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The management of diamondback moth, Plutella xylostella (Linnaeus) (Lepidoptera: Plutellidae), population density on cabbage using chemical and biological control methodsBopape, Malesela Jonas 04 July 2014 (has links)
The diamondback moth, Plutella xylostella (Linnaeus) (Lepidoptera: Plutellidae), is a
cosmopolitan insect pest of Brassica crops. In South Africa, there are no action thresholds
for its chemical control which makes it difficult for growers to make informed decisions on
when to apply insecticides and how frequently to apply them in order to achieve optimal
crop yield. To contribute towards optimum application of insecticides against P. xylostella,
this study compared the impact of weekly and bi-weekly applications of a selective
insecticide Dipel® (Bacillus thuringiensis Berliner var. kurstaki) applied at 250 g/ha, and a
broad-spectrum insecticide Dichlorvos (an organophosphate) applied at 1 ml/L against
biological control (Control) on the pest population density on cabbage during October–
December 2011 and March–May 2012. The use of both selective and broad-spectrum
insecticides for experiments enables us to understand if efforts to optimise cabbage yield
depend mainly on effective suppression of P. xylostella densities. Furthermore,
investigations were carried out to determine the impact of these chemicals on parasitism
rates of P. xylostella and species richness of its primary parasitoids.
During the October–December 2011 growing season, the lowest infestation of P. xylostella
occurred on cabbage plots that received weekly application of Dipel and the highest on
untreated control plots. Cabbage weights were negatively related to infestation levels,
implying that weekly application of Dipel yielded bigger cabbage heads. During March–
May 2012, P. xylostella infestations were again higher on the control followed by weekly
and bi-weekly treatments of Dichlorvos, then weekly and bi-weekly applications of Dipel.
Despite the significant differences observed, infestation levels were much lower (< 1 P.
xylostella per plant on average) in all treatments during this season. Consequently no
significant differences in cabbage weights were observed among the treatments. The lower
infestation levels were attributed to higher parasitism levels (≥50 %), especially during the
early stages of crop development.
A total of four parasitic Hymenoptera species were recorded from P. xylostella larvae and
pupae during October–December 2011, while three species were recorded during March–
May 2012. However, Cotesia vestalis (Haliday) (Braconidae) accounted for >80 % of total parasitism levels in all treatments. Parasitism levels were not significantly different among
the treatments in both seasons. Parasitoid species richness was highest on the control.
Although two parasitoid species were recorded in all Dipel and Dichlorvos treatments
during October–December 2011, only one parasitoid species was recorded in the Dipel
treatments during March–May 2012 compared to two species in Dichlorvos treatments.
Although weekly applications of Dipel ensured good yield and crop quality during
October–December, weekly applications of the chemical did not lead to better quality crop
during March–May crop growing season. Thus, it is not necessary to apply insecticides
during periods in which natural mortality of P. xylostella is high due to parasitoids. Since
P. xylostella abundance was a determining factor of crop quality, these results imply that
insect pest management should focus mainly on suppressing its numbers. Furthermore,
there was no evidence that application of either insecticide type had a negative impact on
parasitism rates of P. xylostella. The lower parasitoid species richness on Dipel treated
plots was the consequence of its higher efficiency in suppressing the pest population which
substantially reduced availability of potential hosts for parasitoids, hence only the efficient
C. vestalis was recorded at low host densities / Agriculture and Animal Health / M.Sc. (Agriculture)
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The management of diamondback moth, Plutella xylostella (Linnaeus) (Lepidoptera: Plutellidae), population density on cabbage using chemical and biological control methodsBopape, Malesela Jonas 04 July 2014 (has links)
The diamondback moth, Plutella xylostella (Linnaeus) (Lepidoptera: Plutellidae), is a
cosmopolitan insect pest of Brassica crops. In South Africa, there are no action thresholds
for its chemical control which makes it difficult for growers to make informed decisions on
when to apply insecticides and how frequently to apply them in order to achieve optimal
crop yield. To contribute towards optimum application of insecticides against P. xylostella,
this study compared the impact of weekly and bi-weekly applications of a selective
insecticide Dipel® (Bacillus thuringiensis Berliner var. kurstaki) applied at 250 g/ha, and a
broad-spectrum insecticide Dichlorvos (an organophosphate) applied at 1 ml/L against
biological control (Control) on the pest population density on cabbage during October–
December 2011 and March–May 2012. The use of both selective and broad-spectrum
insecticides for experiments enables us to understand if efforts to optimise cabbage yield
depend mainly on effective suppression of P. xylostella densities. Furthermore,
investigations were carried out to determine the impact of these chemicals on parasitism
rates of P. xylostella and species richness of its primary parasitoids.
