dc.description.abstract |
During the present work, an in vitro approach was followed for the propagation
of Pecan [Carya illinoensis (Wangenheim) C. Koch]. Effect of different media (DKW,
MS or WPM) supplemented with various levels of BAP were tested for in vitro
germination response. It was observed that the best medium for in vitro germination was
an MS formulation supplemented with 4.0 μM BAP. During the experiments, different
morphological features of in vitro-grown seedlings of Pecan were also observed.
Formation of multiple shoots was also observed from intact nodal regions of developing
seedlings. Multiple shoots developed from in vitro germinated seeds were shifted to
various rooting media. After acquiring a sufficient length (3 - 4 cm), the developed
multiple shoots were transferred to the rooting media, i.e., DKW or MS supplemented
with different combinations of growth regulator (IAA, IBA or NAA). MS medium
supplemented with 4.0 μM IBA + 4.0 μM NAA proved to be best medium for root
induction. On the other hand, in vitro-germinated seedlings after acquiring a sufficient
length (4 - 5 cm), were transferred successfully to perlite or vermiculite to enhance
rooting. More than 85 % of in vitro-grown Pecan plants were acclimatized successfully
to the soil under glasshouse conditions and kept for more than 30 days. These plants
were then transferred to field conditions at Botanical Garden, Punjab University, Lahore.
For the clonal propagation of Pecan, forcing shoot tips and/ or epicormic buds
from the large stem segments taken from more juvenile portions of older trees. Softwood
shoots were forced form shoot tips of Pecan during the dormant season. Forcing solution
(8-HQC) containing sucrose (2 %), TDZ (2.0 μM) in combination with IBA (2.0 μM)
and BAP (2.0 μM) was quite effective for the highest (89.45 %) sprouting of buds under
glasshouse conditions. Softwood shoots were also forced through epicormic or latent
buds form the large branch segments on different media under various environmental
conditions. The present investigation demonstrated that glasshouse conditions favored
the maximum (2.92) production of softwood shoots as compared to other lab or wire
house (natural) conditions. Media also had a significant effect on softwood shoot
production as sterilized sand produced the highest (2.92) mean number of softwood
shoots during the winter season. Rooting experiments with these softwood shoots
however were not successful as contamination was the major limitation.
During the present investigation, a suitable explant for callus induction and its
subsequent maintenance was established for Pecan (Carya illinoensis Wan.). Bark
segments and immature cotyledons of Pecan were used as an explant source. Effect of
different media (DKW, MS or WPM) supplemented with various levels of 2, 4-D, NAA
and TDZ were tested for callogenesis from bark and cotyledonary explants. Mature bark
explants cultured on DKW medium containing a combination of 2, 4-D and TDZ
resulted in 93.70 % callus induction and proved to be the best medium for callus
induction and its maintenance. DKW medium supplemented with 13.57 μM TDZ
resulted in 93.33 % callus induction from immature fruit explants. Morphologically
different calluses were also observed at various levels of 2, 4-D, NAA and TDZ. Tissue
browning was a major problem associated with callus induction using bark and fruit
explants. These brown callus cultures, however, formed root primordia during this study
after an incubation period of 110 days or so. Calluses were also transferred for plant
regeneration, however, there were no plantlet regeneration possible during the present
investigation. In the present study, adventitious multiple shoots were initiated from
immature cotyledonary explants of Pecan (Carya illinoensis). The embryo axes were
excised carefully and small cotyledonary pieces from immature fruits were cultured on
different media (DKW, WPM or MS) supplemented with various levels of benzyl
aminopurine (BAP) or Thidiazuron (TDZ). The shoots were initiated after 8 days from
the cultures on DKW or MS media supplemented with BAP (0.5, 1.0, 4.0, 8.0 or 15 μM).
Media supplemented with TDZ had shown no response. Maximum shoot development
and proliferation was observed after 16 days of culture on MS medium supplemented
with 15 μM BAP. The developed shoots were then transferred to basal MS medium for
further development and shoot proliferation for 20 days. The proliferated shoots (2.0 -
4.5 cm long) were transferred (without any pre-treatment) to fresh MS basal medium for
root initiation. Although rooting could not be achieved during this research work, some
progress has been made in this regard. However, adventitious regeneration indicates a
strong possibility to regenerate whole plants from various tissues of Pecan. |
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