of former sea-levels. Nature, 272: 529–531.Google Scholar

Scott, G. H. 1982. Tempo and stratigraphic record of speciation in Globorotalia puncticulata. J. Foram. Res., 12: 1–12.Google Scholar

Sen Gupta, B. K. 1971. The benthonic foraminifera of the Tail of the Grand Banks. Micropaleontology, 17: 69–98.Google Scholar

Sen Gupta, B. K. 1972. Distribution of Holocene benthonic foraminifera on the Atlantic continental shelf of North America. 24th Intl. Geol. Cong. Montreal, section 8: 125–134.Google Scholar

Sen Gupta, B. K. 1977. Depth-distribution of modern benthic foraminifera on continental shelves of the World Ocean. Indian J. Earth Sci., 4: 60–83.Google Scholar

Sen Gupta, B. K. and Hayes, W. B. 1979. Recognition of Holocene benthic foraminiferal facies by recurrent group analysis. J. Foram. Res., 9: 233–245.Google Scholar

Sen Gupta, B. K. and Kilbourne, R. T. 1974. Diversity of benthic foraminifera on the Georgia continental shelf. Geol. Soc. Amer. Bull., 85: 969–972.Google Scholar

Sen Gupta, B. K. and Kilbourne, R. T. 1976. Depth distribution of benthic foraminifera on the Georgia continental shelf. Maritime Sed. Spec. Pub., 1: 25–38.Google Scholar

Sen Gupta, B. K., Lee, R. F. and May, M. S. 1981. Upwelling and an unusual assemblage of benthic foraminifera on the northern Florida continental slope. J. Paleontol., 55: 853–857.Google Scholar

Sen Gupta, B. K. and Schafer, C. T. 1973. Holocene benthonic foraminifera in leeward bays of St. Lucia, West Indies. Micropaleontology, 19: 341–365.Google Scholar

Sen Gupta, B. K. and Strickert, D. P. 1982. Living benthic foraminifera of the Florida-Hatteras slope: Distribution trends and anomalies. Geol. Soc. Amer. Bull., 93: 218–224.Google Scholar

Shackleton, N. J. and Kennett, J. P. 1975. Paleotemperature history of Cenozoic and the initiation of Antarctic glaciation: oxygen and carbon isotope analyses in DSDP sites 277, 279, and 281. Init. Rept. Deep Sea Drill. Proj., 29: 743–755.Google Scholar

Sheehan, R. and Banner, F. T. 1972. The pseudopodia of Elphidium incertum. Rev. Esp. Micropaleontol., 4: 31–63.Google Scholar

Sherborn, C. D. 1888. A bibliography of the foraminifera, recent and fossil, from 1765–1888; with notes explanatory of some of the rare and little known publications. Dulau and Company, London. 152 p.Google Scholar

Sherborn, C. D. 1893–96. An idex to the genera and species of the foraminifera. Smithsonian Misc. Coll., (a) 1893, no. 856: 1–240; (b) 1896, no. 1031: 341–485.Google Scholar

Shive, P. N. and Frerichs, W. E. 1974. Paleomagnetism of the chalky members of the Niobrara Formation in Colorado and Kansas. J. Geophys. Res., 79; 3001–3008.Google Scholar

Shonman, D. and Nybakken, J. W. 1978. Food preferences, food availability and food resource partitioning in two sympatric species of cephalaspidean opisthobranchs. Veliger, 21: 120–126.Google Scholar

Sigal, J. 1952. Ordre des Foraminifera, In: Piveteau, J. (ed.), Traité de Paléontologie, 1: 133–301, Masson & cie., Paris.Google Scholar

Sissingh, W. 1978. Microfossil biostratigraphy and stage stratotypes of the Cretaceous. Geol. en Mijnbouw, 57: 433–440.Google Scholar

Sliter, W. V. 1965. Laboratory experiments on the life cycle and ecologic controls of Rosalina globularis d'Orbigny. J. Protozool., 12: 210–215.Google Scholar

Sliter, W. V. 1971. Predation on benthic foraminifers. J. Foram. Res., 1: 20–29.Google Scholar

Sliter, W. V. 1975. Foraminiferal life and residue assemblages from Cretaceous slope deposits. Geol. Soc. Amer. Bull., 86: 897–906.Google Scholar

Smit, J. 1977. Discovery of a planktonic foraminiferal association between the Abathomphalus mayaroensis Zone and the “Globigerina” eugubina Zone at the Cretaceous Tertiary boundary in the Barranco Del Gredero (Caravaca, SE Spain): A preliminary report. I & II. Proc. Kon. Ned. Akad. Weten., ser. B. 80: 280–301.Google Scholar

