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  • Adey, W. H., D. L. McKibbin, Studies on the maerl species Phymatolithon calcareum Pallas (nov. comb.) and Lithothamnium corallioides Crouan in the Ria de Vigo, Bot. Mar., 12, 100106, 1970.
  • Adey, W. H., I. G. Macintyre, Crustose coralline algae: A Re-evaluation in the geological sciences, Geol. Soc. Am. Bull., 84, 883904, 1973.
  • Agegian, C. R., Growth of the branched coralline alga, Porolithon Gardineri (FOSLIE) in the Hawaiian Archipelago, The Reef and Man: Proceedings of the Fourth International Coral Reef Symposium, Manila, Phillipines, 18–22. May 1981, , 2, 419423, University of the Philippines, Mar. Sci. Cent., Quezon City, Phillipines, 1981.
  • Bosellini, A., R. N. Ginsburg, Form and internal structure of recent algal nodules (rhodolites) from Bermuda, J. Geol., 79, 669682, 1971.
  • Bosence, D. W. J., Ecological studies on two unattached coralline algae from western Ireland, Palaeontology, 192, 365395, 1976.
  • Bosence, D. W. J., Description and classification of rhodoliths (rhodoids, rhodolites), Coated GrainsT. M. Peryt, 217224, Springer-Verlag, New York, 1983.
  • Carannante, G., C. Severi, L. Simone, Off-shelf carbonate transport along foramol (temperate-type) open shelf margins: An example from the Miocene of the central-southern Apennines (Italy), Mem. Soc. Geol. Fr., 169, 277288, 1996.
  • Chave, K. E., Aspects of the biogeochemistry of magnesium, 1, Calcareous marine organisms, J. Geol., 62, 266283, 1954.
  • Chave, K. E., B. D. Wheeler Jr., Mineralogic changes during growth in the red alga, Clathromorphum compactum, Science, 147, 621, 1965.
  • Dettman, D. L., K. C. Lohmann, Seasonal change in Paleogene surface water δ18O: Fresh-water bivalves of western North America, Climate Change in Continental Isotopic Records, Geophys. Monogr. Ser., 78P. K. Swart, et al., 153163, AGU, Washingtion, D.C., 1993.
  • Edyvean, R. G., H. Ford, Growth rates of Lithophyllum incrustans (Corallines, Rhodophyta) from south Wales, Br. Phycol., 22, 139146, 1987.
  • Epstein, S., R. Buchsbaum, H. A. Lowenstam, H. C. Urey, Revised carbonate-water isotopic temperature scale, Geol. Soc. Am. Bull., 64, 13151326, 1953.
  • Foster, M. S., R. Riosmena-Rodriguez, D. Steller, W. J. Woelkerling, Living rhodolith beds in the Gulf of California and their Implications for paleoenvironmental interpretation, Spec. Pap. Geol. Soc. Am., 318, 127139, 1997.
  • Frantz, B. R., Growth rate and potential climate record from a rhodolith using 14C AMS (abstract), Eos Trans. AGU, 8017, Spring Meet. Suppl, S176, 1999.
  • Freiwald, A., Sedimentological and biological aspects in the formation of branched rhodoliths in northern Norway, Beitr. Palaeontol., 20, 719, 1995.
  • Freiwald, A., R. Henrich, Reefal coralline algal build-ups within the Arctic Circle: Morphology and sedimentary dynamics under extreme environmental seasonality, Sedimentology, 41, 963984, 1994.
  • Georgina-Rivera, M., Edad y crecimiento de Lithothamnium crassiusculum (Foslie) Mason (Corallinales, Rhodophyta) en el suroeste del Golfo de California, Mexico, B.S. thesis, 63pp.,Univ. Autonoma de Baja Calif.,La Paz, Mexico,1999.
  • Goreau, T. F., Calcium carbonate deposition by coralline algae and corals in relation to their roles as reef-builders: Comparative biology of calcified tissue, Ann. N. Y. Acad. Sci., 109, 127167, 1963.
  • Halfar, J., Warm-temperate to subtropical shallow water carbonates of the southern Gulf of California and geochemistry of rhodoliths, Ph.D. thesis,Stanford Univ.,Stanford, Calif.,1999.
  • Halfar, J., T. Zack, A. Kronz, J. Zachos, Palaeoenvironmental signals and growth rates of rhodoliths— A geochemical approach, Mineral. Mag., Part 2, 62A, 559560, 1998.
  • Henrich, R., A. Freiwald, A. Wehrmann, P. Schäfer, C. Samtleben, H. Zankl, Nordic cold-water carbonates: Occurrences and controls, Global and Regional Controls on Biogenic SedimentationJ. Reitner, F. Neuweiler, F. Gunkel, 3553, Göttinger Arbeiten Geol. Paläontol., Sb 2, Göttingen, Germany, 1996.
