Flowering Response of a Red Pitaya Germplasm Collection to Lighting Addition
A collection of thirty cultivars/clones of a red pitaya
was used to investigate flowering response to lighting
supplementation in the winter season of 2013-2014 in southern
Taiwan. The night-breaking treatment was conducted during the
period of 10 Oct. 2013 to 5 Mar. 2014 with 4-continuous hours
(22.00 – 02.00 hrs) of additional lighting daily using incandescent
bulbs (100W). Among cultivars and clones tested, twenty-three
genotypes, most belonging to the red-magenta flesh type, were found
to have positively flowering response to the lighting treatment. The
duration of night-breaking treatment for successful flowering
initiation varied from 33- 48 days. The lighting-sensitive genotypes
bore 1-2 flowering flushes. Floral and fruiting stages took 21-26 and
46-59 days, respectively. Among sixteen fruiting genotypes, the
highest fruit set rates were found in Damao 9, D4, D13, Chaozou
large, Chaozhou 5, Small Nick and F22. Five cultivars and clones
(Orejona, D4, Chaozhou large, Chaozhou 5 and Small Nick) produced
fruits with an average weight of more than 300 g per fruit which were
higher than those of the fruits formed in the summer of 2013. Fruits
produced during off-season containing total soluble solids (TSS)
from 17.5 to 20.7oBrix, which were higher than those produced inseason.
[1] G. Barbeau. “La pitahaya rouge, un nouveau fruit exotique”. Fruits, 45,
pp 141-147. 1990.
[2] T. Chang. “Yield and quality of pitaya (Hylocereus undatus Britt. &
Rose) as affected by fruiting regulation. Master thesis, National Chung
Hsing University, Taiwan. 2003.
[3] J. Y. Fan. “Studies on forcing culture and storage in pitaya (Hylocereus
spp.)”. Master thesis. Pingtung University of Science and Technology.
Taiwan. 2010.
[4] E. Greybe, O. Bergh and D. I. Ferrira. “Fruit growth and cell
multiplication of Royal Gala apples as a function of temperature”. Apple
Plant Science, 12, pp 10–14. 1998.
[5] N. V. Hoa, N. H. Hoang, M. C. John and N. M. Chau. “Developing GAP
systems for dragon fruit producers and exporters in Binh Thuan and Tien
Giang provinces”. Proceeding of Dragon fruit workshop. Held on 21
July. 2008 in Binh Thuan, Vietnam. (In Vietnamese).
[6] W. Hsu. “Investigations on culture, growth habits and phenology in
pitaya (Hylocereus spp.). Master thesis, National Taiwan University,
Taiwan. 2004.
[7] Y. L. Jiang. “Classification, flowering and fruiting characteristics, and
pruning of climbing cactus”. Master thesis, National Taiwan University,
Taiwan. 2005.
[8] Y. L. Jiang, T. S. Lin and C. L. Lee. “Phenology, canopy composition
and fruit quality of yellow pitaya in tropical Taiwan”. HortScience,
46(11), pp 1497–1502. 2011.
[9] Y. L. Jiang, Y. Y. Liao, T. S. Lin, C. L. Lee, C. R. Yen and W. J. Yang.
“The photoperiod-regulated bud formation of red Pitaya
(Hylocereus sp.). HortScience, 47(8), pp 1063-1067. 2012.
[10] A. Khaimov and Y. Mizrahi. “Effects of day-length, radiation, flower
thinning and growth regulators on flowering of the vine cacti Hylocereus
undatus and Selenicereus megalanthus”. Journal of Horticultural
Science & Biotechnology, 81 (3), pp 465–470. 2006.
[11] A. Khaimov, O. Novák, M. Strnad and Y. Mizrahi. “The role of
endogenous cytokinins and environmental factors in flowering in the
vine cactus Hylocereus undatus”. Israel Journal of Plant Sciences, 60, pp
371–383. 2012.
[12] F. Le Bellec, F. Vaillant and E. Imbert, “Pitahaya (Hylocereus spp.): A
new fruit crop, a market with a future”, Fruits, 61(4), pp 237–250. 2006.
[13] J. G. Li, H. B. Huang and X. M. Huang. “Differential fruit sizing of
Feizixiao litchi fruit from early and late bloom as affected by
temperature regimes”. Journal of Fruit Science, 21, pp 37–41. 2004.
[14] Y. Mizrahi and A. Nerd, “Climbing and columnar cacti, New arid land
fruit crops”, In: Perspective in new crops and new uses, J. Janick, (Eds.),
Alexandria: ASHS Press, 1999, pp 358-366.
[15] Y. Mizrahi, A. Nerd, and P. S. Nobel. “Cacti as crops”. Hort. Rev., 18,
pp 291–391. 1997.
