dc.description.abstract |
Despite the vast research on trichome-based resistance as well as plant chemical factors
in plant-herbivore interactions in Solanaceous plants, little or no information is available on the association between Tetranychus evansi Baker and Pritchard and these mechanisms in African nightshades. The current study which was carried out from
December, 2006 to March, 2009 focused on five African nightshade species viz.
Solanum sarrachoides Sendter, S. villosum Mill, S. tarderemotum Bitter, S. americanum Mill and S. scabrum Mill that were evaluated for their resistance to T. evansi. The
objective was to investigate several host plant characteristics of the five Solanum spp and their influence on developmental duration, oviposition, survival, intrinsic population
growth rate and other life history characteristics of T. evansi. To achieve this objective, the study concentrated on four major areas (i) Effect of five Solanum spp on biology and
life table parameters of T. evansi (ii) Evaluating the effects of morphological and chemical factors in five Solanum spp to mite fecundity, repellency and olfactory
responses (iii) Population dynamics of T. evansi on five Solanum spp under greenhouse and field conditions and (iv) Effect of T. evansi feeding on growth and yield of five
Solanum spp grown under field conditions. The results indicated that S. villosum, S. scabrum, S. tarderemotum and S. americanum are the most susceptible to T. evansi due to the shorter adult developmental period, longer adult longevity, higher reproduction
and intrinsic rate of natural increase ranging between 0.180 - 0.196 females/female/day
compared with S. sarrachoides which cannot support T. evansi populations as the rm was
negative on this host. Differences in developmental time and life table parameters
among the other host plants were also not significant. Five different trichome types were
identified among the Solanum spp with the glandular types predominant in S.
sarrachoides. There was a significant negative correlation between fecundity (R = -
0.649; P = 0.0019) and distance traveled by mites after every 15 min interval with the
density of glandular trichomes. Significantly fewer eggs that decreased with the age of
the plant were laid on S. sarrachoides in comparison to other Solanum spp. Distance
traveled by mites was also significantly low in this species indicating that higher
densities of glandular trichomes decreased distances walked by mites. In olfactometer
bioassays, significantly more females responded to volatiles from intact plants of S.
villosum than those from other Solanum spp. Based on mite fecundity and behavioral
response studies, intact plants of two species, S. sarrachoides and S. villosum were
selected for volatile chemical analysis. GC-MS analysis and comparison with authentic
standards identified volatile compounds as belonging to the classes of terpenoids, esters,
aldehydes, ketones and green leaf alcohols. Quantification of these compounds revealed
that except for the ketones, other compounds were significantly higher in S.
sarrachoides than in S. villosum. Population densities of T. evansi in screenhouse studies
revealed that S. scabrum was highly infested by T. evansi but the percentage leaf area
damaged was very low in comparison to other Solanum spp. The highest level of
resistance was observed in S. sarrachoides where T. evansi populations significantly
remained low. Field studies revealed significant differences in number of motile
individuals of T. evansi among the acaricide free and acaricide protected plots.
xxiii |
en_US |