Smith, P. B. 1964. Ecology of benthonic species. U.S. Geol. Surv. Prof. Paper, 429-A: A1–A39.Google Scholar

Spandel, E. 1902. Die Foraminiferen des Permo-Carbon von Hooser, Kansas, Nord Amerika, In: Festschr. Nat. ges Nurenberg, 1901: 175–194.Google Scholar

Spindler, M. 1980. The pelagic gulfweed Sargassum natans as a habitat for benthic foraminifera Planorbulina acervalis and Rosalina globularis. N. Jb. Geol. Palaontol. Mh., 9: 569–580.Google Scholar

Spindler, M., Hemleben, C., Bé, A. W. H. and Anderson, O. R. 1979. Lunar periodicity of reproduction in the planktonic foraminifer Hastigerina pelagica. Mar. Ecol. Prog. Ser., 1: 61–64.Google Scholar

Srinivasan, M. S. and Kennett, J. P. 1976. Evolution and phenotypic variation in the Late Cenozoic Neogloboquadrina dutertrei plexus. In: Takayanagi, Y., and Saito, T. (eds.), Progress in Micropaleontology, Micropaleontol. Press Spec. Pub. 2: 329–355.Google Scholar

Srinivasan, M. S. and Kennett, J. P. 1981a. Neogene planktonic foraminiferal biostratigraphy and evolution: equatorial to subantarctic, south Pacific. Mar. Micropaleontol., 6: 499–533.Google Scholar

Srinivasan, M. S. and Kennett, J. P. 1981b. A review of Neogene planktonic foraminiferal biostratigraphy: applications in the equatorial and south Pacific. Soc. Econ. Paleontol. Mineral. Spec. Publ. No. 32: 395–432.Google Scholar

St. Jean, J. 1957. A Middle Pennsylvanian foraminiferal fauna from Dubois County, Indiana. Indiana Dept. Conserv. Geol. Surv. Bull., 10: 1–66.Google Scholar

Stainforth, R. M., Lamb, J. L., Luterbacher, H., Beard, J. H. and Jeffords, R. M. 1975. Cenozoic planktonic foraminiferal zonation and characteristics of index forms. Univ. Kansas Paleontol. Contr., Art. 62: 1–425.Google Scholar

Stewart, G. A. and Priddy, R. R. 1941. Arenaceous foraminifera from the Niagaran rocks of Ohio and Indiana. J. Paleontol., 15: 366–375.Google Scholar

Stewart, G. A. and Lampe, L. 1947. Foraminifera from the Middle Devonian bone beds in Ohio. J. Paleontol., 21: 529–536.Google Scholar

Streeter, S. S. 1973. Bottom water and benthonic foraminifera in the Atlantic - glacial interglacial contrasts. Quat. Res. 3: 131–141.Google Scholar

Streeter, S. S. and Lavery, S. A. 1982. Holocene and latest glacial benthic foraminifera from the slope and rise off eastern North America. Geol. Soc. Amer. Bull., 93: 190–199.Google Scholar

Streeter, S. S. and Shackleton, N. J. 1979. Paleocirculation of the deep North Atlantic: 150,000-year record of benthic foraminifera and oxygen-18. Science, 203: 168–171.Google Scholar

Summerson, C. H. 1958. Arenaceous foraminifera from the Middle Devonian limestones of Ohio. J. Paleontol., 32: 544–588.Google Scholar

Talwani, M. and Eldholm, O. 1977. Evolution of the Norwegian-Greenland Sea. Geol. Soc. Amer. Bull., 88: 969–999.Google Scholar

Tappan, H. 1971. Foraminiferida. McGraw-Hill Encyc. Sci. Tech. 5: 467–475.Google Scholar

Tappan, H. and Loeblich, A. R. Jr. 1966. Mikrostruktura stenki rakovin i sistematika nadsemeystva Discorbacea (Foraminiferida) [Microstructure of the shell wall and systematics of the superfamily Discorbacea (Foraminiferida).] Akad. Nauk SSSR, Vopr. Mikropaleont. 10: 375–392.Google Scholar

Tappan, H. and Loeblich, A. R. Jr. 1982. Granuloreticulosa, In: Parker, S. P. (ed.), Synoposis and clasification of living organisms, 1: 527–552, McGraw-Hill, New York.Google Scholar

Tendal, O. S. and Hessler, R. R. 1977. An introduction to the biology and systematics of Komokiacea (Textulariina, Foraminiferida). Galathea Rept. 14: 165–194.Google Scholar