During the October–December 2011 growing season, the lowest infestation of P. xylostella
occurred on cabbage plots that received weekly application of Dipel and the highest on
untreated control plots. Cabbage weights were negatively related to infestation levels,
implying that weekly application of Dipel yielded bigger cabbage heads. During March–
May 2012, P. xylostella infestations were again higher on the control followed by weekly
and bi-weekly treatments of Dichlorvos, then weekly and bi-weekly applications of Dipel.
Despite the significant differences observed, infestation levels were much lower (< 1 P.
xylostella per plant on average) in all treatments during this season. Consequently no
significant differences in cabbage weights were observed among the treatments. The lower
infestation levels were attributed to higher parasitism levels (≥50 %), especially during the
early stages of crop development.
A total of four parasitic Hymenoptera species were recorded from P. xylostella larvae and
pupae during October–December 2011, while three species were recorded during March–
May 2012. However, Cotesia vestalis (Haliday) (Braconidae) accounted for >80 % of total parasitism levels in all treatments. Parasitism levels were not significantly different among
the treatments in both seasons. Parasitoid species richness was highest on the control.
Although two parasitoid species were recorded in all Dipel and Dichlorvos treatments
during October–December 2011, only one parasitoid species was recorded in the Dipel
treatments during March–May 2012 compared to two species in Dichlorvos treatments.
Although weekly applications of Dipel ensured good yield and crop quality during
October–December, weekly applications of the chemical did not lead to better quality crop
during March–May crop growing season. Thus, it is not necessary to apply insecticides
during periods in which natural mortality of P. xylostella is high due to parasitoids. Since
P. xylostella abundance was a determining factor of crop quality, these results imply that
insect pest management should focus mainly on suppressing its numbers. Furthermore,
there was no evidence that application of either insecticide type had a negative impact on
parasitism rates of P. xylostella. The lower parasitoid species richness on Dipel treated
plots was the consequence of its higher efficiency in suppressing the pest population which
substantially reduced availability of potential hosts for parasitoids, hence only the efficient
C. vestalis was recorded at low host densities / Agriculture and Animal Health / M.Sc. (Agriculture)
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The influence of cabbage cultivars on the fitness of Plutella xylostella (Linnaeus 1758) (Lepidoptera: Plutellidae) and its biological control agent Cotesia vestalis (haliday 1834) (Hymenoptera: Braconidae)Nethononda, Phophi Dzivhuluwani 20 April 2016 (has links)
The diamondback moth, Plutella xylostella (Linnaeus 1758.) (Lepidoptera: Plutellidae), is a major insect pest of Brassica crops in many parts of the world leading to economic losses amounting to an estimated US$ 4-5 billion. Although parasitoids (biological control agents) play a major role in suppressing the pest populations during November – May in South Africa, the pest reaches outbreak status during September and October due to low impact of parasitoids, which has necessitated regular application of insecticides. However, insecticide applications have often resulted in the pest developing resistance, and when coupled with the negative effects of several insecticides on parasitoids, integration of the two pest control strategies for effective management of P. xylostella population density has been difficult to achieve. One approach that has received little attention is integration of host plant resistance (bottom-up effect) and biological control (top-down effect) for effective management of P. xylostella. However, the interaction between host plants, the insect pest, and parasitoids is not simple and straight forward, as strong negative impact of host plants on fitness of the insect pest can be cascaded up the food chain and have a negative impact on a given parasitoid, which in turn may reduce the desired complementary effect between the two pest control strategies. To identify optimal interactions between cabbage (Brassica oleracea L. var. capitata, Brassicaceae), P. xylostella and its larval parasitoid Cotesia vestalis (Haliday 1834) (Hymenoptera: Braconidae), this study investigated (i) the effects of seven cabbage cultivars (Empowa, Hollywood F1, Megaton, Leano, Menzania, Beverley Hills and Karabo) on fitness parameters (survival, developmental time, pupal weights, longevity without food and oviposition rates) of P. xylostella; (ii) the influence of the same host plant cultivars on fitness parameters (developmental time, pupal weights, longevity xi
without food, fecundity, emergence rate and sex ratio) of C. vestalis. Furthermore, net reproductive rates and the intrinsic rates of natural increase were calculated for C. vestalis that emerged from hosts fed on each of the cultivars. All experiments were conducted in climate-controlled laboratory rooms maintained at 22 ± 1 ºC (mean ± S.D.), 60 ± 5 % RH and 16L: 8D photoperiod.
