2 research outputs found
The Bionomics of the Teak Skeletoniser, Paliga Damastesalis Walker (Lepidoptera: Crambidae) and its Defoliation Impact on Young Teak, Tectona Grandis Linnaeus
The distribution and feeding behaviour of a teak skeletoniser, Paliga damastesalis
Walker, and the impact of its defoliation on the growth of young teak was investigated in
a series of laboratory and field studies in Malaysia. A laboratory study on feeding
behaviour showed that instar II to V larvae of P. damastesalis significantly preferred
consuming leaf disks cut from young, expanding leaves of nodes 1 to 2 on two year-old
trees, instead of leaf disks cut from mature, fully expanded leaves of nodes 3 to 5. Also,
larvae that were confined to young leaves on pollarded two year-old trees a field study,
fed and developed normally on those whole young leaves, indicating that secondary
metabolites present in young whole leaves do not deter feeding or retard the growth of
this insect significantly. Additionally, in that field study, larvae that were caged over
mature leaves consumed a significantly larger leaf area in the fifth instar and had a
significantly longer larval period than larvae caged over young leaves, while adult dry
weights were not significantly different than that of larvae caged over young leaves. This indicates that P. damastesalis may be able to compensate for lower nutritional leaf
content by feeding longer and increasing consumption of the nutrient-poor leaves. The
findings of the laboratory study on the preference of P. damastesalis for younger leaves
were supported by a subsequent study on the within-tree distribution of the immature
stages on 6 to 12 month-old teak planted along a highway. The larvae were strongly
associated with the upper node leaves in the field, which are comparatively younger than
the lower node leaves, suggesting that the larvae preferred and actively sought younger
leaves to consume. However, oviposition behaviour may also have influenced larval
distribution as the larvae may have completed their development on or not far from the
eggs were laid. Since over 60% of the larvae were found on leaves of nodes two to four,
sampling of leaves from these nodes was recommended for young teak grown in similar
conditions, during non-outbreak periods. On another note, a skewed sex ratio with males
consistently forming less than 3.5% of the samples was reported, and it was suggested
that a pathogen causing male mortality in the embrogenic stage of P. damastesalis may
be exerting an influence on those field populations of the insect. In a ten-month study on
the impact of P. damastesalis defoliation on the growth of six month-old teak in a
plantation environment, severity of defoliation showed a significant negative assocation
with production of new leaves and relative growth rates for tree height and tree collar
diameter, only for the first two months after the defoliation. For the remainder of the
study there was no difference in the growth of the trees in relation to the level of
defoliation they experienced
Effects of defoliation from an outbreak of the teak skeletoniser, Paliga damastesalis walker (Lepidoptera: Crambidae), on the growth of teak, Tectona grandis L.
The effects of defoliation by the teak skeletoniser Paliga damastesalis Walker (Lepidoptera: Crambidae) on a six-month old stand of teak Tectona grandis L. was evaluated on the subsequent year-long growth in the field. Defoliation did not exceed 10%. It had a transient negative effect on post-defoliation height increment and new leaf production of up to two and three months of growth. However, defoliation severity significantly affected collar diameter increment up to the seventh month. A peak in the mean monthly growth increments for new leaf production occurred in April, followed by collar diameter increment in June and height in July. In addition, a peak in one of these three growth parameters also corresponded with a trough in the other or both of the other parameters; as such, the height increment peaked with a concomitant trough in collar diameter increment a month later. As for the remaining period of the dry season after July, new leaf production remained at a constant low level, while increments for both the height and collar diameter were found to decrease. Tree recovery appeared rapid with regard to these growth parameters, thus the impact of defoliation was generally and relatively negligible on the growth parameters measured