dc.description.abstract |
Drought causes a substantial reduction in national yield of coconut and also a loss of
coconut palms in severe droughts, thus resulting in severe economic consequences to
the coconut industry in Sri Lanka. Therefore, it is of prime importance to identify
some putative drought tolerant genotypes for use in drought-prone areas. As the long
generation and maturation periods of coconut restrict the selection of genotypes based
on yield, the knowledge on physiological and biochemical responses to water deficit
conditions plays an important role in developing a rapid selection criterion. Therefore,
the objectives o f this research was to quantify the variation in drought tolerance in the
selected coconut genotypes, based on their biochemical and physiological responses to
progressive soil moisture deficits in the field and to apply different classification
techniques to classify degree of drought tolerance.
Four genotypes were selected for the experiment. The accession Clovis [CL] is
believed to be tolerant to drought while the rest (Dwarf Green [DG], Dwarf Brown
[DB] and Cameron Red Dwarf [CftD]) is sensitive. All palms were about 15 years of
age and grown in adjacent plots in Potthkkulama Research Station, Pallama in IL|
Agro-Ecological Region and wete under the common management practices
recommended by the Coconut Research Institute (CRT). They were monitored
throughout the 80-day natural drought experienced in early 2005. Physiological,
biochemical and vegetative growth parameters were studied during the drought period
along with the corresponding soil moisture contents at 50 and 100 cm depths.
Physiological and biochemical parameters with the progress of drought were
approximately similar among genotypes. The results of relative water content (RWC)
of leaves showed that the three dwarf genotypes become dehydrated more quickly than
CL. The reduction in stomatal conductance (,gs) in response to drought occurred in all
four genotypes, even though leaf water potential (lF) was not reduced substantially.
CL and DB appeared more drought tolerant by maintaining high rates of
photosynthesis (A) even under low soil moisture conditions and by having low gs
during drought. DB responded quickly to subsequent rains by regaining its initial rates
of A and gs. Moreover CL maintained the highest instantaneous water use efficiency
(cOi„st) during drought. CRD showed highest rate of reduction of gs with the inception
of drought indicating its greater sensitivity to water deficit conditions. Leaf proline,
starch and total sugar contents showed slightly increasing trends with progressive
water stress while vegetative parameters were not significantly affected by the drought
experienced.
The susceptibility index (SI) calculated using U)ins, and gs showed that CRD was the
most sensitive genotype to drought while CL was the most tolerant out of the four
tested genotypes. Classification of stability under increasing soil moisture deficits
based on the genotype x environment (G x E) interaction using A and U)imt as reference
parameters also showed a more or less similar pattern. Although DB was shown to be
sensitive to drought (based on SI and G x E), it showed a certain degree of tolerance,
quick recovery, higher rates of A in comparison to other two genotypes and thus a
potential for higher productivity which was important in a commercial crop. However,
duration of natural drought that occurred during the experimental period was shorter than the dry spells, which are commonly observed in the area. Therefore, it prevented
the performance evaluation of the tested genotypes under severe water deficit
conditions.
Key words: Coconut, Drought tolerance, Susceptibility Index, Stomatal conductance,
G x E interaction |
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