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Reproductive timetable for the tropical Vireya rhododendron, R. Macgregoriae

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Summary

The reproductive development of Rhododendron macgregoriae F.v.M., Section Vireya (Ericaceae) has been followed from 10 days before anthesis to the production of mature germinable seeds about 145 days after anthesis. The species is self-compatible but shows both protandry and physical separation of pollen from the receptive stigma. Pollen is mature and viable from shortly before anthesis until the corolla and attached anthers abscise some 9–12 days after the flowers open. Spontaneous dehiscence, however, occurs mostly in the first few days after opening. The stigma becomes receptive 6–7 days after anthesis, and nectar is produced at this time. Female gametophytes are not mature until about 10 days after anthesis. Fertilization occurs about 6–7 days after pollination, and although the endosperm commences development immediately, development of the embryo proper does not begin until some 40–45 days later. Pollinations made with fresh pollen between 5 and 14 days after anthesis were successful, but those made on dry stigmas in the first 4 days after anthesis, or on senescing pistils 21 days after anthesis, gave little or no seed set. In nature, autogamy is probably uncommon, the majority of pollinations are likely to be geitonogamous, but there is considerable potential for outcrossing.

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References

  • Creech JL (1955) An embryological study in the Rhododendron subgenus Anthodendron. Endl Bot Gaz 116:234–243

    Google Scholar 

  • Cruttwell NEG (1989) Plant hunting in Papua New Guinea. In: Smith J, Clyde J (ed) Proc Fourth Int Rhodo Conf. Wollongong, NSW, Australia, pp 96–102

    Google Scholar 

  • Herr J (1974) A clearing squash technique for the study of ovule and megagametophyte development in angiosperms. In: Radford AE, Dickison WC, Massey JR, Bell CR (eds) Vascular plant systematics. Harper & Row, New York, pp 230–235

    Google Scholar 

  • Heslop-Harrison J, Heslop-Harrison Y (1970) Evaluation of pollen viability by enzymatically induced fluorescence: intercellular hydrolysis of fluorescein diacetate. Stain Technol 45:115–120

    Google Scholar 

  • Heslop-Harrison J, Heslop-Harrison Y, Shivanna KR (1984) The evaluation of pollen quality, and a further appraisal of the fluorochromatic (FCR) test procedure. Theor Appl Genet 67:367–375

    Google Scholar 

  • Kaul V, Rouse JL, Williams EG (1986) Early events in the embryo sac following intra- and interspecific pollinations in Rhododendron kawakamii and R. retusum. Can J Bot 64:282–291

    Google Scholar 

  • Kaul V, Theunis CH, Palser BF, Knox RB, Williams EG (1987) Association of the generative cell and vegetative nucleus in pollen tubes of Rhododendron. Ann Bot 59:227–235

    Google Scholar 

  • Kho YO, Baer J (1970) A microscopical research on the incompatibility in the cross Rhododendron impeditum × R. williamsianum. Euphytica 19:303–309

    Google Scholar 

  • Palser BF, Philipson WR, Philipson MN (1971) Embryology of Rhododendron, introduction and ovule, megagametophyte and early endosperm development in R. yunnanense. J Indian Bot Soc 50A:172–188

    Google Scholar 

  • Palser BF, Philipson WR, Philipson MN (1985) The ovary, ovule and megagametophyte in Rhododendron L. Notes R Bot Gard Edinburgh 43:133–160

    Google Scholar 

  • Palser BF, Philipson WR, Philipson MN (1989a) Development of ovule, megagametophyte and early endosperm in representative species of Rhododendron L. (Ericaceae). Bot J Linn Soc 101:363–393

    Google Scholar 

  • Palser BF, Philipson WR, Philipson MN (1989b) Characteristics of ovary, ovule and mature megagametophyte in Rhododendron L. (Ericaceae) and their taxonomic significance. Bot J Linn Soc (in press)

  • Palser BF, Rouse JL, Williams EG (1989c) Coordinated timetables for megagametophyte development and pollen tube growth in Rhododendron nuttallii from anthesis to early postfertilization. Am J Bot 76:1167–1202

    Google Scholar 

  • Palser BF, Rouse JL, Williams EG (1990) Aberrant ovules and megagametophytes in Rhododendron nuttallii (Ericaceae). Bot Gaz 151:73–87

