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Breeding Papaya (Carica papaya L.)

  • Ying-Kwok Chan

Keywords

Total Soluble Solid Female Tree Carica Papaya Papaya Fruit Papaya Ringspot Virus 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Abu Bakar, U.K., Pillai, V., Lam, P.F., Chan, Y.K., Muda, P., Ong, C.A., and Mat Daud, H. (2000) Genetic Engineering for delayed ripening of papaya in Malaysia: Status of research and future strategies. Papaya Biotechnology Network for South East Asia Meeting on delayed ripening of papaya. 2–3 October 2000, Port Dickson, Malaysia. ISAAA-MARDI.Google Scholar
  2. Abu Bakar, U.K., Pillai, V., Muda, P., Lam, P.F., Chan, Y.K., and Mat Daud, H. (2001) Molecular and biochemical characterisations of ‘Eksotika’ papaya plants transformed with antisense ACC Oxidase gene. Papaya Biotechnology Network of South East Asia Technical Workshop and Coordination Meeting. 25–26 October 2001, Hanoi, Vietnam. ISAAA-IBT.Google Scholar
  3. Agnew, G.W.J. (1968) Growing quality papayas in Queensland. Queensland Agric. J. 94, 24–36.Google Scholar
  4. Airi, S.K., Gill, S.S., and Singh, S.N. (1986) Clonal propagation of papaya (Carica papaya L.). J. Agric. Res. Punjab 23, 237–239.Google Scholar
  5. Ali, Z.M., Soh, C.P., and Lazan, H. (2000) The biochemistry and molecular biology of tropical fruit softening during ripening. Trans. Malaysian Soc. Plant Physiol. 9, 103–108.Google Scholar
  6. Allan, P. (1963) Pollination of pawpaws. Farm. S. Africa 8, 13–15.Google Scholar
  7. Allan, P. (1964) Papaws grown from cuttings. Farm. S. Africa 39, 35–40.Google Scholar
  8. Allan, P. (1993) ‘Honey Gold’ papaya by cuttings. Paper presented at the Int’l. Symp. on Tropical Fruits, Vitoria-ES, Brazil, 7–12 November 1993.Google Scholar
  9. Allan, P., McChlery, J., and Biggs, D. (1987) Environmental effects on clonal female and male Carica papaya (L.) plants. Scientia Horticulturae 31, 221–232.CrossRefGoogle Scholar
  10. Anonymous (2006) FAOSTAT. Agricultural Production. Crops primary (Papaya). http://apps.fao.org/faostat/
  11. Aquilizan, F.A. (1983) Development of papaw hybrid varieties. In: Proc. Australian Plant Breeding Conf. pp. 267–277. (Driscoll, C.J.J. ed.). 14–18 February 1983. Adelaide, Australia.Google Scholar
  12. Aquilizan, F.A. (1987) Breeding systems for fixing stable papaya inbred lines with breeding potential for hybrid variety production. pp. 101–106. In: The Breeding Of Horticultural Crops. Proc. of Intern. Symp. held at Taichung, Taiwan, 1–5 December 1986,. FFTC Book Series No. 35. Taipei, Taiwan.Google Scholar
  13. Arumugum, S. and Shanmugavelu, K.G. (1975) Studies on the effect of sarcotesta on the seed germination of papaya (Carica papaya L.). Seed Res. 3, 77–80.Google Scholar
  14. Awada, M. (1958) Relationships of minimum temperature and growth rate with sex expression of papaya plants (Carica papaya L.). Hawaii Agr. Exp. Sta. Tech. Bull. 38.Google Scholar
  15. Awada, M. (1961) Soil moisture tension in relation to fruit types of papaya plants. Hawaii Farm Sci. 10, 7–8.Google Scholar
