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Performance of sterilized Eldana saccharina Walker (Lepidoptera: Pyralidae) adults in mating and cage trials : further steps towards its control using the Sterile Insect TechniqueMudavanhu, Pride 12 1900 (has links)
Thesis (PhD(Agric))--Stellenbosch University, 2012. / The sugarcane borer, Eldana saccharina Walker (Lepidoptera: Pyralidae) is the most limiting factor in the South African sugar industry with losses to this insect pest estimated to be at least ZAR60 million per annum. Because of its cryptic nature as well as the fact that E. saccharina is both indigenous to Africa and occurs on several host plants, attempts to control or eradicate it using several available methods have not been very successful. However, the sterile insect technique (SIT) is one of the newer control methods that can be incorporated into an area-wide integrated pest management (AW-IPM) programme to achieve better control or eradication. The implementation of the SIT program needs to go through a series of well-researched phases in order to be successful. In the first of this multi-phase project, it was determined that E. saccharina is susceptible to ionizing radiation, and is thus a suitable candidate for the SIT development against it and that a sub-sterilizing dose of 200 Gy is sufficient to induce F1(inherited) sterility in male and complete sterility in female moths respectively. The results presented here are discussed in the context of further development of the SIT as an addition to the arsenal of tactics in an AW-IPM programme against E. saccharina.
Based on these initial findings, the study examined the lek and mating behavior of male moths subjected to three radiation doses (150, 200, 250 Gy) against normal non-irradiated/fertile moths. Both mass-rearing and irradiation of E. saccharina led to a quantitative departure of male mating behavior away from that exhibited by their wild counterparts. However, treated males are still able to form leks and mate with wild females. Male E. saccharina irradiated at all three doses tested were found to be as active and competitive as wild males, but in some of the traits measured, performance diminished significantly with an increase in the radiation dosage. In general, the performance of moths treated at 200 Gy did not differ significantly from that of moths treated at 150 Gy and therefore the former dose is ideal for SIT development since it results in a lower residual F1 fertility than the latter.
The level of mating competitiveness and compatibility was assessed under both laboratory and semi-field conditions in pairwise comparisons consisting of laboratory reared vs. wild (L-W), 200 Gy irradiated vs. wild (S-W) and laboratory reared vs. irradiated moths (L-S). Based on the results from the more robust field cage assays, the mating indices generated indicated that the mass-reared E. saccharina strain produced in South Africa has not yet evolved sexual behaviours suggestive of incipient pre-mating isolation barriers with local wild strains. Wild moths did not discriminate against either the partially sterile or laboratory reared moths and most importantly, the irradiated males mated significantly more than their wild counterparts regardless of the type of female. The irradiated insects could therefore achieve the purpose for which they are intended upon release into the field.
Third, the critical thermal limits (CTLs) to activity at high and low temperatures (i.e. critical thermal maxima “CTmax” and minima “CTmin”) of different E. saccharina strains/treatments were investigated under standard experimental conditions. The effect of laboratory rearing and increasing radiation dosage on thermal tolerance of the adult stage of E. saccharina was explored. There were highly significant differences between the laboratory-reared and wild strain and also between non-irradiated and irradiated strains in both CTmax and CTmin. Laboratory reared E. saccharina moths were more heat tolerant compared to wild moths for both genders while in the case of CTmin, the reverse was true. Irradiation had a negative effect on both CTmax and CTmin. Moths treated at the lowest radiation dose were more cold and heat tolerant than those treated at higher dosages thereby reinforcing the importance of lower dosages rather than those that induce full sterility against E. saccharina. In general, gender effects on the CTLs were non-significant.
Pilot sterile male releases in shade house trials to measure the impact of sustained releases of partially sterile adult males at an over-flooding moth ratio of 10T: 1U (treated to untreated),were conducted to measure their efficacy to stop E. saccharina incursions and suppress populations prior to testing in pilot studies under true season-long and area wide conditions. Results from the current study demonstrated that releasing partially irradiated (200 Gy) adult male moths at the afore mentioned release rate significantly reduced sugarcane stalk damage as well as lowered the number of fertile progeny from F1to succeeding generations in a stable E. saccharina population initiated in a cage house. There were more damaged internodes per stalk in the control than in the sugarcane receiving regular releases of partially sterile male moths. Overall, there were significantly more undamaged stalks in the treated sugarcane than the untreated control. Furthermore, there were significantly more larvae per stalk retrieved from the control compared to the treated sugarcane suggesting that the sustained release of steriles was efficacious in reducing emergence of fertile larvae in the succeeding generations. The results of this study indicate that there is considerable scope for the SIT against E. saccharina.
