Capacidade reprodutiva e preferência da traça-das-crucíferas, Plutella xylostella (L., 1758) (Lepidoptera: Plutellidae), para diferentes brassicáceas ao longo de gerações / Reproductive capacity and preference of diamondback moth, Plutella xylostella (L., 1758) (Lepidoptera: Plutellidae), to different brassics over generations.

Dagmara Gomes Ramalho

21 July 2014

A traça das crucíferas, Plutella xylostella (L.) (Lepidoptera: Plutellidae), é uma das pragas mais importantes de Brassicaceae no Brasil e no mundo, causando sérios danos em repolho, couve-flor e couve comum, entre outras. O objetivo desta pesquisa foi estudar os parâmetros populacionais e a resposta comportamental de P. xylostella criada por dezoito gerações, utilizando três variedades: Brassica oleracea var. acephala couve manteiga hibrida HS-20, B. oleracea var. italica couve brócolis Piracicaba e B. oleracea var. capitata repolho Bob Cat. Para condução dos experimentos foram separados três lotes de pupas de P. xylostella da criação mantida no laboratório, no qual foram utilizadas apenas folhas de couve para sua manutenção. Cada lote foi mantido em substrato diferente, ou seja, a criação inicial foi dividia em três populações tendo como variável o substrato alimentar e de oviposição utilizado na criação (couve, brócolis ou repolho). Com os dados biológicos de P. xylostella foram estimados os parâmetros populacionais de tabela de vida de fertilidade a cada três gerações, comparando-se as cultivares testadas em relação ao desenvolvimento, sobrevivência e reprodução da praga. Além disso, lotes de insetos oriundos de cada substrato de criação foram separados a cada três gerações para realização de testes de dupla e múltipla chance de escolha (preferência para alimentação e oviposição). Os parâmetros populacionais de P. xylostella indicam que as brassicáceas testadas permitem o crescimento populacional do inseto nos respectivos hospedeiros. O comportamento de seleção hospedeira na fase pré-imaginal e imaginal de P. xylostella não é afetado pela experiência alimentar e de oviposição nos substratos testados até a geração F18. / The diamondback moth (DBM), Plutella xylostella (L.) (Lepidoptera: Plutellidae), is one of the most important pests of Brassicaceae in Brazil and worldwide, causing serious damage to cabbage, cauliflower and kale common, among others. The aim of this research was to study the population parameters and the behavioral response of P. xylostella reared for eighteen generations, using three varieties: Brassica oleracea var. acephala - cabbage hybridizes HS-20, B. oleracea var. italica - Piracicaba broccoli and B. oleracea var. capitata - cabbage Bob Cat. To conduct the experiments were separate three batches of DBM from pupae held in the laboratory setting, in which only kale leaves were used for maintenance. Each batch was kept at different substrate, namely the initial rearing was divided into three populations having as variable the feeding and oviposition substrate used in rearing (kale, broccoli, and cabbage). With biological data of P. xylostella were estimated the population parameters of fertility life table every three generations, comparing the tested cultivars in relation to the development, survival and reproduction of the pest. Moreover, lots of insects derived from each rearing substrate were separated every three generations for performing dual choice and multiple-choice tests (preference for feeding and oviposition). The population parameters of P. xylostella indicate that brassicas tested allow the insect population growth in their hosts. The host selection behavior in pre-imaginal and imaginal stage of P. xylostella is not affected by food and oviposition experience on substrates up to F18 generation.

comportamento de insetos

manejo integrado de pragas.

traça-das-crucíferas

diamondback moth

insect behavior

integrated pest management.

Efeito de alguns inseticidas sobre a mariposa Plutella xylostella (L., 1758) (Lepidoptera, Plutellidae) por meio de iscas esterilizantes. / Inseticide effects on the diamondback moth Plutella xylostella (L., 1758) (Lepidoptera, Plutellidae) by using sterilizing baits.