  16. Awada, M. and Ikeda, W.S. (1957) Effects of water and nitrogen application on composition, growth, sugars in fruits, yield and sex expression of the papaya plants (C. papaya L.). Hawaii Agr. Exp. Sta. Tech. Bull. 33.Google Scholar
  17. Awada, M., Wu, I. P., Suehisa, R.H., and Padgett, M.M. (1979) Effects of drip irrigation and nitrogen fertilisation on vegetative growth, fruit yield, and mineral composition of the petioles and fruits of papaya. Hawaii Agr. Exp. Sta. Tech. Bull. 103.Google Scholar
  18. Badillo, V.M. (1993) Caricaceae, Segundo Esquema. Publicada por la Asociación de Profesores, Universidad Central de Venezuela, Maracay, Venezuela.Google Scholar
  19. Badillo, V.M. (2000) Carica L. vs. Vasconcella St. Hil. (Caricaceae) con la Rehabilitación de este Ultimo. Ernstia 10, 74–79.Google Scholar
  20. Botella, J.R., Tecson-Mendoza, E.M., Leeton, P., Sargent, H., Laurena, A.C., Siar, S.V., Sajise, A.G., Garcia, R.N., Cabanos, C.S., Angeles, J.G.C., Perez, B.M.Y., and Magdalita, P.M. (2005) Using genetic engineering to extend the life of papaya fruits. Abstract S3-22, p. 53. 1st Int’l. Symp. on Papaya. 22–24 November 2005, G. Highlands, Malaysia. MARDI, ISHS, ISAAA, TFNet.Google Scholar
  21. Burns, P., Kositsatana, W., Pornchaiwattanakorn, W., and Pin-on, P. (2005) Development of transgenic papaya with delayed ripening characters towards public acceptance Phase I. Papaya Biotechnology Network of Southeast Asia, Technical and Coordination Meeting, 20–21 November 2005, Genting Highlands, Malaysia. ISAAA.Google Scholar
  22. Chacko, E.K. and Singh, R.N. (1972) Studies on the longevity of papaya, phalsa, guava and mango seeds. Proc. Int. Seed Test. Assn. 36, 147–158.Google Scholar
  23. Chan, L.K. and Teo, C.K.H. (2002) Micropropagation of ‘Eksotika’, a Malaysian papaya cultivar, and the field performance of the tissue culture derived clones. Acta Hort. 575, 99–105.Google Scholar
  24. Chan, Y.K. (1984) Studies on carpellody of stamens in papaya (C. papaya L.). MARDI Res. Bull. 12, 157–162.Google Scholar
  25. Chan, Y.K. (1985a) Maintenance, characterization and utilization of the papaya genetic collection in Malaysia. IBPGR/SEAP Workshop, SABRAO V Int’l Congress, 25–29 November 1985, Bangkok, Thailand. SABRAO.Google Scholar
  26. Chan, Y.K. (1985b) Evaluation of the performance and stability of papaya varieties bred at MARDI. MARDI Res. Bull. 13, 1–7.Google Scholar
  27. Chan, Y.K. (1986) Comparative performance of female and hermaphrodite trees in four gynodioecious varieties of papaya. Teknol. Buah-buahan MARDI 2, 25–31.Google Scholar
  28. Chan, Y.K. (1987) Backcross method in improvement of papaya (Carica papaya L.). Malays. Appl. Biol. 16, 95–100.Google Scholar
  29. Chan, Y.K. (1991) Rawatan, penyimpanan dan percambahan biji benih betik. (Treatment, storage and germination of papaya seed). Teknol. Buah-buahan MARDI 3, 17–21.Google Scholar
  30. Chan, Y.K. (1992) Progress in breeding of F1 papaya hybrids in Malaysia. Acta Hort. 292, 41–49.Google Scholar
  31. Chan, Y.K. (1993) Memperkenalkan ‘Eksotika II’: varieti betik hibrid yang lebih baik. (Introducing the ‘Eksotika II’: an improved hybrid papaya). Teknol. Buah-buahan MARDI 9, 25–28.Google Scholar