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A study on the application technology of the sterile insect technique, with focus on false codling moth, Thaumatotibia leucotreta (Meyrick) (Lepidoptera: Tortricidae), a pest of citrus in South AfricaNepgen, Eugene Stephan January 2014 (has links)
False codling moth (FCM), Thaumatotibia leucotreta (Meyrick) (Lepidoptera: Tortricidae) is considered the most important indigenous pest of citrus in southern Africa. Major concerns such as progressive insecticidal resistance, the negative impact of insecticides on the environment, as well as the influence of consumers opposed to chemical residues on fruit, created opportunities for biological control methods such as Sterile Insect Technology (SIT). This technology is now established in the Western and Eastern Cape provinces of South Africa as an effective, sustainable alternative to conventional FCM control methods. Due to the prevalence of the pest in all citrus producing areas of South Africa, potential for SIT to expand is enormous. Success of an SIT programme is highly dependent on efficient application of the technology to achieve its objectives in a timeous manner. The aim of this study was to advance the application of SIT for control of FCM on citrus in South Africa, by investigating the effect of certain critical stages in the process. The effect of long-distance transportation on fitness of irradiated FCM was determined, showing reduced performance with cold-immobilized transport. A significant decrease in flight ability and longevity of irradiated FCM was found, although critically, realized fecundity was not affected. The effect of two different insecticides in the pyrethroid and organophosphate chemical groups were investigated for their residual effect on mortality of released irradiated FCM, to determine if these pest control programmes could be integrated. Both chlorpyrifos and tau-fluvalinate were effective in killing irradiated FCM for a number of days after application, after which degradation of the active ingredient rendered it harmless. This effect was found to be similar for irradiated and non-irradiated males, consequently ratios of sterile : wild male FCM should be retained regardless of whether sprays are applied or not. The modes for release of sterile FCM in an SIT programme were investigated. Efficacy of ground and aerial release platforms were tested by evaluating the recovery of released irradiated male FCM in these orchards. More irradiated FCM were recovered in orchards released from the ground compared to air. However, an economic analysis of both methods shows application of irradiated insects over a large geographical area is more cost-effective by air. Depending on the terrain and size of the target area, a combination of both methods is ideal for application of SIT for control of FCM in citrus. Development of application technology for advance of the programme is discussed and recommendations for future research and development are offered.
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Dispersal of sterile false codling moth, Thaumatotibia leucotreta (Meyrick) (Lepidoptera: Tortricidae), for a sterile insect technique programme on citrusWagenaar, Gideon Daniel January 2015 (has links)
The false codling moth (FCM), Thaumatotibia leucotreta (Meyrick) (Lepidoptera: Tortricidae), is an important pest of citrus in South Africa and challenging to manage due to its inconspicuous nature. An effective method currently being employed for the area-wide suppression of the FCM is the Sterile Insect Technique (SIT) and the effective dispersal of sterile moths is very important for success with SIT. This study was conducted in the Addo area of the Sundays River Valley (Eastern Cape) where the programme is commercially used. In this study, sterile male moths were released in different orchards on a citrus farm, and in nearby veld at different times of the year, and their dispersal was monitored through the use of pheromone traps. Various climatic factors were monitored. This provided insight into the local dispersal of sterile male FCM adults in response to abiotic cues (particularly climatic factors). The movement of the FCM in four citrus cultivars, namely lemons, navel and Valencia oranges and mandarins and in the nearby veld (open field), was determined at six different stages of the year. Results clearly indicated that sterile FCM movement is concentrated within citrus orchards, as very few moths were trapped beyond 30 m from the release point, particularly in navel and Valencia orchards. Of the climatic factors measured, minimum and maximum temperatures had the most significant influence on FCM dispersal, and based on the results, various recommendations are made for the releases of sterile FCM in an area-wide SIT management programmes on citrus. A better understanding of the dispersal capabilities of the FCM in an agricultural system, under different conditions and at different times of the year, is invaluable not only in improving release strategies in an SIT programme but in planning future control strategies against the FCM.
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Modifying an artificial diet for mass rearing mediterranean fruit fly, Ceratitis capitata (Diptera: Tephritidae), using locally available maize mealRini, Lulama Angela 03 1900 (has links)
Thesis (MSc)--University of Stellenbosch, 2003. / ENGLISH ABSTRACT: The Mediterranean fruit fly (Medfly), Ceratitis capitata (Wiedemann) (Diptera:
Tephritidae) is well-known as a destructive pest of fruit worldwide. Various control
methods have been used against this insect. The sterile insect technique (SIT) is used
as an important and successful technological method for controlling or eradicating
this pest in many countries. A key factor to successfully apply SIT is dependent on the
availability of efficient and economical rearing methods.