    Google Scholar 

  • Pienaar R de V (1955) Combinations and variations of techniques for improved chromosome studies in the gramineae. JS Afr Bot 21:1–8

    Google Scholar 

  • Rouse JL, Williams EG (1986) Storage life of Vireya rhododendron seed as affected by temperature and relative humidity. Seed Sci & Technol 14:669–674

    Google Scholar 

  • Sleumer HO (1966) An account of Rhododendron in Malesia. In: Van Steenis CGJ (ed) Flora Malesiana Ser I Spermatophyta 6:474–668

  • Staff IA, Taylor P, Kenrick J, Knox RB (1989) Ultrastructural analysis of plastids in angiosperm pollen tubes. Sex Plant Reprod 2:70–76

    Google Scholar 

  • Taylor P, Kenrick J, Li Y, Kaul V, Gunning BES, Knox RB (1989) The male germ unit of Rhododendron: quantitative cytology, three-dimensional reconstruction and detection using fluorescent probes. Sex Plant Reprod 2:254–264

    Google Scholar 

  • Theunis CH, McConchie CA, Knox RB (1985) Three dimensional reconstruction of the generative cell and its wall connection in mature bicellular pollen of Rhododendron. Micron Microsc Acta 16:225–231

    Google Scholar 

  • Veillet-Bartoszewska M (1957) Ericacees. Developpement de l'embryon chez le Rhododendron ferrugineum L. CR Acad Sci Paris 244:1952–1954

    Google Scholar 

  • Veillet-Bartoszewska M (1959) Developpement de l'albumen chezle Rhododendron ferrugineum L. Bull Bot Soc France 106:17–20

    Google Scholar 

  • Williams EG, Rouse JL (1988) Disparate style lengths contribute to isolation of species in Rhododendron. Aust J Bot 36:183–191

    Google Scholar 

  • Williams EG, Rouse JL (1990) Relationships of pollen size, pistil length and pollen tube growth rates in Rhododendron, and their influence on hybridization. Sex Plant Reprod 3:7–17

    Google Scholar 

  • Williams EG, Knox RB, Rouse JL (1982) Pollination subsystems distinguished by pollen tube arrest after incompatible interspecific crosses in Rhododendron (Ericaceae). J Cell Sci 53:255–277

    Google Scholar 

  • Williams EG, Kaul V, Rouse JL, Knox RB (1984a) Apparent self-incompatibility in Rhododendron ellipticum, R. championae and R. amamiense: a post-zygotic mechanism. Plant Cell Incompat News 16:10–11

    Google Scholar 

  • Williams EG, Knox RB, Kaul V, Rouse JL (1984b) Post-pollination callose development in ovules of Rhododendron and Ledum (Ericaceae): zygote special wall. J Cell Sci 69:127–135

    Google Scholar 

  • Williams EG, Rouse JL, Knox RB (1985) Barriers to sexual compatibility in Rhododendron. Notes R Bot Gard Edinburgh 43:81–98

    Google Scholar 

  • Williams EG, Kaul V, Rouse JL, Palser BF (1986) Overgrowth of pollen tubes in embryo sacs of Rhododendron following inter-specific pollinations. Aust J Bot 34:413–423

    Google Scholar 

  • Williams EG, Rouse JL, Palser BF, Knox RB (1990) The reproductive biology of Rhododendron. Hortic Rev 12:1–67

    Google Scholar 

  • Yakobson LYL (1976) Embryological analysis of rhododendrons. Latv P S R Zinat Akad Vestis 11:84–96 (in Russian)

    Google Scholar 

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Authors and Affiliations

  1. Department of Botany, University of Georgia, 30602, Athens, GA, USA

    E. G. Williams

  2. School of Physics, University of Melbourne, 3052, Parkville, Victoria, Australia

    J. L. Rouse

  3. Horticultural Research Institute, DARA, 3180, Knoxfield, Victoria, Australia

    V. Kaul

  4. School of Botany, University of Melbourne, 3052, Parkville, Victoria, Australia

    R. B. Knox

Authors
  1. E. G. Williams
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  2. J. L. Rouse
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  3. V. Kaul
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  4. R. B. Knox
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Williams, E.G., Rouse, J.L., Kaul, V. et al. Reproductive timetable for the tropical Vireya rhododendron, R. Macgregoriae . Sexual Plant Reprod 4, 155–165 (1991). https://doi.org/10.1007/BF00189999

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