Under the no choice test, overall survival of P. xylostella immature stages was highest on Karabo (67.26%) and lowest on Megaton (44.92%). The larval and pupal developmental period, and generation time was prolonged on Empowa (18.48 days), Karabo (14.64 days) and Beverly Hills (17.48 days), while developmental period on Hollywood F1 (13.79 days) was shortest. Male and female P. xylostella pupal weights were lighter from larvae that fed on Megaton (4.13 and 4.65 mg), Menzania (4.53 and 4.91 mg), and Hollywood F1 (4.11 and 5.08 mg), whereas pupal weights from Karabo (6.0 and 6.82 mg) were the heaviest. Unfed female moths originally reared on Beverley Hills had the highest longevity (5.05 days), whereas those reared on Leano (3.54 days) and Megaton (3.89 days) had the shortest life span. Under the choice-test, P. xylostella moth laid significantly more eggs on Empowa (48.8%) and Hollywood F1 (45.6%) and least on Menzania (11.8%) and Leano (10.6%). Megaton was more resistant to P. xylostella due to lower survival rates of immature stages, lower pupal weights and moth longevity.
The generation time of C. vestalis was shortest on Karabo (10.10 days) and Leano (10.38 days), and longest on Megaton (12.57 days) and Empowa (12.80 days). The highest pupal weight of C. vestalis was obtained from parasitoids reared from P. xylostella fed Menzania (5.4 mg), Megaton (5.25 mg) and Beverly Hills (4.85 mg) and the lightest on Karabo (3.8 mg). Parasitoids reared on larvae that fed on Hollywood F1 lived the longest (2.28 days) followed by Menzania (1.94 days) and Beverly Hills (1.8 days), whereas those whose hosts fed on Leano had shortest life span (0.83 days). Despite the parasitoids from Megaton hosts being heavier, their fecundity and number of female progeny per female (16.87 and 3.60, respectively) were lowest. Cotesia vestalis fecundity and daughters produced per female were highest on hosts fed on Menzania (38.00 and 9.13, respectively) and Beverly Hills (32.87 and 9.07, respectively). As a consequence, the net reproductive rate (R0) and intrinsic rate of increase (r) were higher on Menzania (7.87 and 0.58, respectively) and Beverly Hills (8.29 and 0.62, respectively).
As survival and overall fitness of P. xylostella was lower on Megaton, this cultivar can play a major role in restricting population growth of this pest and thus generational number of eggs deposited on it during September and October. However, this strong bottom-up effect of Megaton on P. xylostella was cascaded up the food chain, as overall fitness of C. vestalis was lower on hosts developing on it. In contrast, the overall fitness of C. vestalis was higher on hosts that developed on Menzania and Beverly Hills. As these cultivars showed potential to sustain population density of C. vestalis at higher levels, it is also assumed that the period required for the parasitoid to reach the critical density to suppress the host population at a lower average density will be reached quicker than on other cultivars. Thus, their cultivation may improve biological control of P. xylostella during November–May in South Africa / Agriculture, Animal Health and Human Ecology / M. Sc. (Agriculture)
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The influence of cabbage cultivars on the fitness of Plutella xylostella (Linnaeus 1758) (Lepidoptera: Plutellidae) and its biological control agent Cotesia vestalis (Haliday 1834) (Hymenoptera: Braconidae)Nethononda, Phophi Dzivhuluwani 20 April 2016 (has links)
The diamondback moth, Plutella xylostella (Linnaeus 1758.) (Lepidoptera: Plutellidae), is a major insect pest of Brassica crops in many parts of the world leading to economic losses amounting to an estimated US$ 4-5 billion. Although parasitoids (biological control agents) play a major role in suppressing the pest populations during November – May in South Africa, the pest reaches outbreak status during September and October due to low impact of parasitoids, which has necessitated regular application of insecticides. However, insecticide applications have often resulted in the pest developing resistance, and when coupled with the negative effects of several insecticides on parasitoids, integration of the two pest control strategies for effective management of P. xylostella population density has been difficult to achieve. One approach that has received little attention is integration of host plant resistance (bottom-up effect) and biological control (top-down effect) for effective management of P. xylostella. However, the interaction between