Thompson, M. L. 1964. Fusulinacea, In: Leblich, A. R. Jr. and Tappan, H., Sarcodina, chiefly “Thecamoebians” and Foraminiferida. Treatise on Invertebrate Paleontology, Pt. C., Protista 2 (Moore, R. C., ed.), Geol. Soc. Amer. and Univ. Kansas Press, Lawrence, p. 358–436.Google Scholar

Thorson, G. 1966. Some factors influencing the recruitment and establishment of marine benthic communities. Neth. J. Sea Res. 3: 267–293.Google Scholar

Tjalsma, R. C. 1982. What happens to deep-sea benthic foraminifera near the Eocene/Oligocene boundary? IGCP Proj. 174 Field Conference, Baton Rouge, Jan. 19–29, 1981.Google Scholar

Tjalsma, R. C. and Lohmann, G. P. 1982. Paleocene-Eocene bathyal and abyssal benthic foraminifera from the Atlantic Ocean. Micropaleontology Spec. Publ., 4.Google Scholar

Todd, R. 1965. A new Rosalina (foraminifera) parasitic on a bivalve. Deep-Sea Res., 12: 831–837.Google Scholar

Tolderlund, D. S. and Bé, A. W. H. 1971. Seasonal distribution of planktonic foraminifera in the western North Atlantic. Micropaleontology, 17(3): 297–329.Google Scholar

Toomey, D. F. 1972. The biota of the Pennsylvanian (Virgilian) Leavenworth Limestone, midcontinental region. Part 3: Distribution of calcareous foraminifera. J. Paleontol., 46: 276–278.Google Scholar

Toriyama, R. 1960. Tentative classification of fusulinid foraminifera. Fossils, 1: 34–38.Google Scholar

Towe, K. M. 1971. Lamellar wall construction in planktonic foraminifera, In: Farinacci, A. (ed.), Proc. 2nd Planktonic Conf. Rome: Edizioni Tecnoscienza, 2: 1213–1224.Google Scholar

Twain, M. 1897. Cable from London to the Associated Press in response to his premature obituary.Google Scholar

Uchio, T. 1960. Ecology of living benthonic foraminifera from the San Diego area. Cushman Found. Foram. Res. Spec. Pap. 5: 1–72.Google Scholar

Udvardy, M. D. F. 1975. A classification of the biogeographical provinces of the world. IUCN Occasional Paper No. 18: 1–48.Google Scholar

Ulleberg, K. 1974. Foraminifera and stratigraphy of the Viborg Formation in Sofienlund, Denmark. Bull. Geol. Soc. Denmark, 23: 269–291.Google Scholar

Vail, P. R. and Hardenbol, J. 1979. Sea-level changes during the Tertiary. Oceanus, 22: 71–79.Google Scholar

Vail, P. R. and Hardenbol, J. 1981. Effect of sea-level changes on the shelf-slope boundary. Bull. Amer. Assoc. Petrol. Geol., 65: 1003.Google Scholar

Vail, P. R. and Mitchum, R. M. 1980. Global cycles of sea-level change and their role in exploration. Proc. Tenth World Petrol. Congr., 2, Expl. Supply and Demand: 95–104.Google Scholar

Vail, P. R., et al., 1977. Seismic stratigraphy and global changes of sea level, In: Payton, C. E. (ed), Seismic strtaigraphy–applications to hydrocarbon exploration. Amer. Assoc. Petrol. Geol. Mem. 26: 49–205.Google Scholar

Valentine, J. W. 1968. The evolution of ecological units above the population level. J. Paleontol. 42: 253–267.Google Scholar

Van Couvering, J. A., et al. 1976. The terminal Miocene event. Mar. Micropaleontol., 1: 263–286.Google Scholar

Van Couvering, J. A., et al. 1981. The terminal Eocene event and the Polish connection. Palaeogeogr., Palaeoclimatol., Palaeoecol., 36: 321–362.Google Scholar

VandenBerg, J. and Wonders, A. A. H. 1979. Paleomagnetism of Late Mesozoic pelagic limestones from the Southern Alps. Geol. Ultraiectina 20: 125–136.Google Scholar

Van Hinte, J. E. 1965. Some foraminifera and correlation of the type Campanian. Proc. 2nd W. Afr. Micropal. Coll. Ibadan 1965: 86–92.Google Scholar

Van Hinte, J. E. 1976. A Cretaceous time scale. Bull. Amer. Assoc. Petrol. Geol., 60: 498–516.Google Scholar