  32. Chan, Y.K. (1994) Penyediaan biji benih (Preparation of seeds). pp. 12–16. In: Penanaman Betik (Papaya Cultivation) (Chan, Y.K. Raveendranathan, P. Raziah, M.L. and Choo, S.T., Eds.), MARDI, Serdang, Malaysia.Google Scholar
  33. Chan, Y.K. (1995) Development of F1 hybrids of papaya (Carica papaya L.): Seed production and performance of F1 hybrids. Ph. D. thesis. Dept. of Genetics and Cellular Biology. Univ. of Malaya, Kuala Lumpur, Malaysia. p. 229.Google Scholar
  34. Chan, Y.K. (2001) Heterosis in ‘Eksotika’ × ‘Sekaki’ papaya hybrids. J. Trop. Agric. Food. Sci. 29, 139–141.Google Scholar
  35. Chan, Y.K. (2004a) Breeding papaya for resistance to ringspot virus disease in Malaysia. Acta Hort. 632, 57–64.Google Scholar
  36. Chan, Y.K. (2004b) The Eksotika papaya: Malaysia’s flagship variety for export. Abstract W09, p. 40, 3rd Int’l Symp. on Tropical and Subtropical Fruits. 12–17 September 2004, Fortaleza, Brazil. ISHS.Google Scholar
  37. Chan, Y.K. (2004c). Irradiation-induced mutation breeding of papaya. Abstract, pp. 35–84. 3rd Int’l Symp. on Tropical and Subtropical Fruits. 12–17 September 2004, Fortaleza, Brazil.ISHS.Google Scholar
  38. Chan, Y.K. (2005) Stepwise priorities in papaya breeding. Abstract S2–19. 1st Int’l Papaya Symposium. 22–24 November 2005, Genting Highlands, Malaysia. MARDI, ISHS, ISAAA,TFNet.Google Scholar
  39. Chan, Y.K. and Ooi, S.C. (1975) Preliminary studies on papaya selection in Malaysia. Malays. Agric. J. 5, 67–77.Google Scholar
  40. Chan, Y.K. and Toh, W.K. (1984) Growth studies on some vegetative characters of papaya (Carica papaya L.). MARDI Res. Bull. 12, 46–54.Google Scholar
  41. Chan, Y.K. and Toh, W.K. (1988) Resistance and heritability of fruit freckles in papaya (Carica papaya L.). MARDI Res. J. 16, 103–107.Google Scholar
  42. Chan, Y.K. and Tan, L.K. (1990) Drying treatments in relation to seed germination of four papaya varieties. MARDI Res. J. 18, 1–7.Google Scholar
  43. Chan, Y.K., Raveendranathan, P., Zahari, R., and Lam, P.F. (1991) Business proposal for the cultivation of papaya (cv. ‘Eksotika’ Malaysia). Business Proposal Series No. 8. 83pp. Ministry of Agriculture Malaysia, Kuala Lumpur.Google Scholar
  44. Chan, Y.K. and Mak, C. (1993a) Resistance of six papaya varieties and their hybrids to malformed top disease. MARDI Res. J. 21, 7–13.Google Scholar
  45. Chan, Y.K. and C. Mak. (1993b) Production of F1 hybrid seeds from a 6× 6 diallel of papaya (Carica papaya L.). MARDI Res. J. 21, 1–6.Google Scholar
  46. Chan, Y.K., Napakoonwong, U., Broto, W., Koay, S.H., and Espino, R.R.C. (1994) Commercial papaya cultivars in ASEAN. In: Papaya – Fruit Development, Postharvest Physiology, Handling and Marketing in ASEAN. pp. 5–17. (Yon, R.M. Ed.), AFHB.Google Scholar
  47. Chan, Y.K. and Mak, C. (1996) Simultaneous selection for yield and stability of papaya (Carica papaya L.) MARDI Res. J. 24, 1–11.Google Scholar
  48. Chan, Y.K., Lam, P.F., and Abdul Rahim, H. (2002) Sensitivity of papaya seeds to gamma irradiation. In: Proceedings of International Nuclear Conference 2002 (INC02), Seminar I: Agriculture & Biosciences, pp. 76–82. 15–18 October 2002, Kuala Lumpur, Malaysia.MNS-MINT.Google Scholar