Leticia Mika Tiba

04 April 2008

A mariposa Plutella xylostella (L., 1758) (Lepidoptera, Plutellidae), conhecida popularmente como traça das crucíferas, é uma importante praga da cultura das brássicas no Brasil e em diversos países. Seu controle normalmente é realizado com aplicações freqüentes de inseticidas convencionais, porém esse controle tem se mostrado ineficiente, além dos problemas ambientais, econômicos e de resistência de insetos que pode causar. A quimioesterilização apresenta-se como uma alternativa para o manejo desta praga, utilizando inseticidas modernos, mais seletivos aos inimigos naturais e de menor impacto ambiental. O objetivo deste trabalho foi estudar o emprego de alguns inseticidas com propriedades esterilizantes sobre a fase adulta de Plutella xylostella determinando as dosagens adequadas que atuaram sobre sua reprodução. Os produtos foram fornecidos às mariposas em forma de iscas que consistiram em: solução do produto + melaço 10%. Os inseticidas utilizados e suas respectivas dosagens foram abamectina (0,0025 g i.a./L calda), diflubenzurom (0,005 g i.a./L calda), lufenurom (0,005 g i.a./L calda) e piriproxifem (0,01 g i.a./L calda), além da testemunha. Apenas o tratamento com abamectina afetou a fecundidade de Plutella xylostella, apresentando 10,23 ± 4,41 ovos em média, enquanto na testemunha obteve-se 64,54 ± 15,11 ovos, porém a fertilidade foi afetada por todos os produtos. A viabilidade média dos ovos dos tratamentos com abamectina, diflubenzurom, lufenurom e piriproxifem foi, respectivamente 3,35%; 46,69%; 9,31% e 12,47%; todos diferiram estatisticamente da testemunha que apresentou viabilidade de 83,89%. A longevidade dos insetos tratados com os produtos não diferiu dos não tratados, com exceção dos indivíduos tratados com abamectina que apresentaram uma redução no tempo de vida. Quando os produtos testados foram oferecidos isoladamente para machos e fêmeas, a ação esterilizante apenas pode ser observada em fêmeas desta espécie, os machos não apresentaram nenhuma diferença com relação à testemunha quando alimentados com as iscas esterilizantes. / Plutella xylostella (L., 1758) (Lepidoptera, Plutellidae), commonly known as diamondback moth, is an important pest of Brassicaceae in Brazil and several other countries. Its control is usually done with frequent applications of conventional insecticides. However, this approach is sometimes ineffective, besides some drawbacks such as environmental contamination, the high cost of application and the development of insecticides resistance. Chemosterilization using modern insecticides presents an alternative for this pest management. The aim of this study was to evaluate a range of insecticides with sterilizing properties on the adult reproduction of Plutella xylostella. Pesticides were provided to moths in baits, diluted in 10% molasses water solution. The insecticides used and respective doses were: abamectin (0.0025 g a.i./L), diflubenzuron (0.005 g a.i./L), lufenuron (0.005 g a.i./L) and pyriproxyfen (0.01 g a.i./L). A 10% molasses solution was used as a control treatment. Only abamectin affected the fecundity of Plutella xylostella, with a reduction from 64.54 ± 15.11 eggs/moth obtained in the control treatment to 10.23 ± 4.41 eggs/moth, when adults were fed this pesticide. However, fertility was affected by all pesticides. Egg viability when adults were feed abamectin (3.35%), diflubenzuron (46.69%), lufenuron (9.31%) and pyriproxyfen (12.47%) were reduced when compared to the control (83.89%). Only adults that were abamectin fed had their longevity reduced as compared to all other treatments. When the tested pesticides were offered isolated to males or females, their sterilizing activity was observed only when females had access to treated baits.

Inseticidas

Iscas

Reguladores de crescimento

Reprodução animal

Traças.

Avermectin

Chemosterilization

Diamondback moth

Insect growth regulators

Reproduction.

Using Long-term Mark-recapture Data to Quantitatively Assess Conservation Strategies for the Diamondback Terrapin, Malaclemys terrapin

Jenkins, David M.

01 October 2018

No description available.

Biology

Ecology

diamondback

terrapin

turtle

conservation

population

sensitivity

elasticity

matrix

bycatch

crab

brd

Effects of Red Diamondback Rattlesnake Venom on Keloid Dermal Fibroblasts <i>In Vitro</i>

Newman, Mackenzie Shelby

January 2013

No description available.

Toxicology

Pharmacology

Cellular Biology

keloid

scar

snake venom

red diamondback

mass spectrometry

venom

metalloprotease

collagen

Broccoli yield response to cabbage looper and varietal preferences of lepidopterous pests of broccoli

Vail, Karen M.

