Free access
Issue
Ann. For. Sci.
Volume 59, Number 4, May-June 2002
Page(s) 345 - 357
DOI http://dx.doi.org/10.1051/forest:2002011

References

  1. Anderson E.D., Owens J.N., Megagametophyte development, fertilization, and cytoplasmic inheritance in Taxus brevifolia, Int. J. Plant Sci. 160 (1999) 459-469.
  2. Barner H., Christiansen H., The formation of pollen, the pollination mechanism, and the determination of the most favourable time for controlled pollinations in Larix, Silvae Genet. 9 (1960) 1-11.
  3. Barner H., Christiansen H., The formation of pollen, the pollination mechanism, and the determination of the most favourable time for controlled pollination in Pseudotsuga menziesii, Silvae Genet. (1962) 89-102.
  4. Brown R., Character and description of Kingia, a new genus of plants found on the southwest coast of New Holland: with observations on the structure of its unimpregnated ovulum; and on the female flower of Cycadeae and Coniferae, in: King P.P. (Ed.) Narrative of a Survey of the Intertropical and western coasts of Australia, performed between years 1818 and 1822, John Murray, London, 1827, pp. 534-565.
  5. Brunsfeld S.J., Soltis P.S., Soltis D.S., Gadek P.A., Quinn C.J., Strenge D.D., Ranker T.A., Phylogenetic relationships among the genera of Taxodiaceae and Curpressaceae: evidence from rbcL sequences, Syst. Bot. 19 (1994) 253-262.
  6. Buchholz J.T., The classification of the Coniferales, Trans. Ill. Acad. Sci. 25 (1934) 112-113.
  7. Buchholz J.T., The cause of sterility in cross-pollinations between species of pines, Amer. J. Bot. 31 supplement (1944) 2.
  8. Carafa A.M., Carratu G., Pizzolongo P., Anatomical observations on the nucellar apex of Welwitschia mirabilis and the chemical composition of the micropylar drop, Sex. Plant Repro. 5 (1992) 275-279.
  9. Chamberlain C.J., Gymnosperms: structure and evolution, Dover Publications Inc., New York, 1935.
  10. Chesnoy L., Les sécrétions dans la pollinisation des gymnospermes, Acta bot. Gall. 140 (1993) 145-156.
  11. Cheung A.Y., The pollen tube growth pathway: its molecular and biochemical contributions and responses to pollination, Sex. Plant Repro. 9 (1996) 330-336.
  12. Christiansen H., On the pollen grain and the fertilization mechanism of Pseudotsuga menziesii (Mirbel) Franco var. viridis Schwer., Silvae Genet. 18 (1969) 97-104.
  13. Colangeli A.M., Owens J.N., Postdormancy seed-cone development and the pollination mechanism in western hemlock (Tsuga heterophylla), Can. J. For. Res. 19 (1989) 44-53.
  14. Dogra P.D., Pollination mechanisms in gymnosperms, in: Advances in palynology, Annual report, National Botanical Garden, Lucknow, 1964.
  15. Doyle J., Development lines in pollination mechanisms in the Coniferales, 24 (1945) 43-62.
  16. Doyle J., O'Leary M., Pollination in Pinus, Sci. Proc. R. Dublin Soc. 21 (1935) 180-190.
  17. Duhoux E., PhamThi A., Influence de quelques acides aminés libres de l'ovule sur la croissance et le développement cellulaire in vitro du tube pollinique chez Juniperus communis (Cupressacées), Physiol. Plant. 50 (1980) 6-10.
  18. Florin R., Evolution in cordaites and conifers, Acta Horti Berg. 15 (1951) 1-389.
  19. Franssen-Verheijen A.A.W., Willemse M.T.M., Micropylar exudate in Gasteria (Aloaceae) and its possible function in pollen tube growth, Amer. J. Bot. 80 (1993) 253-262.
  20. Fujii K., Uber die Bestäubungstropfen der Gymnospermen, Ber. Dtsch. Bot. Ges. 21 (1903) 211-217.
  21. Gadek P.A., Alpers D.L., Heslewood M.M., Quinn C.J., Relationships within Cupressaceae sensu lato: A combined morphological and molecular approach, Amer. J. Bot. 87 (2000) 1044-1057.
  22. Gifford E.M., Foster A.S., Morphology and evolution of vascular plants, 3rd ed., W.H. Freeman and Co., San Francisco, 1989.
  23. Greenwood M.S., Gene exchange in loblolly pine: the relation between pollination mechanism, female receptivity and pollen availability, Amer. J. Bot. 73 (1986) 1443-1451.
  24. Hagman M., Incompatibility in forest trees, Roy. Proc. Soc. London (B) (1975) 313-326.
  25. Hart J.A., A cladistic analysis of conifers: preliminary results, J. Arn. Arb. 68 (1987) 269-307.
  26. Kinter M., Sherman N.E., Protein sequencing and identification using tandem mass spectrometry, John Wiley and Sons, New York, 2000.