  49. Chan, Y.K. and Lam, P.F. (2003) Irradiation induced mutation in papaya with special emphasis on papaya ringspot resistance and delayed fruit ripening. In: Improvement of Tropical and Subtropical Fruit Trees Through Induced Mutations and Biotechnology. pp. 35-45. Second Research Coordination Meeting. 2–6 September 2002, Vienna, Austria. FAO/IAEA.Google Scholar
  50. Chan, Y.K. and Raveendranathan, P. (2003) Performance of papaya on peat. pp. 226–230. In: Proc. Malays. Soc. Sci. Conference 2003. (Zainol, E. Che Fauziah, I., Zin Zawawi, Z., Goh, K.J., Zulkifli, M., and Rosazlin, A. Eds.), 15–16 April 2003, Kota Bahru.Google Scholar
  51. Chang, C.C. and Wu, C.C. (1974) Trials of Hawaiian papaya varieties in Taiwan and the performance of F1 hybrids. J. Taiwan Agric. Res. 23, 273–283.Google Scholar
  52. Chang, L.S. and Guo, T.T. (2002) Heritability of tolerance to papaya ringspot virus among papaya populations by parent-offspring regression. Abstract S20-P-20, p. 507. XXVIth Int’l Hort. Congress and Exhibition (IHC 2002). 11–17 August 2002, Toronto, ISHS.Google Scholar
  53. Cheah, L.S., Yau, K.K., Subramaniam, S., and Lai, F.T. (1993) Cleft grafting and quality improvements of papaya cv. ‘Eksotika’. In: Proc. Seminar on the Fruit Industry in Malaysia,pp. 287–290 (Mohamed, M.S., Ahmad Tarmizi, S., and Pauziah, M. Eds.), 7–9 September 1993, Johor Bahru, Malaysia, MARDI.Google Scholar
  54. Chen, L.F., Bau, H.J., and Yeh, S.D. (2002) Identification of virus capable of breaking transgenic resistance of papaya conferred by the coat protein gene of papaya ringspot virus. Acta Hort. 575, 465–474.Google Scholar
  55. Chong, S.T., Raveendranathan, P., and Lee, H.K. (2005) Improving performance and uniformity of ‘Eksotika’ papaya through cleft grafting. Abstract S4-30. 1st Int’l. Symp. on Papaya. 22–24 November 2005, G. Highlands, Malaysia. MARDI, ISHS, ISAAA, TFNet.Google Scholar
  56. Clemente, H. and Marler, T.E. (1996) Drought stress influences gas-exchange responses of papaya leaves to rapid changes in irradiance. J. Amer. Soc. Hort. Sci. 121, 292–295.Google Scholar
  57. Conover, R.A., Litz, R.E., and Malo, S.E. (1986). ‘Cariflora’ – a papaya ringspot virus-tolerant papaya for south Florida and the Caribbean. Hort. Sci. 21, 1072.Google Scholar
  58. Damayanti, D., Mariska, I., and Herman, M. (2005) Delayed ripening of papaya: Current status and future activity in Indonesia. Papaya Biotechnology Network of Southeast Asia, Technical and Coordination Meeting, 20–21 November 2005, Genting Highlands, Malaysia. ISAAA.Google Scholar
  59. Drew, R.A. (1988) Rapid clonal propagation of papaya in vitro from mature field-grown trees. HortScience 23, 609–611.Google Scholar
  60. Drew, R.A., Siar, M., O’Brien, C.O., and Sajise, A. (2005) Introgression of genes for PRSV-P resistance to papaya from Vasconcellea quercifolia. Abstract S2-9, p. 21. 1st Int’l. Symp. on Papaya. 22–24 November 2005, G. Highlands, Malaysia. MARDI, ISHS, ISAAA, TFNet.Google Scholar
  61. FAO. (2001) World List of Seed Sources. FAO Plant Production and Protection Division. Seed and Plant Genetic Resources Services (AGPS). http://www.fao.org/WAICENT/ FAOINFO/AGRICULT/AGP/AGPS/seed/wiss.htm