January 1988

Respondents of the 1986 Broccoli Growers Survey grew an average of 6.2 acres of broccoli in Fall 1986; popular varieties were Green Valiant (87.5% of respondents), Packman and Emperor (62.5%). Less than 5% of tobacco land was converted to broccoli production by 62.5% of the growers. Before heading, 2.4 insecticidal sprays were applied for worms at $20.51/acre. During heading, 2.4 insecticidal sprays were applied for worms at $19.40/acre. Under normal growing conditions, a nine-day mean of 8.4 and a 15-day mean of 12.1 cabbage looper larvae/plant did not significantly reduce yield in the Spring and Fall respectively. However, means of 7.4 and 11.1 cabbage looper larvae/plant reduced yield (head weight) under drought conditions. Harvest date was not affected by the above cabbage looper levels. In Fall 1986, a reduction in yield occurred when plants had 50% or more defoliation and harvest date was significantly delayed at 100% defoliation. In the drought stressed Spring 1987 planting, a stimulation in yield occurred at 25% defoliation and 75% defoliation was needed to significantly reduce yield, but there was no difference in harvest date. The imported cabbageworm was the most abundant pest of broccoli in Montgomery Co., VA. Based on counts of all immature stages of the insects for three seasons, Packman and Southern Comet varieties were less preferred compared to Green Defender. Laboratory studies indicated that imported cabbageworm larvae developed faster to the fifth instar on Packman broccoli than those reared on Green Defender, Southern Comet or Emperor. Difference in amount consumed between varieties was not detected. Pupae reared on Southern Comet weighed significantly more than those reared on Packman. / M.S.

LD5655.V855 1988.V344

Broccoli -- Diseases and pests

Cabbage looper

Diamondback moth

Pieris rapae

Interrelationship of Bacillus thuringiensis Berliner to diamondback moth, Plutella xylostella L. (Lepidoptera: Plutellidaae), and its primary parasitoid, Diadegma insulare Cress (Hymenoptera: Ichneumonidae)

Ulpah, Saripah

18 April 2009

The susceptibility of a population of diamondback moth, Plutella xvlostella L (Lepidoptera: Plutellidae), collected from Montgomery County, Virginia, and its ability to develop resistance to Bacillus thuringiensis was evaluated. The field population of diamondback moths was found to be susceptible to B. thuringiensis. Selection pressure at 153 I.U. of B. thuringiensis endotoxin per ml for nine generations did not cause any significant difference in mean mortality of third instar diamondback moths although there was a trend towards lower mortality, there was significant negative linear correlation between generation and mean mortality of diamondback moth larvae (P = 0.003, r²= 0.73). LC₅₀ increased from 264 I.U. of B. thuringiensis endotoxin per ml in generation I to 514 LU/ml in generation IX. The interrelationship of B. thuringiensis to diamondback moth and its primary parasitoid, Diadegma insulare Cress (Hymenoptera. Ichneumonidae), was studied by determining: the differential response of third instar diamondback moth, parasitized and unparasitized, to B. thuringiensis, and the ability of D. insulare to discriminate between B. thuringiensis-treated and untreated hosts. There was no significant difference (P > 0.05) between mean mortality of parasitized and unparasitized larvae at each of the three concentrations consisting of 154, 334, and 2237 I.U. of B. thuringiensis endotoxin per ml. The regressions of the response of parasitized and unparasitized larvae, however, were highly significant (P = 0.0001). The LC₅₀s of parasitized versus unparasitized larvae were 373 and 176 I.U./ml B. thuringiensis endotoxin, respectively. Female D. insulare did not discriminate between B. thuringiensis-treated and untreated hosts. The percentage of D. insulare females emerging from B. thuringiensis-treated larvae (41.4%) was not significantly different from that of untreated larvae (32.0 %). Mean mortality of third instar diamondback moth subjected to B. thuringiensis endotoxin at 153, 334, and 2237 I.U./ml were not significantly different at temperatures of 15 and 20 °C, but were significantly lower than that at 30 °C. The effects of B. thuringiensis endotoxin residues on leaves under room conditions [27 ± 1 °C, RH 27 ± 72%, and 8:16 (L:D)] were not significantly different at 2 and 192 hours after treatment. / Master of Science

LD5655.V855 1994.U473

Bacillus thuringiensis

Diadegma insulare

Diamondback moth

Ichneumonidae

Plutellidae -- Parasites

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

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)

635.34978

Cabbage -- Diseases and pests

Diamondback moth -- Biological control

Plutellidae -- Biological control

Biological pest control agents

Pests -- Biological control

Effects of light intensity and nitrogen source on pac choi (Brassica rapa l.), and interaction with the diamondback moth (Plutella xylostella l.).