  27. Kormutak A., Self-incompatibility in silver fir (Abies alba), Biologia 54 (1999) 101-105.
  28. Kosinski G., Megagametogenesis, fertilization, and embryo development in Larix decidua, Can. J. For. Res. 16 (1986) 1301-1309.
  29. Lill B.S., Sweet G.B., Pollination in Pinus radiata, New Zeal. J. For. Sci. 7 (1977) 21-34.
  30. McWilliam J.R., The role of the micropyle in the pollination of Pinus, Bot. Gaz. 120 (1958) 109-117.
  31. McWilliam J.R., Interspecific incompatibility in Pinus, Amer. J. Bot. 46 (1959) 425-433.
  32. Nygaard P., Utilization of exogenous carbohydrates for tube growth and starch synthesis in Pine pollen suspension cultures, Physiol. Plant. 39 (1977) 206-210.
  33. Orr-Ewing A.L., Further inbreeding studies with Douglas fir, For. Chron. 33 (1957) 18-32.
  34. Owens J.N., Blake M.D., Pollen morphology and development of the pollination mechanisms in Tsuga heterophylla and T. mertensiana, Can. J. Bot. 61 (1983) 3041-3048.
  35. Owens J.N., Blake M.D., The pollination mechanism of Sitka spruce (Picea sitchensis), Can. J. Bot. 62 (1984) 1136-1148.
  36. Owens J.N., Blake M.D., Forest tree seed production: a review of the literature and recommendations for future research, Canadian Forestry Service, Agriculture Canada, 1985.
  37. Owens J.N., Molder M., Pollination, female gametophyte, and embryo and seed development in yellow cedar (Chamaecyparis nootkatensis), Can. J. Bot. 53 (1975) 186-199.
  38. Owens J.N., Molder M., Sexual reproduction in western red cedar (Thuja plicata), Can. J. Bot. 58 (1980) 1376-1393.
  39. Owens J.N., Morris S.J., Cytological basis for cytoplasmic inheritance in Pseudotsuga menziesii. I. Pollen tube and archegonial development, Amer. J. Bot. 77 (1990) 433-445.
  40. Owens J.N., Simpson S.J., Caron G.E., The pollination mechanism of Engelmann spruce (Picea engelmannii), Can. J. Bot. 65 (1987) 1439-1450.
  41. Owens J.N., Colangeli A., Morris S.J., The effect of self-, cross-, and no pollination on ovule, embryo, seed, and cone development in western red cedar (Thuja plicata), Can. J. For. Res. 20 (1990) 66-75.
  42. Owens J.N., Morris S.J., Catalano G.L., How the pollination mechanism and prezygotic and postzygotic events affect seed production in Larix occidentalis, Can. J. For. Res. 24 (1994) 917-927.
  43. Owens J.N., Takaso T., Runions C.J., Pollination in conifers, Trends Plant Sci. 3 (1998) 479-485.
  44. Pettitt J.M., Detection in primitive gymnosperms of proteins and glycoproteins of possible significance in reproduction, Nature 266 (1977) 530-532.
  45. Pettitt J.M., Ultrastructural and immunocytochemical demonstration of gametophytic proteins in the pollen tube wall of the primitive gymnosperm, Cycas, J. Cell Sci. 57 (1982) 189-213.
  46. Pilger R., Coniferae, in: Engler A., Prantl K. (Eds.), Die Natürlichen Planzenfamilien 13 (1926) 121-149.
  47. Rothwell G., Evidence for a pollination-drop mechanism in Paleozoic pteridosperms, Science 198 (1977) 1251-1252.
  48. Runions C.J., Owens J.N., Pollen scavenging and rain involvement in the pollination mechanism of interior spruce, Can. J. Bot. 74 (1996) 115-124.
  49. Runions C.J., Owens J.N., Evidence of pre-zygotic self-incompatibility in a conifer, in: Owens S.J., Rudall P.J. (Eds.), Reproductive biology, Royal Botanic Gardens, Kew, 1998, pp. 255-264.
  50. Runions C.J., Rensing K.H., Takaso T., Owens J.N., Pollination of Picea orientalis (Pinaceae): saccus morphology governs pollen buoyancy, Amer. J. Bot. 86 (1999) 190-197.
  51. Sage T.L., Bertin R.I., Williams E.G., Ovarian and other late-acting self-incompatibility systems, in: Williams E.G., Knox R.B., Clarke A.E. (Eds.), Genetic control of self-incompatibility and reproductive development in flowering plants, Kluwer Academic Publishers, The Netherlands, 1994, pp. 116-140.
  52. Said C., Différenciation et reconnaissance des gamétophytes male et femelle chez Larix leptolepis : étude structurale, Ph.D. thesis, Université Claude Bernard - Lyon I, 1988.