  62. Fitch, M.M.M., Leong, T., Akashi, L., Yeh, A., White, S., Ferreira, S., and Moore, P. (2002) Papaya ringspot virus resistance genes as a stimulus for developing new cultivars and new production systems. Acta Hort. 575, 85–91.Google Scholar
  63. Francis, T.R. and Kannenberg, L.W. (1978) Yield stability studies in short-season maize. I. A descriptive method for grouping genotypes. Can. J. Plant Sci. 58, 1029–1034.CrossRefGoogle Scholar
  64. Free, J.B. (1975) Observations on the pollination of papaya (Carica papaya L.) in Jamaica. Trop. Agric. (Trinidad) 52, 275–279.Google Scholar
  65. Garret, A. (1995) The pollination biology of papaw (Carica papaya L.) in Central Queensland. Ph.D Thesis, Central Queensland University, Rockhampton, Australia.Google Scholar
  66. Glennie, J.D. and Chapman, K.R. (1976) A review of dieback – a disorder of the papaw (Carica papaya L.) in Queensland. Queensland J. Agric. Animal Sci. 33, 177–188.Google Scholar
  67. Gonsalves, D. (1998) Control of papaya ringspot virus in papaya: A case study. Annu. Rev. Phytopathol. 36, 415–437.PubMedCrossRefGoogle Scholar
  68. Hamilton, R.A. (1954) A quantitative study of growth and fruiting in inbred and crossbred progenies from two Solo papaya strains. Hawaii Agr. Exp. Sta. Tech. Bull. 20.Google Scholar
  69. Hautea, R.A., Chan, Y.K., Attathom, S., and Krattiger, A.F. (1999) The papaya biotechnology network of Southeast Asia: Biosafety considerations and papaya background information. ISAAA Briefs No. 11, p. 108. ISAAA: Ithaca, NY.Google Scholar
  70. Hine, R.B., Holtzmann, O.V., and Raabe, R.D. (1965) Diseases of papaya (Carica papaya L.) in Hawaii. Bull. Hawaii Agric. Exp. Sta. 136, 1–26.Google Scholar
  71. Hofmeyr, J.D.J. (1938) Determination of sex in Carica papaya. Farm. S. Africa 13, 332.Google Scholar
  72. Hühn, M. (1979) Beiträge zur Erfassung der phänotypischen Stabilität. I. Vorschlag einiger auf Ranginformationen beruhenden Stabilitätsparameter. (Contributions to the understanding of phenotypic stability. I. Some proposals for ranking information related to stability parameters). EDP in Medicine and Biology 10, 112–117.Google Scholar
  73. Kang, M.S. (1988) A rank-sum method for selecting high-yielding, stable corn genotypes. Cereal Res. Com. 16, 113–115.Google Scholar
  74. Lange, A.H. (1961). Factors affecting sex change in the flowers of Carica papaya (L.). Proc. Amer. Soc. Hort. Sci. 77, 252–264.Google Scholar
  75. Lim, L.S. and Siti Hawa, J. (2005) Earliness in flowering and dwarfism in relation to internode length and tree height in papaya (Carica papaya L.). Abstract S2-13. p. 24. 1st Int’l. Symp. on Papaya. 22–24 November 2005, G. Highlands, Malaysia. MARDI, ISHS, ISAAA, TFNet.Google Scholar
  76. Lin, C.C., Su, H.J., and Wang, D.N. (1989) The control of papaya ringspot virus in Taiwan R.O.C. Tech. Bull. ASPAC 114, 1–13.Google Scholar
  77. Lin, C.S., Binns, M.R., and Lefkovitch, L.P. (1986) Stability analysis: Where do we stand? Crop Sci. 26, 894–900.Google Scholar
  78. Little, C. (1982) Babacos – New goldmine or Ecuadorean curiosity? NS Farmer, February 11, 1982, 16–17.Google Scholar
  79. Litz, R.E. and Conover, R.A. (1978) In vitro propagation of papaya. HortScience 13, 241–242.Google Scholar
