Anthesis on individual ‘Silengkeng’

Anthesis on individual ‘Silengkeng’ panicles occurred over a 17 to 161 day
period, and the mean number of days for duration of anthesis for panicles was 81 days.
Figure 1 shows that production of HFM flowers occurred at highest frequency during the
initial third of the anthesis period, with smaller numbers produced during the remaining
anthesis period. At the peak of HFM flower production, approximately 84 HFM flowers
were observed on each panicle interspersed with HFF flowers. The duration of flowering
for ‘Silengkeng’ panicles was much longer than observed on other cultivars planted in
Hawai'i (Kawabata et al., 2007) and in Thailand (Tongumpai et al., 1980), and production
of HFM flowers on ‘Silengkeng’ panicles was more numerous than reported for other
cultivars. Studies in the Philippines and Malaysia (Tindall et al., 1994) showed that the
‘Maharlika’ and ‘Seejonja’ cultivars also produced both HFM and HFF on the same
panicle. Approximately 99.94% of the flowers on ‘Maharlika’ panicles were functionally
female, while the remaining flowers were functionally male. The percentage of HFF
flowers on ‘Seejonja’ panicles was 99.55% at bloom. Tindall et al. (1994) also reported
that generally between 200 to 800 HFF flowers are borne on each panicle and that HFM
flowers make up about 0.05 to 0.9% of the flowers. The high frequency and the
continued production of HFM flowers on ‘Silengkeng’ panicles over the entire anthesis
period confirm that ‘Silengkeng’ may serve as a suitable source of pollen for fruit set.
All cultivars treated with 90 mg/L NAA produced HFM flowers by 4 to 6 days
after treatment (Table 2). HFM flower production was greatest between 6 and 8 days
after treatment and progressively decreased at 10 and 12 days. Since the appearance of
HFM flowers decreased at 12 days after NAA treatment, re-application to adjacent
panicles will be necessary to sustain HFM flower production throughout the anthesis
period which can extend over several weeks (Kawabata et al., 2007). Within each
location some cultivars tended to have a greater response to NAA. At Onomea,
‘Rongrien’ produced the greatest number HFM flowers (124.7 flowers per panicle) while
‘R156 Red’ produced the fewest HFM flowers. Elevation also may have had an effect
since the ‘R9’ cultivar at Kurtistown was not as responsive as at Onomea.
Since male trees do not produce fruits, some growers in Thailand tend to remove
these trees, and the result is an insufficient amount of pollen available to fertilize the HFF
flowers. NAA concentrations between 40 and 160 mg/L are then used to insure fruit set
and are essential for production in some areas (Kosiyachina and Salma, 1987; Lam and
Tongumpai, 1987). Sprays are applied to panicles that are 1.0 meter apart and when onethird of the flowers on the panicle are open (Tindall et al., 1994). HFM flowers are
visible 5-7 days later. After the pollen is shed from NAA treated panicles, panicles are
pruned off and newly emerging panicles will produce normal HFF flowers (Salakpetch,
2005).
HFM flowers were not produced on the control panicles except for ‘R156 Yellow’
and ‘R134’ at Onomea, and in both cultivars natural production of HFM flowers was
very low (Table 2). The small number of HFM flowers produced by these cultivars
without NAA is probably too few to adequately pollinate the large number of HFF
flowers.
Figure 2 shows ‘Jitlee’ flower buds on the day of treatment and at 3 and 6 days
after NAA application. Buds on which the apex of the pistil began protruding through
the unopened sepals responded to NAA and developed into HFM flowers that were at
anthesis by 6 days after treatment. HFF flowers that were at partial or full anthesis and
buds that were tightly closed at the time of treatment did not respond to NAA. These
buds later developed into HFF flowers or abscised from the panicles. Untreated HFF
flowers at anthesis possess a pistil topped with a bifid stigma which is surrounded by 6
short stamens arising from the base of the bilocular ovary. Stamens do not extend
beyond the stigma, and anthers do not dehisce and brown by the second day after
anthesis. In HFM flowers, NAA stimulated elongation of the stamens and promoted
anther dehiscence while suppressing pistil development. NAA application to individual
panicles should be timed to coincide with a period when there is an abundance of floral
buds that are at a stage responsive to NAA. At 10% anthesis, panicles possess numerous
floral buds at this stage of development.
Germination was observed with pollen obtained from naturally occurring HFM
flowers on ‘Silengkeng’ panicles and from HFM flowers produced after NAA treatment
for all cultivars tested. Germination of pollen grains and growth of pollen tubes could be
seen 16 to 48 hours after pollen was incubated in the germination medium (Figure 3).
There appeared to be a population effect during pollen germination, because germination
percentage tended to be lower when fewer pollen grains were incubated in the medium.
Germination tests confirmed that viable pollen was produced by naturally occurring HFM
flowers from ‘Silengkeng’ panicles and from NAA induced flowers. Our attempts to
germinate pollen taken from anthers on HFF flowers were unsuccessful and support the
conclusion that HFF flowers only function as female flowers (Tindall et al., 1994).
Bagging experiments in Malaysia and Hawai'i to exclude pollinators reinforce the
importance of pollination for rambutan production since poor pollination will result in
reduced fruit set and production of deformed fruit (Lim, 1984; Nagao et al., 2002). With
the exception of ‘Silengkeng’, most cultivars in Hawai'i produce very few or no HFM
flowers to adequately supply pollen in a large orchard. Treating panicles with NAA will
increase production of viable pollen when applied to flower buds at the appropriate stage
of development. Based on our observations, smaller, more compact panicles seemed to
be less responsive to NAA treatment compared to large, more elongated panicles since
some smaller panicles did not produce HFM flowers after NAA treatment. Rambutan
flowering is initiated following a 2-4 week period of drought stress, and flowering
intensity is thought to be closely related to intensity and duration of the water stress
(Nakasone and Paull, 1998; Whitehead, 1959). Our observations indicate that during the
cooler flowering season (April to May), smaller compact panicles are more common than
during the warmer flowering season (July to August) in Hawai'i. Therefore selection of
suitable panicles for treatment as well as the timing of NAA application will be important
for an effective NAA response.