Van Hinte, J. E. 1978. Geohistory analysis–application of micropaleontology in exploration geology. Bull. Amer. Assoc. Petrol. Geol., 62: 201–222.Google Scholar

Van Hinte, J. E. 1979. The Coniacian, Santonian and Campanian stratotypes. Lethaia, 12: 183–187.Google Scholar

Veerbeck, J. W. 1977. Calcareous nannoplankton biostratigraphy of Middle and Upper Cretaceous deposits in Tunisia, southern Spain and France. Utrecht Micropal. Bull. 16: 1–157.Google Scholar

Veerbeck, J. W. 1978. Phylogeny, classification and biostratigraphic distribution of keeled Rotaliporinae. Proc. Kon. Ned. Akad. Wet., ser. B, 81: 113–143.Google Scholar

Walton, W. R. 1964. Recent foraminiferal ecology and paleoecology, In: Imbrie, J. and Newell, N. D. (eds.), Approaches to Paleoecology, John Wiley, New York, 151–237.Google Scholar

Warthin, A. S. Jr. 1930. Micropaleontology of the Wetumka, Wewoka, and Holdenville Formations. Oklahoma Geol. Surv. Bull., 53: 1–94.Google Scholar

Waters, J. A. 1927. A group of foraminifera from the Dornick Hills Formation of the Ardmore Basin (Oklahoma). J. Paleontol., 1: 129–133.Google Scholar

Waters, J. A. 1928. A group of foraminifera from the Canyon division of the Pennsylvanian formations in Texas. J. Paleontol., 1: 271–275.Google Scholar

Watts, A. B. and Steckler, M. S. 1979. Subsidence and eustacy at the continental margin of eastern North America, In: Talwani, M., Hay, W. F., and Ryan, W. B. F. (eds.), Deep drilling results in the Atlantic Ocean: continental margins and paleoenvironment. Amer. Geophys. Union, M. Ewing Ser., 3: 218–234.Google Scholar

Webb, P. N. 1973. Upper Cretaceous-Paleocene foraminifera from Site 208 (Lord Howe Rise, Tasman Sea), DSDP Leg 21. Init. Rept. Deep Sea Drill. Proj., 21: 541–573.Google Scholar

Wefer, G. 1976. Environmental effects on growth rates of benthic foraminifera (shallow water, Baltic Sea). Maritime Sed. Spec. Pub., 1: 39–50.Google Scholar

Wefer, G., Killingley, J. S. and Lutze, G. F. 1981. Stable isotopes in Recent larger foraminifera. Palaeogeogr., Palaeoclimatol., Palaeoecol., 33: 253–270.Google Scholar

Williams, D. F., Rottger, R., Schmaljohann, R. and Keigwin, L. 1981. Oxygen and carbon isotopic fractionation and algal symbiosis in the benthic foraminiferan Heterostegina depressa. Palaeogeogr., Palaeoclimatol., Palaeoecol., 33: 231–251.Google Scholar

Wonders, A. A. H. 1980. Middle and Late Cretaceous planktonic foraminifera of the western Mediterranean area. Utrecht Micropaleontol., Bull., 15: 7–157.Google Scholar

Woodruff, F., and Douglas, R. G. 1981. Response of deep-sea benthic foraminifera to Miocene paleoclimatic events. DSDP Site 289. Mar. Micropaleontol., 6: 617–632.Google Scholar

Woodruff, F., Savin, S. M. and Douglas, R. G. 1981. Miocene stable isotope record: a detailed Pacific deep ocean study and its paleoclimatic implications. Science, 212: 665–668.Google Scholar

Woodward, S. P. 1856. A Manual of the Mollusca, or, a Rudimentary Treatise of Recent and Fossil Shells. John Weale, London, 524 p.Google Scholar

Worthington, L. V. 1976. On the North Atlantic circulation. J. Hopkins Oceanographic Studies, no. 6: 1–110.Google Scholar

Wright, R. 1979. Benthic foraminiferal repopulation of the Mediterranean after the Messinian (Late Miocene) event. Palaeogeogr. Palaeoclimatol., Palaeoecol., 29: 189–214.Google Scholar

Zaninetti, L. 1976. Les foraminifères du Trias. Essai de synthèse et corrélation entre les domaines Mésogéens Européen et Asiatique. Riv. Ital. Paleontol. Stratig., 82: 1–258.Google Scholar

Linxin, Zhang, Yujin, Wang and Jianhua, Wang. 1981. Classification of Fusulinida. Selected Papers 1st Conv. Micropalaeontol. Soc. China: 30–36.Google Scholar

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