  80. Louw, A.J. (2004) Breeding papaya in South Africa. Abstract W08, p. 39. 3rd Int’l Symp. on Tropical and Subtropical Fruits. 12–17 September 2004, Fortaleza, Brazil. ISHS.Google Scholar
  81. Magdalita, P.M., Laurena, A.C., Perez, M.T.M., and Comia, R.L. (2005) Development of transgenic papaya with delayed ripening characteristics containing the ACC Oxidase gene via Agrobacterium-mediated transformation. Papaya Biotechnology Network of Southeast Asia, Technical and Coordination Meeting, 20–21 November 2005, Genting Highlands, Malaysia. ISAAA.Google Scholar
  82. Manshardt, R.M. (1998) ‘Rainbow’ papaya. University of Hawaii, College of Tropical Agriculture and Human Resources. New Plants for Hawaii. 1, p. 2.Google Scholar
  83. Manshardt, R.M. and Wenslaff, T.F. (1989a) Zygotic polyembryony in interspecific hybrids of Carica papaya and C. cauliflora. J. Amer. Soc. Hort. Sci. 114, 684–689.Google Scholar
  84. Manshardt, R.M. and Wenslaff, T.F. (1989b) Interspecific hybridization of papaya with other Carica species. J. Amer. Soc. Hort. Sci. 114, 689–694.Google Scholar
  85. Manshardt, R.M., Mello, C., Lum, S., and Ta, L. (2005) Tracking papaya pollen movement with the GUS transgene marker. Abstract S3-20, p. 51. 1st Int’l. Symp. on Papaya. 22–24 November 2005, Genting Highlands, Malaysia. MARDI, ISHS, ISAAA, TFNet.Google Scholar
  86. Mat Daud, H., Abu Bakar, U.K., Pillai, V., Lam, P.F., Hashim, H., Tan, C.S., Sekeli, R., Sew, Y.S., Muda, P., Raveendranathan, P., Chan, Y.K., and Ong, C.A. (2005) Improvement of Eksotika papaya through transgenic technology – Malaysia’s experience. Abstract S3-18, p. 49. 1st Int’l. Symp. on Papaya. 22–24 November 2005, Genting Highlands, Malaysia. MARDI, ISHS, ISAAA, TFNet.Google Scholar
  87. Mehdi, A.A. and Hogan, L. (1976) Tissue culture of Carica papaya. HortScience 11, 311.Google Scholar
  88. Mekako, H.U. and Nakasone, H.Y. (1975) Interspecific hybridization among six Carica species. J. Amer. Soc. Hort. Sci. 100, 145–148.Google Scholar
  89. Mochida, L.H. (2005) Trade and marketing of conventional vs. transgenic papayas: The experience in Hawaii. Abstract S1-3, p. 5. 1st Int’l. Symp. on Papaya. 22–24 November 2005, Genting Highlands, Malaysia. MARDI, ISHS, ISAAA, TFNet.Google Scholar
  90. Mohamed, M.S. (2005) Papaya ringspot virus and bacterial dieback: The industry threatening diseases of Malaysia. Abstract S5-15, p. 99. 1st Int’l. Symp. on Papaya. 22–24 November 2005, Genting Highlands, Malaysia. MARDI, ISHS, ISAAA, TFNet.Google Scholar
  91. Morton, J. (1987) Papaya. In: Fruits of the Warm Climate. pp. 336–346. Miami, FL.Google Scholar
  92. Nakasone, H.Y. and Storey, W.B. (1955) Studies on the inheritance of fruiting height of Carica papaya L. Proc. Amer. Soc. Hort. Sci. 66, 168–182.Google Scholar
  93. Nakasone, H.Y. and Aragaki, M. (1973) Tolerance to Phytophthora fruit and root rot in Carica papaya L. Proc. Amer. Soc. Hort. Sci. 17, 176–185.Google Scholar
  94. Nakasone, H.Y., Yee, W., Ikehara, D.K., Doi, M.J., and Ito, P.J. (1974) Evaluation and naming of two new Hawaii papaya lines ‘Higgins’ and ‘Wilder’. Hawaii Agri. Expt. Sta. Res. Bull. 167, p. 24.Google Scholar