[16] Y. Mizrahi, A. Nerd and Y. Sitrit. “New fruit for arid climates”, In:
Trends in new crops and new uses. J. Janick, (Eds.), Alexandria: ASHS
Press, 2002, pp 378–384.
[17] A. Nerd, F. Gutman and Y. Mizrahi. “Ripening and postharvest
behaviour of fruits of two Hylocereus species (Cactaceae)”. Postharvest
Biology and Technology, 17, pp 39–45. 1999.
[18] P. S. Nobel and E. De La Barrera, “CO2 Uptake by the Cultivated
Hemiepiphytic Cactus, Hylocereus undatus”, Annals Applied of
Biology, 144 (1), pp 1-8. 2004.
[19] . P. Saradhuldhat, K. Kaewsongsang and K. Suvittawat. “Induced Off-
Season flowering by supplemented fluorescent light in dragon fruit
(Hylocereus undatus)”. Journal of International Society for Southeast
Asian Agricultural Sciences, 15(1), pp 231-258. 2009.
[20] H. Su. “Effects of Photoperiod and Pruning on Off-Season Production in
Piataya (Hylocereus spp)”. Master thesis, National Pingtung University
of Science and Technology, Taiwan. 2005.
[21] D. H. Tran and C. R. Yen. “Morphological characteristics and
pollination requirement in red pitaya (Hylocereus spp.)”. International
Journal of Agricultural, Biosystems Science and Engineering, 8 (3), pp
6-10. 2014.
[22] J. Weiss, A. Nerd and Y. Mizrahi, “Flowering behavior and pollination
requirements in climbing cacti with fruit crop potential”, HortScience,
29(12), pp 1487–1492. 1994.
[23] C. R. Yen and F. R. Chang. Forcing pitaya (Hylocereus undatus Britt. &
Rose) by chemicals and controlled daylength and temperature.
Proceeding of the symposium on enhancing competitiveness of fruit
industry. Taichung district agricultural improvement station, Taiwan, pp
163–170. 1997. (Chinese with English summary).
[24] F. Zee, C. R. Yen and M. Nishina. Pitaya (Dragon Fruit, Strawberry
Pear). Fruits and Nuts, 9, pp 1-3. 2004.
[1] G. Barbeau. “La pitahaya rouge, un nouveau fruit exotique”. Fruits, 45,
pp 141-147. 1990.
[2] T. Chang. “Yield and quality of pitaya (Hylocereus undatus Britt. &
Rose) as affected by fruiting regulation. Master thesis, National Chung
Hsing University, Taiwan. 2003.
[3] J. Y. Fan. “Studies on forcing culture and storage in pitaya (Hylocereus
spp.)”. Master thesis. Pingtung University of Science and Technology.
Taiwan. 2010.
[4] E. Greybe, O. Bergh and D. I. Ferrira. “Fruit growth and cell
multiplication of Royal Gala apples as a function of temperature”. Apple
Plant Science, 12, pp 10–14. 1998.
[5] N. V. Hoa, N. H. Hoang, M. C. John and N. M. Chau. “Developing GAP
systems for dragon fruit producers and exporters in Binh Thuan and Tien
Giang provinces”. Proceeding of Dragon fruit workshop. Held on 21
July. 2008 in Binh Thuan, Vietnam. (In Vietnamese).
[6] W. Hsu. “Investigations on culture, growth habits and phenology in
pitaya (Hylocereus spp.). Master thesis, National Taiwan University,
Taiwan. 2004.
[7] Y. L. Jiang. “Classification, flowering and fruiting characteristics, and
pruning of climbing cactus”. Master thesis, National Taiwan University,
Taiwan. 2005.
[8] Y. L. Jiang, T. S. Lin and C. L. Lee. “Phenology, canopy composition
and fruit quality of yellow pitaya in tropical Taiwan”. HortScience,
46(11), pp 1497–1502. 2011.
[9] Y. L. Jiang, Y. Y. Liao, T. S. Lin, C. L. Lee, C. R. Yen and W. J. Yang.
“The photoperiod-regulated bud formation of red Pitaya
(Hylocereus sp.). HortScience, 47(8), pp 1063-1067. 2012.
[10] A. Khaimov and Y. Mizrahi. “Effects of day-length, radiation, flower
thinning and growth regulators on flowering of the vine cacti Hylocereus
undatus and Selenicereus megalanthus”. Journal of Horticultural
Science & Biotechnology, 81 (3), pp 465–470. 2006.
[11] A. Khaimov, O. Novák, M. Strnad and Y. Mizrahi. “The role of
endogenous cytokinins and environmental factors in flowering in the
vine cactus Hylocereus undatus”. Israel Journal of Plant Sciences, 60, pp
371–383. 2012.