host plants, the insect pest, and parasitoids is not simple and straight forward, as strong negative impact of host plants on fitness of the insect pest can be cascaded up the food chain and have a negative impact on a given parasitoid, which in turn may reduce the desired complementary effect between the two pest control strategies. To identify optimal interactions between cabbage (Brassica oleracea L. var. capitata, Brassicaceae), P. xylostella and its larval parasitoid Cotesia vestalis (Haliday 1834) (Hymenoptera: Braconidae), this study investigated (i) the effects of seven cabbage cultivars (Empowa, Hollywood F1, Megaton, Leano, Menzania, Beverley Hills and Karabo) on fitness parameters (survival, developmental time, pupal weights, longevity without food and oviposition rates) of P. xylostella; (ii) the influence of the same host plant cultivars on fitness parameters (developmental time, pupal weights, longevity xi
without food, fecundity, emergence rate and sex ratio) of C. vestalis. Furthermore, net reproductive rates and the intrinsic rates of natural increase were calculated for C. vestalis that emerged from hosts fed on each of the cultivars. All experiments were conducted in climate-controlled laboratory rooms maintained at 22 ± 1 ºC (mean ± S.D.), 60 ± 5 % RH and 16L: 8D photoperiod.
Under the no choice test, overall survival of P. xylostella immature stages was highest on Karabo (67.26%) and lowest on Megaton (44.92%). The larval and pupal developmental period, and generation time was prolonged on Empowa (18.48 days), Karabo (14.64 days) and Beverly Hills (17.48 days), while developmental period on Hollywood F1 (13.79 days) was shortest. Male and female P. xylostella pupal weights were lighter from larvae that fed on Megaton (4.13 and 4.65 mg), Menzania (4.53 and 4.91 mg), and Hollywood F1 (4.11 and 5.08 mg), whereas pupal weights from Karabo (6.0 and 6.82 mg) were the heaviest. Unfed female moths originally reared on Beverley Hills had the highest longevity (5.05 days), whereas those reared on Leano (3.54 days) and Megaton (3.89 days) had the shortest life span. Under the choice-test, P. xylostella moth laid significantly more eggs on Empowa (48.8%) and Hollywood F1 (45.6%) and least on Menzania (11.8%) and Leano (10.6%). Megaton was more resistant to P. xylostella due to lower survival rates of immature stages, lower pupal weights and moth longevity.
The generation time of C. vestalis was shortest on Karabo (10.10 days) and Leano (10.38 days), and longest on Megaton (12.57 days) and Empowa (12.80 days). The highest pupal weight of C. vestalis was obtained from parasitoids reared from P. xylostella fed Menzania (5.4 mg), Megaton (5.25 mg) and Beverly Hills (4.85 mg) and the lightest on Karabo (3.8 mg). Parasitoids reared on larvae that fed on Hollywood F1 lived the longest (2.28 days) followed by Menzania (1.94 days) and Beverly Hills (1.8 days), whereas those whose hosts fed on Leano had shortest life span (0.83 days). Despite the parasitoids from Megaton hosts being heavier, their fecundity and number of female progeny per female (16.87 and 3.60, respectively) were lowest. Cotesia vestalis fecundity and daughters produced per female were highest on hosts fed on Menzania (38.00 and 9.13, respectively) and Beverly Hills (32.87 and 9.07, respectively). As a consequence, the net reproductive rate (R0) and intrinsic rate of increase (r) were higher on Menzania (7.87 and 0.58, respectively) and Beverly Hills (8.29 and 0.62, respectively).
As survival and overall fitness of P. xylostella was lower on Megaton, this cultivar can play a major role in restricting population growth of this pest and thus generational number of eggs deposited on it during September and October. However, this strong bottom-up effect of Megaton on P. xylostella was cascaded up the food chain, as overall fitness of C. vestalis was lower on hosts developing on it. In contrast, the overall fitness of C. vestalis was higher on hosts that developed on Menzania and Beverly Hills. As these cultivars showed potential to sustain population density of C. vestalis at higher levels, it is also assumed that the period required for the parasitoid to reach the critical density to suppress the host population at a lower average density will be reached quicker than on other cultivars. Thus, their cultivation may improve biological control of P. xylostella during November–May in South Africa / Agriculture, Animal Health and Human Ecology / M. Sc. (Agriculture)
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