  95. Nakasone, H.Y. and Lamoureux, C. (1982) Transitional forms of hermaphroditic papaya flowers leading to complete maleness. J. Amer. Soc. Hort. Sci. 107, 589–592.Google Scholar
  96. Nakasone, H.Y. and Paull, R.E. (1998) Papaya. pp. 239–269. In: Tropical Fruits: Crop Production Science in Horticulture (Atherton, J. and Rees, A. Eds.), CAB International, U.K.Google Scholar
  97. Nathan, J. and Tan, E.H. (1989) Micropropagation of papaya and preliminary field performance. Proc. Seminar on ‘Eksotika’ Papaya. (Chan, Y.K. and Raveendranathan, P. Eds.), pp. 13–18. 7–8 March 1989, Johor Bahru, Malaysia, MARDI-MAPPS.Google Scholar
  98. OECD (2004) Consensus document on the biology of Carica papaya L (papaya).(Draft Document). p. 37. Organization for Economic Co-operation and Development (OECD) Environment Directorate, France.Google Scholar
  99. Ollitrault, P., Bruyere, S., Ocampo, J.A., Lapeyre, L. De, Gallard, A., Argoud, L., Duval, M.F., Coppens d’ Eeckenbrugge, G., and Bellec, F. Le. (2005) Papaya breeding for tolerance to bacterial decline (Erwinia sp.) in the Carribean region. Abstract S2-7 p. 19. 1st Int’l. Symp. on Papaya. 22–24 November 2005, Genting Highlands, Malaysia. MARDI, ISHS, ISAAA, TFNet.Google Scholar
  100. Oosten, H.J. van. (1986) A meadow orchard with Carica pentagona (Babaco). Acta Hort. 160, 341.Google Scholar
  101. Pang, S.Z. and Sanford, J.C. (1988) Agrobacterium-mediated gene transfer in papaya. J. Amer. Soc. Hort. Sci. 113, 287–291.Google Scholar
  102. Pauziah, M., Raveendranathan, P., Chan, Y.K., Abu Bakar, U.K., Vilasini P., Lam, P.F., and Mat Daud, H. (2005) Evaluation of R1 delayed ripening papaya in Malaysia. Papaya Biotechnology Network of Southeast Asia, Technical and Coordination Meeting, 20–21 November 2005, Genting Highlands, Malaysia. ISAAA.Google Scholar
  103. Phironrit, N., Chowpongpang, S., Warin, N., Bhunchoth, A., and Attathom, S. (2005) Small scale field testing of PRSV resistance in transgenic papaya line KN116/5. Abstract S3-11, p. 42. 1st Int’l. Symp. on Papaya. 22–24 November 2005, Genting Highlands, Malaysia. MARDI, ISHS, ISAAA, TFNet.Google Scholar
  104. Prest, R.L. (1955) Unfruitfulness in pawpaws. Queensland Agric. J . 81, 144–148.Google Scholar
  105. Raveendranathan, P., Muda, P. Chan, Y.K., Abu Bakar, U.K., Pillai, V., Lam, P.F., and Mat Daud, H. (2002) Contained field evaluation of delayed ripening transgenic Eksotika papaya. Papaya Biotechnology Network of SEAsia Coordination Meeting. 7–9 October 2002. Port Dickson, Malaysia. ISAAA-MARDI.Google Scholar
  106. Rodriquez-Pastor, M.C., Galan-Sauco, V., and Herrero-Romero, M. (1990) Evaluation of papaya autogamy. Fruits-Paris 45, 387–391.Google Scholar
  107. Sharma, N.K. and Skidmore, D.I. (1988) In vitro expression of partial resistance to Phytophthora palmivora by shoot cultures of papaya. Plant Cell, Tiss. Org. Cult. 14, 187–196.CrossRefGoogle Scholar
  108. Singh, I.D. (1990) Papaya. Oxford and IBH Publishing Co. Pvt. Ltd., New Delhi.Google Scholar
  109. Storey, W.B. (1941) Genetics of sex determination in papaya. Hawaii Agr. Exp. Sta. Ann Rep. 1940, 52–53.Google Scholar