  53. Said C., Villar M., Zandonella P., Ovule receptivity and pollen viability in japanese larch (Larix leptolepis Gord.), Silvae Genet. 40 (1991) 1-6.
  54. Sarvas R., Investigations on the flowering and seed crop of Pinus sylvestris, Metsämtutkimuslaitoksen Julkaisuja (Comm. Inst. For. Fenn.) 53(4) (1962) 1-198.
  55. Seridi-Benkaddour R., Chesnoy L., Secretion and composition of the pollination drop in the Cephalotaxus drupacea (Gymnosperm, Cephalotaxaceae), in: Cresti M., Gori P., Pacini E. (Eds.), Sexual reproduction in higher plants, Springer Verlag, Berlin, 1988, pp. 345-350.
  56. Shimizu K., Okada K., Attractive and repulsive interactions between female and male gametophytes in Arabidopsis pollen tube guidance, Development 127 (2000) 4511-4518.
  57. Singh H., Embryology of gymnosperms, Gebrüder Borntraeger, Stuttgart, 1978.
  58. Singh H., Owens J.N., Sexual reproduction in subalpine fir (Abies lasiocarpa), Can. J. Bot. 59 (1981) 2650-2666.
  59. Stefanovic S., Jager M., Deutsch J., Broutin J., Masselot M., Phylogenetic relationships of conifers inferred from partial 28S rRNA gene sequences, Amer. J. Bot. 85 (1998) 688-697.
  60. Stockwell W.P., Pre-embryonic selection in the pines, Jour. Forest. 37 (1939) 541-543.
  61. Strasburger E., Die Bestäubung der Gymnospermen, Jena. Z. Med. Naturw. 6 (1871) 249-262.
  62. Takaso T., Owens J.N., Effects of ovular secretions on pollen in Pseudotsuga menziesii (Pinaceae), Amer. J. Bot. 81 (1994) 504-513.
  63. Takaso T., Owens J.N., Pollination drop and microdrop secretions in Cedrus, Int. J. Plant Sci. 156 (1995) 640-649.
  64. Takaso T., Owens J.N., Postpollination-prezygotic ovular secretions into the -micropylar canal in Pseudotsuga menziesii (Pinaceae), J. Plant Res. 109 (1996) 147-160.
  65. Takaso T., Owens J.N., Ovulate cone, pollination drop, and pollen capture in Sequoiadendron (Taxodiaceae), Amer. J. Bot. 83 (1996) 1175-1180.
  66. Takaso T., von Aderkas P., Owens J.N., Prefertilization events in ovules of Pseudotsuga: ovular secretion and its influence on pollen tubes, Can. J. Bot. 74 (1996) 1214-1219.
  67. Taylor T.N., Millay M.A., Pollination biology and reproduction in early seed plants, Rev. Palaeobot. Palynol. 27 (1979) 329-355.
  68. Tison A., Remarques sur les goutelettes collectrices des ovules des Conifères, Mem. Soc. Linné Normandie 24 (1911) 51-61.
  69. Tomlinson P.B., Pollen scavenging as a novel reproductive mechanism in Podocarpaceae, Res. Expl. 7 (1991) 188-195.
  70. Tomlinson P.B., Functional morphology of saccate pollen in conifers with special reference to Podocarpaceae, Int. J. Plant Sci. 155 (1994) 699-715.
  71. Tomlinson P.B., Braggins J.E., Rattenbury J.A., Pollination drop in relation to cone morphology in Podocarpaceae: a novel reproductive mechanism, Amer. J. Bot. 78 (1991) 1289-1303.
  72. Tomlinson P.B., Braggins J.E., Rattenbury J.A., Contrasted pollen capture mechanisms in Phyllocladaceae and certain Podocarpaceae (Coniferales), Amer. J. Bot. 84 (1997) 214-223.
  73. Vaucher J.P., Histoire physiologique des plantes d'Europe, Vol. 4, Marc Aurel Frères, Paris, 1841.
  74. Villar M., Knox R.B., Dumas C., Effective pollination period and nature of pollen-collecting apparatus in the gymnosperm, Larix leptolepis, Ann. Bot. 53 (1984) 279-284.
  75. von Aderkas P., Leary C., Ovular secretions in the micropylar canal of larches (Larix kaempferi and L. x eurolepis), Can. J. Bot. 77 (1999) 531-536.
  76. von Aderkas P., Leary C., Micropylar exudates in Douglas fir - timing and volume of production, Sex. Plant Repro. 11 (1999) 354-356.
  77. Willson M.F., Sexual selection in plants: perspective and overview, Amer. Nat. 144 (1994) S13-S39.
  78. Willson M.F., Burley N., Mate choice in plants: tactics, mechanisms and consequences, Princeton University Press, Princeton, 1983.
  79. Ziegler H., Ueber die Zusammensetzung des "Bestäubungstropfens" und den Mechanismus seiner Sekretion, Planta 52 (1959) 587-599.

Abstract

Copyright INRA, EDP Sciences