Abstract
The Southern Hemisphere conifer family Araucariaceae has a very restricted present day distribution, but was more widespread in the past. The genusAraucaria is represented by good fossil material in both hemispheres as early as the Jurassic, whileAgathis is only known from the Southern Hemisphere beginning in the Cretaceous. Cuticle studies of extant araucarians have enabled accurate comparisons of fossil leaves to living taxa.Araucaria SectionBunya is represented by cones of several types in the Jurassic. In addition to these remains, a suite of araucarian cones showing affinities to several sections of the genusAraucaria have been described from England, Japan and North America. Evidence that fossil araucarian cones may have produced seeds with hypogeal germination is discussed in light of recent work on germination of extant bunya seedlings and the discovery of new fossil shoots from the Jurassic Morrison Formation of Utah.
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References
Alvin, K.L. andBoulter, M.C. 1974. A controlled method of comparative study of taxodiaceous cuticles. J. Linn. Soc. (Bot.)69: 277–286.
Barale, G. 1992. De nouveaux restes fossiles attribues aux Araucariacées dan les calcaires lithographiques du Crétacé inférieur du Montsec (province de Lérida, Espagne). Rev. Palaeobot. Palynol.75: 53–64.
Bigwood, A.J. andHill, R.S. 1985. Tertiary araucarian macrofossils from Tasmania. Aust. J. Bot.33: 645–656.
Bose, M.N. 1975.Araucaria haastii Ettingshausen from Shag Point, New Zealand. Palaeobotanist22: 76–80.
Burrows, G.E., Boag, T.S., andStockey, R.A. 1992. A morphological investigation of the unusual cryptogeal germination strategy of bunya pine (Araucaria bidwillii)-an Australian rain forest conifer. Int. J. Plant Sci.153: 503–512.
Burrows, G.E. andStockey, R.A. 1994. The developmental anatomy of cryptogeal germination in bunya pine (Araucaria bidwillii) Int. J. Plant Sci.155: 519–537.
Cookson, I.C. andDuigan, S.L. 1951. Tertiary Aracariaceae from southeastern Australia, with notes on living species. Aust. J. Sci. Res. Ser. B.4: 415–449.
Calder, M.G. 1953. A coniferous petrified forest in Patagonia. Bull. Br. Mus. (Nat. Hist.) Geol.2: 197–137.
Cantrill, D.J. 1992. Araucarian foliage from the Lower Cretaceous of southern Victoria, Australia. Int. J. Plant Sci.153: 622–645.
Carruthers, W. 1866. On araucarian cones from the Secondary Beds of Britain. Geol. Mag.3: 249–252.
Clarkson, J.R. andClifford, H.T. 1987. Germination ofJedda multicaulis J.R. Clarkson (Thymelaeaceae): an example of cryptogeal germination in the Australian flora. Aust. J. Bot.35: 715–720.
Eames, A.J. 1913. The morphology ofAgathis australis. Ann. Bot.27: 1–38.
Florin, R. 1931. Untersuchungen zur Stammesgeschichte der Coniferales und Cordaitales. K. Svensk. Vetenskapakad. Handl. Ser. 5.10: 1–588.
Florin, R. 1963. The distribution of conifer and taxad genera in time and space. Acta Horti Bergiani20: 121–312.
Greenwood, D.R. 1987. Early Tertiary Podocarpaceae: megafossils from the Eocene Anglesea Locality, Victoria, Australia. Aust. J. Bot.35: 111–133.
Greguss, P. 1955. Identification of Living Gymnosperms on the Basis of Xylotomy. Akad. Kiadó, Budapest.
Harris, T.M. 1979. The Yorkshire Jurassic Flora. V. Coniferales. Br. Mus. (Nat. Hist.)803: 1–166.
Hill, R.S. 1990.Araucaria (Araucariaceae) species from Australian Tertiary sediments—a micromorphological study. Aust. Syst. Bot.3: 203–220.
Hill, R.S. andBigwood, A.J. 1987. Tertiary gymnosperms from Tasmania: Araucariaceae. Alcheringa11: 325–335.
Hill, R.S. andPole, M.S. 1992. Leaf and shoot morphology of extantAfrocarpus, Nageia andRetrophyllum (Podocarpaceae) species, and species with similar leaf arrangement from Tertiary sediments in Australasia. Aust. Syst. Bot.5: 337–358.
Hlustik, A. 1976. Contribution to the systematic and leaf anatomy of the genusDammarites Presl in Sternberg. Sbornik Národniho Muzea V Praze. Rada B.30: 49–70.
Hughes, N.F. 1969. Jurassic and Early Cretaceous pollen and spores,In R.H. Tschudy and R.A. Scott, eds. Aspects of Palynology. Wiley, New York. pp. 311–329.
Jane, F.W. 1970. The Structure of Wood. 2nd ed. Adam and Charles Black, London.
Joy, K.V., Willis, A.J. andLacey, W.S. 1956. A rapid cellulose peel technique in Paleobotany. Ann. Bot. N.S.20: 635–637.
Kendall, M.W. 1947. Some conifers from the Jurassic of England. Ann. Mag. Nat. Hist. Ser.12: 583–594.
Kendall, M.W. 1949. A Jurassic member of the Araucariaceae. Ann. Bot. N.S.13: 151–161.
Knobloch, E. 1973. Nomenklatorische und taxonomische Bermerkungen zur GattungDammarites Presl in Sternberg. Ber. Dtsch. Gesell. geol. Wiss. A. Geol. Palaont. Berlin.1: 967–973.
Menendez, C.A. andCaccavari, M.A. 1966. Estructura epidermica deAraucaria nathorsti Dus. det Terciaro de Pico Quemado, Rio Negro. Ameghiniana4: 195–199.