  110. Storey, W.B. (1958) Modification of sex expression in papaya. Hort. Adv. 2, 49–60.Google Scholar
  111. Storey, W.B. (1969a) Papaya (Carica papaya L.). pp. 389–407. In: Outline of Perennial Crop Breeding in the Tropics (Ferwerda, P. and Wit, F. Eds.), H. Veenman and Zonen, Wageningen.Google Scholar
  112. Storey, W.B. (1969b) Pistillate papaya flower: a morphological anomaly. Science 163, 401–405.CrossRefGoogle Scholar
  113. Subhadrabandhu, S. and Nontaswatsri, C. (1997) Combining ability analysis of some characters of introduced and local papaya cultivars. Scientia Hort. 71, 203–212.CrossRefGoogle Scholar
  114. Subramanyam, M.D. and Iyer, C.P.A. (1984) Exploitation of heterosis in papaya. Indian J. Hort. 41, 40–46.Google Scholar
  115. Suhana, O. and Mohamad Bahagia, A.G. (2005) Variation of papaya fruit characters at MARDI’s germplasm. Abstract S2-18. 1st Int’l. Symp. on Papaya. 22–24 November 2005, G. Highlands, Malaysia. MARDI, ISHS, ISAAA, TFNet.Google Scholar
  116. Tai, G.C.C. (1971) Genotypic stability analysis and its application to potato regional trials. Crop Sci. 11, 184–190.Google Scholar
  117. Teng, Y.T. and Hor, Y.L. (1976) Storage of tropical fruit seeds. pp. 135–146. In: Seed Technology in the Tropics (Chin, H.F., Enoch, I.C., and Raja Harun, R.M. Eds.), Universiti Pertanian Malaysia, Serdang, Malaysia.Google Scholar
  118. Tennant, P.F., Gonsalves, C., Ling, K.S., Fitch, M., Manshardt, R., Slightom, J.L., and Gonsalves, D. (1994) Differential protection against papaya ringspot virus isolates in coat protein gene transgenic papaya and classically cross-protected papaya. Phytopathology 84, 1359–1366.CrossRefGoogle Scholar
  119. Tsay, H.S. and Su, C.Y. (1985) Anther culture of papaya (Carica papaya L.). Plant Cell Reports 14, 28–30.CrossRefGoogle Scholar
  120. Villegas, V.N., Pimentel, R.B., and Barile, E.R. (1996) Development of ringspot virus tolerant papaya (Carica papaya L.) varieties. Proc. Int’l Conf. on Tropical fruits Vol. 1. pp. 117–120. (Vijaysegaran, S., Pauziah, M., Mohamed, M.S., and Ahmad Tarmizi, S., Ed.), 23–26 July 1996. Kuala Lumpur, Malaysia. MARDI.Google Scholar
  121. Yahiro, M. (1979) Effect of seed pre-treatments on the promotion of germination in papaya Carica papaya L. Mem. Fac. Agr. Kagoshima Univ. 15, 49–54.Google Scholar
  122. Yahiro, M. and Hayashi, Y. (1982) Growth-inhibitors in papaya (Carica papaya L.) seeds – Growth-inhibitors and promoters in papaya seeds pre-treated at 15 °C. Japan J. Trop. Agr. 26, 63–67.Google Scholar
  123. Yee, W., Akamine, E.K., Aoki, G.M., Hamilton, R.A., Haramoto, F.H., Hine, R.B., Holtzmann, O.V., Ishida, J.T., Keeler, J.T., and Nakasone, H.Y. (1974) Papayas in Hawaii. Coop. Ext. Serv. Circ. 436, Univ. Hawaii.Google Scholar
  124. Yie, S.T. and Liaw, S.I. (1977) Plant regeneration from shoot tips and callus of papaya. In Vitro 13, 564–568.PubMedCrossRefGoogle Scholar

Copyright information

© Springer Science+Business Media, LLC 2009

Authors and Affiliations

  • Ying-Kwok Chan
    • 1
  1. 1.Horticulture Research Centre Malaysian Agricultural Research and Development InstituteMALAYSIA

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