  • Houghton, R. W., R. G. Fairbanks, Water Sources for Georges Bank, Deep-Sea Research, II, 2000.
  • , Coralline Algae: A First SynthesisH. W. Johansen, 239, CRC Press, Boca Raton, Fla., 1981.
  • Jones, D. S., Sclerochronology: Reading the record of the molluscan shell, Am. Sci., 71, 384391, 1983.
  • Juillet-Leclerc, A., H. Schrader, Variations of upwelling intensity recorded in varved sediment from the Gulf of California during the past 3,000 years, Nature, 329, 146149, 1987.
  • Klein, R. T., K. C. Lohmann, C. W. Thayer, Bivalve skeletons record sea-surface temperature and δ18O via Mg/Ca and 18O/16O ratios, Geology, 245, 415418, 1996.
  • Lea, D. W., D. K. Pak, A. Dave, H. J. Spero, Using Mg-paleothermometry to reconstruct glacial sea surface temperatures, Eos Trans., AGU, 7945, Fall Meet. Suppl., F471, 1998.
  • Logan, B. W., J. L. Harding, W. M. Ahr, J. D. Williams, R. G. Snead, Carbonate sediments and reefs, Yucatan Shelf, Mexico, Mem. Am. Assoc. Pet. Geol., 11, 1198, 1969.
  • Milliman, J. D., Marine Carbonates, 375, Springer-Verlag, New York, 1974.
  • Mitsuguchi, T., E. Matsumoto, O. Abe, T. Uchida, P. J. Isdale, Magnesium/calcium ratio of coral skeletons as a paleothermometer, Proceedings of the 8th International Coral Reef Symposium, Panama City, Republic of Panama, 24–29 June 1981, , 2, 17011706, Smithsonian Tropical Research Institute, Balboa, Republic of Panama, 1997.
  • Moberly Jr., R., Composition of magnesian calcites of algae and pelecypods by electron microprobe analysis, Sedimentology, 11, 6182, 1968.
  • , National Oceanographic Data Center, World Ocean Atlas, CD-ROM data sets, Nat. Oceanic and Atmos. Admin., Silver Springs, Md., 1998.
  • Padilla, D. K., Algal structural defenses: Form and calcification in resistance to tropical limpets, Ecology, 70, 835842, 1989.
  • Pitlik, T. J., V. J. Paul, Effects of toughness, calcite level, and chemistry of crustose coralline algae (rhodophyta, corallinales) on grazing by the parrotfish Chlorus Sordidus, Proceedings of the 8th International Coral Reef Symposium, Panama City, Republic of Panama, 24–29 June 1981, , 1, 701706, Smithsonian Tropical Research Institute, Balboa, Republic of Panama, 1997.
  • Rahimpour-Bonab, H., Y. Bone, R. Moussavi-Harami, K. Turnbull, Geochemical comparisons of Modern cool-water calcareous biota, Lacepede Shelf, south Australia, Cool-Water CarbonatesN. P. James, J. A. D. Clarke, Spec. Publ. SEPM, Soc. Sediment. Geol., 56, 7792, 1997.
  • Reichart, G.-J., I. Horn, S. R. van derLaan, W. F. McDonough, R. Witbaard, Multi-year, intra-annual climate signals from trace element records of Quahog shells (Arctica islandica) by LA-ICP-MS, Mineral. Mag., 62A, 12431244, 1998.
  • Sears, J. R., NEAS keys to the benthic marine algae of the northeastern coast of North America from Long Island Sound to the Strait of Belle Isle, NEAS Contrib., 1, 153, 1998.
  • Steneck, R., The ecology of coralline algal crusts: Convergent patterns and adaptive strategies, Annu. Rev. Ecol. Syst., 17, 273303, 1986.
  • Steneck, R. S., Crustose corallines, other algal functional groups, herbivores and sediments: Complex interactions along reef productivity gradients, Proceedings of the 8th International Coral Reef Symposium, Panama City, Republic of Panama, 24–29 June 1981, , 1, 695700, Smithsonian Tropical Research Institute, Balboa, Republic of Panama, 1997.
  • Tarutani, T., R. N. Clayton, T. K. Mayeda, The effect of polymorphism and magnesium substitution on oxygen isotope fractionation between calcium carbonate and water, Geochim. Cosmochim. Acta, 33, 987996, 1969.
  • Wefer, G., W. H. Berger, Isotope paleontology: Growth and composition of extant calcareous species, Mar. Geol., 100, 207248, 1991.
  • Weidman, C. R., G. A. Jones, K. C. Lohmann, The long-lived mollusc Arctica islandica: A new paleoceanographic tool for the reconstruction of bottom temperatures for the continental shelves of the northern North Atlantic Ocean, J. Geophys. Res., 99, 1830518314, 1994.