Johnson, Wendy Ann

January 1900

Doctor of Philosophy / Department of Entomology / Raymond A. Cloyd / James R. Nechols / Raymond A. Cloyd / James R. Nechols / Greenhouse studies were conducted to examine direct effects of light intensity and nitrogen source on primary and secondary metabolism of pac choi (Brassica rapa L. var. chinensis cv. ‘Mei Qing Choi’) and indirect effects on diamondback moth (Plutella xylostella L.)(DBM). In the first study, plants were exposed to high and low light intensities during different times of the year, resulting in a range of light intensities. From four experiments, plants exhibited higher phenolic content, greater shoot biomass, and higher C:N ratios under high light intensity, whereas plants under low light intensity contained higher protein. Ferulic acid increased under high light intensity, and this increase was negatively correlated with male DBM body weights. However, DBM developed faster on plants in the August experiment (high light), compared to the July experiment (lower light). This implies that light intensity may not be affecting DBM through plant-mediated changes unless reduced male weights confer a reduction in larval consumption. In the nitrogen source study, application of an organic source of nitrogen (fish hydrolysate fertilizer) was compared to a conventional fertilizer to determine whether nitrogen source directly impacts pac choi chemistry and biomass, thus indirectly impacting DBM fitness. In two experiments, there was no significant effect of fertility treatment on pac choi nutrients or biomass, with the exception of percent leaf phosphorus, which was significantly higher in the conventional fertility treatment. For DBM, percent survival and cohort development were significantly reduced on pac choi receiving the organic fertilizer. Calcium and magnesium were significantly higher in pac choi infested with DBM larvae than plants without DBM. In addition, calcium was negatively correlated with female DBM body weights in one experiment for the organic treatment. Overall, this study demonstrated that pac choi plants that received the organic fertilizer were similar to pac choi plants that received a conventional fertilizer with the exception of phosphorus. Furthermore, female DBM body weights were negatively impacted by calcium in the organic treatment. As multiple fitness traits for DBM were negatively affected in the organic treatment, pac choi crops grown with fish hydrolysate fertilizer may experience less feeding from DBM.

Plutella xylostella

Diamondback moth

Brassica rapa

Pac choi

Plant-insect interactions

Light intensity

Agriculture, General (0473)

Ecology (0329)

Entomology (0353)

Genetic control of the diamondback moth (Plutella xylostella L.)

Harvey-Samuel, Timothy

January 2015

Insect pests represent major threats to food production, biodiversity conservation, and human and animal health. Currently, the most widespread strategy to control their populations is through the spraying of synthetic chemical insecticides. However, the overuse of these compounds has had significant negative environmental consequences. Additionally, our reliance on insecticides has resulted in major reductions in their efficacy through pest-evolved resistance. To successfully manage insect pests, while avoiding environmental degradation, thus requires the development of novel, more sustainable, pest management strategies. Recent advances in our understanding of recombinant DNA methods and molecular biology have allowed the application of transgenic tools to pest management. Here, synthetic genes can be engineered, transformed into the genomes of pest species, and transported into wild target populations through the natural mating behaviour of the insect. A strategy in which these transgenes are lethal to those insects inheriting them in the field is known as RIDL – Release of Insects carrying a Dominant Lethal. A variant of RIDL limits this lethality to females – female specific RIDL (fsRIDL) – which explicitly targets the reproductive capacity of a target population. The aim of this thesis is to investigate the application of such an fsRIDL strategy to the diamondback moth (Plutella xylostella L.). This economically important pest of brassica crops is highly adept at developing resistance to insecticides and is considered extremely difficult to manage effectively. I present findings which demonstrate the power of diamondback moth lines transformed with fsRIDL transgenes to eliminate target pest populations, and combine synergistically with other transgenic control strategies such as Bt crops in counteracting the evolution of pesticide resistance. Additionally, an exploration into an alternative gene expression system to that used in current RIDL strategies – the Q system – suggests that not all expression systems will be suitable for transgene control within this highly specific framework. It is hoped that this work will contribute towards the effective control of the diamondback moth, and form a model for the sustainable control of other lepidopteran species through genetic pest management.

632

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

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)

635.34978

Cabbage -- Diseases and pests

Diamondback moth -- Biological control

Plutellidae -- Biological control

Biological pest control agents

Pests -- Biological control