Nishida, H. 1991. Diversity and significance of Late Cretaceous permineralized plant remains from Hokkaido, Japan. Bot. Mag. Tokyo.104: 253–273.
Ohana, T. andKimura, T. 1993. PermineralizedBrachyphyllum leafy branches from the Upper Yezo Group (Coniacian-Santonian), Hokkaido, Japan. Bull. Nat. Sci. Mus. Ser. C. (Geol. and Paleontol.)19: 41–64.
Pant, D.D. andSrivastava, G.K. 1968. On the cuticular structure ofAraucaria (Araucarites) cutchensis (Feistmantel) comb. nov. from the Jabalpur Series, India. J Linn. Soc. (Bot.)61: 201–206.
Pilger, R. 1926. Araucariaceae.In A. Engler and K. Prantl, eds., Die natürlichen Pflanzenfamilien.13. Gymnospermae. Engelmann, Leipzig, pp. 249–266.
Rouane, M.L. andWoltz, P. 1979. Apport de l'étude des plantules pour la taxonomie et l'évolution des Araucariacées. Bull. Soc. Bot. Fr. 126, Actual. Bot.3: 67–76.
Rouane, M.L. andWoltz, P. 1980. Intéret des plantules pour la systématique et l'évolution des Araucarlacées. Bull. Soc. Hist. Nat. Toulouse.116: 120–136.
Stockey, R.A. 1975. Seeds and embryos ofAraucaria mirabilis. Amer. J. Bot.62: 856–868.
Stockey, R.A. 1977. Reproductive biology of the Cerro Cuadrado (Jurassic) conifers:Pararaucaria patagonica. Amer. J. Bot.64: 733–744.
Stockey, R.A. 1978. Reproductive biology of Cerro Cuadrado fossil conifers: Ontogeny and reproductive strategies inAraucaria mirabilis (Spegazzini) Windhausen. Palaeontographica B.166: 1–15.
Stockey, R.A. 1980a. Anatomy and morphology ofAraucaria sphaerocarpa Carruthers from the Jurassic Inferior Oolite of Bruton, Somerset. Bot. Gaz.141: 116–124.
Stockey, R.A. 1980b. Jurassic araucarian cone from southern England. Palaeontology23: 657–666.
Stockey, R.A. 1982 The Araucariaceae: an evolutionary perspective. Rev. Palaeobot. Palynol.37: 133–154.
Stockey, R.A. 1990. Antarctic and Gondwana conifers.In T.N. Taylor and E.L. Taylor, eds., Antarctic Paleobiology: Its Role in the Recontruction of Gondwana. Springer-Verlag, New York, pp. 179–191.
Stockey, R.A. andAtkinson, I.J. 1993. Cuticle micromorphology ofAgathis Salisbury. Int. J. Plant Sci.154: 187–225.
Stockey, R.A. andKo, H. 1986. Cuticle micromorphology ofAraucaria de Jussieu. Bot. Gaz.147: 508–548.
Stockey, R.A. andTaylor, T.N. 1978. On the structure and evolutionary relationships of the Cerro Cuadrado fossil conifer seedlings. J. Linn. Soc. London (Bot.)76: 161–176.
Stockey, R.A., Nishida, M. andNishida, H. 1990. Structure and diversity of the woody conifer seedling-like structures from the Upper Cretaceous of Hokkaido, Japan. Bot. Gaz.151: 252–262.
Stockey, R.A., Nishida, H. andNishida, M. 1992. Upper Cretaceous araucarian cones from Hokkaido:Araucaria nihongii sp. nov. Rev. Palaeobot. Palynol.72: 27–40.
Stockey, R.A., Nishida, M. andNishida, H. 1994. Upper Cretaceous araucarian cones from Hokkaido and Saghalien:Araucaria nipponensis sp. nov. Int. J. Plant Sci.155: 800–809.
Taylor, T.N. andTaylor, E.L. 1993. The Biology and Evolution of Fossil Plants. Prentice Hall, Englewood Cliffs, New Jersey.
Tidwell, W.D. andMedlyn, D.A. 1992. Short shoots from the Upper Jurassic Morrison Formation, Utah, Wyoming and Colorado, USA. Rev. Palaeobot. Palynol.71: 219–238.
White, C.T. 1947. Notes on two species ofAraucaria in New Gyinea and a proposed new section of the genus. J. Arnold Arbor.28: 259–260.
White, M.E. 1981. Revision of the Talbragar Fish Bed Flora (Jurassic) of New South Wales. Rec. Aust. Mus.33: 695–721.
Wieland, G.W. 1935. The Cerro Cuadrado Petrified Forest. Carnegie Inst. Wash. Publ.449: 1–183.
Wilde, M.H. andEames, A.J. 1948. The ovule and ‘seed’ ofAraucaria bidwilli with discussion of the taxonomy of the genus. I. Morphology. Ann. Bot. N.S.12: 311–326.
Wilde, M.H. andEames, A.J. 1952. The ovule and ‘seed’ ofAraucaria bidwilli with discussion of the taxonomy of the genus. II. Taxonomy. Ann. Bot. N.S.16: 27–47.
Woltz, P. 1986. LesPodocarpus (s.l.) origines et evolution. Étude des plantules: comparaison avec les familles de confées de l'hemisphere sud. Thesis. Univ. Aix-Marseille III (St-Jérome).
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Stockey, R.A. Mesozoic Araucariaceae: Morphology and systematic relationships. J. Plant Res. 107, 493–502 (1994). https://doi.org/10.1007/BF02344070
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DOI: https://doi.org/10.1007/BF02344070