[12] F. Le Bellec, F. Vaillant and E. Imbert, “Pitahaya (Hylocereus spp.): A
new fruit crop, a market with a future”, Fruits, 61(4), pp 237–250. 2006.
[13] J. G. Li, H. B. Huang and X. M. Huang. “Differential fruit sizing of
Feizixiao litchi fruit from early and late bloom as affected by
temperature regimes”. Journal of Fruit Science, 21, pp 37–41. 2004.
[14] Y. Mizrahi and A. Nerd, “Climbing and columnar cacti, New arid land
fruit crops”, In: Perspective in new crops and new uses, J. Janick, (Eds.),
Alexandria: ASHS Press, 1999, pp 358-366.
[15] Y. Mizrahi, A. Nerd, and P. S. Nobel. “Cacti as crops”. Hort. Rev., 18,
pp 291–391. 1997.
[16] Y. Mizrahi, A. Nerd and Y. Sitrit. “New fruit for arid climates”, In:
Trends in new crops and new uses. J. Janick, (Eds.), Alexandria: ASHS
Press, 2002, pp 378–384.
[17] A. Nerd, F. Gutman and Y. Mizrahi. “Ripening and postharvest
behaviour of fruits of two Hylocereus species (Cactaceae)”. Postharvest
Biology and Technology, 17, pp 39–45. 1999.
[18] P. S. Nobel and E. De La Barrera, “CO2 Uptake by the Cultivated
Hemiepiphytic Cactus, Hylocereus undatus”, Annals Applied of
Biology, 144 (1), pp 1-8. 2004.
[19] . P. Saradhuldhat, K. Kaewsongsang and K. Suvittawat. “Induced Off-
Season flowering by supplemented fluorescent light in dragon fruit
(Hylocereus undatus)”. Journal of International Society for Southeast
Asian Agricultural Sciences, 15(1), pp 231-258. 2009.
[20] H. Su. “Effects of Photoperiod and Pruning on Off-Season Production in
Piataya (Hylocereus spp)”. Master thesis, National Pingtung University
of Science and Technology, Taiwan. 2005.
[21] D. H. Tran and C. R. Yen. “Morphological characteristics and
pollination requirement in red pitaya (Hylocereus spp.)”. International
Journal of Agricultural, Biosystems Science and Engineering, 8 (3), pp
6-10. 2014.
[22] J. Weiss, A. Nerd and Y. Mizrahi, “Flowering behavior and pollination
requirements in climbing cacti with fruit crop potential”, HortScience,
29(12), pp 1487–1492. 1994.
[23] C. R. Yen and F. R. Chang. Forcing pitaya (Hylocereus undatus Britt. &
Rose) by chemicals and controlled daylength and temperature.
Proceeding of the symposium on enhancing competitiveness of fruit
industry. Taichung district agricultural improvement station, Taiwan, pp
163–170. 1997. (Chinese with English summary).
[24] F. Zee, C. R. Yen and M. Nishina. Pitaya (Dragon Fruit, Strawberry
Pear). Fruits and Nuts, 9, pp 1-3. 2004.
@article{"International Journal of Biological, Life and Agricultural Sciences:69098", author = "Dinh-Ha Tran and Chung-Ruey Yen and Yu-Kuang H. Chen", title = "Flowering Response of a Red Pitaya Germplasm Collection to Lighting Addition", abstract = "A collection of thirty cultivars/clones of a red pitaya
was used to investigate flowering response to lighting
supplementation in the winter season of 2013-2014 in southern
Taiwan. The night-breaking treatment was conducted during the
period of 10 Oct. 2013 to 5 Mar. 2014 with 4-continuous hours
(22.00 – 02.00 hrs) of additional lighting daily using incandescent
bulbs (100W). Among cultivars and clones tested, twenty-three
genotypes, most belonging to the red-magenta flesh type, were found
to have positively flowering response to the lighting treatment. The
duration of night-breaking treatment for successful flowering
initiation varied from 33- 48 days. The lighting-sensitive genotypes
bore 1-2 flowering flushes. Floral and fruiting stages took 21-26 and
46-59 days, respectively. Among sixteen fruiting genotypes, the
highest fruit set rates were found in Damao 9, D4, D13, Chaozou
large, Chaozhou 5, Small Nick and F22. Five cultivars and clones
(Orejona, D4, Chaozhou large, Chaozhou 5 and Small Nick) produced
fruits with an average weight of more than 300 g per fruit which were
higher than those of the fruits formed in the summer of 2013. Fruits
produced during off-season containing total soluble solids (TSS)
from 17.5 to 20.7oBrix, which were higher than those produced inseason.
", keywords = "Flowering response, long-day plant, night-breaking
treatment, off-season production, pitaya.", volume = "9", number = "2", pages = "175-5", }