Artificial insect diets with low cost bulking agents have been of interest to many
researchers. The present study investigated the use of locally available maize meal as
a bulking agent in such diets. Maize meal is used for human consumption (in South
Africa) and contains small amounts of protein. This makes the reduction of imported
torula yeast as an ingredient of the diet and source of protein possible, thereby
reducing the cost of the diet.
The larval development of the Medfly reared on artificial diets was studied in
small and large-scale tests. The effect of the diets on larval production was evaluated
using pupal recovery, pupal weight, flight ability, sex ratio, fecundity and egg
fertility.
The results of the small-scale tests showed that the diet containing maize meal
could be used to produce Medfly more economically than the standard Krige diet used
by the ARC Infruitec-Nietvoorbij Research Institute at Stellenbosch. However, in
large-scale tests the ingredients quantities of the diets used were not the same as those
of small scale-tests. The cost of the modified larval diet was not reduced in large-scale
tests. This was ascribed to the number of eggs used in the tests to produce one million of fruit flies. The maize meal with reduced number of eggs require more diet to
produce one million flies therefore, making it more expensive and less viable. When
similar amounts of eggs were used, the diet appears to be a suitable alternative as the
result obtained was almost similar to those of the Krige diet. / AFRIKAANSE OPSOMMING: Die Mediterreens vrugtevlieg ("Medfly"), Ceratitis capitata (Wiedemann)
(Diptera: Tephritidae) is wêreldwyd 'n skadelike plaag. Die steriele insek tegniek
(SIT) het in baie lande 'n belangrike en suksesvolle manier geword om die plaag te
beheer en uit te roei. Die belangrikste voorvereiste vir die suksesvolle toepassing van
SIT is die beskikbaarheid van doeltreffende en ekonomiese teelmetodes.
Meeste navorsers is geïntereseerd in kunsmatige diëte met 'n goedkoop
vulstof. Hierdie studie is ontwerp om die gebruik van plaaslik beskikbare mieliemeel
as vulstof te ondersoek. In Suid-Afrika word dit vir menslike gebruik aangewend en
bevat klein hoeveelhede proteïene wat 'n vermindering van die ingevoerde torula gis
moontlik kan maak, en sodoende die koste van die dieët kan verminder.
Die ontwikkeling van Medfly larwes op kunsmatige diëte is bestudeer In
kleinskaalse en grootskaalse eksperimente. Die invloed van die diëte op larwale
produksie is evalueer deur gebruik te maak van van papie-ontwikkeling, papie-gewig,
vliegvermoë, geslagsverhouding, volwasse voortplantingsvermoë en
eiervrugbaarheid.
Die resultate van die kleinskaalse toetse het aangetoon dat die mieliemeel
dieët gebruik kan word om Medfly meer ekonomies as met die standaard Krige dieët,
wat in die ARC Infruitec-Nietvoorbij navorsings instituut by Stellenbosch gebruik
word, te teel. By die grootskaalse toetse was die koste nie laer nie. Dit word
toegeskryf aan die aantal eiers wat gebruik is om 'n miljoen vlieë te produseer. Die
mieliemeel dieët met 'n verminderde aantal eiers benodig meer dieët om 'n miljoen
vlieë te produseer, wat dit duurder en minder lewensvatbaar maak. Wanneer
soortgelyke hoeveelhede eiers gebruik was, het dit geblyk dat die dieët 'n opsie is,
want die resultaat was soortgelyk aan dié van die Krige dieët.
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A mathematical model for the control of Eldana saccharina Walker using the sterile insect techniquePotgieter, Linke 12 1900 (has links)
Thesis (PhD)--Stellenbosch University, 2013. / ENGLISH ABSTRACT: Two mathematical models are formulated in this dissertation for the population growth of
an Eldana saccharina Walker infestation of sugarcane under the influence of partially sterile
released insects. The first model describes the population growth of and interaction between
normal and sterile E. saccharina moths in a temporally variable, but spatially homogeneous
environment. The model consists of a deterministic system of difference equations subject to
strictly positive initial data. The primary objective of this model is to determine suitable
parameters in terms of which the above population growth and interaction may be quantified
and according to which E. saccharina infestation levels and the associated sugarcane damage
may be measured.
The second model describes this growth and interaction under the influence of partially sterile
insects which are released in a temporally variable and spatially heterogeneous environment.
The model consists of a discretized reaction-diffusion system with variable diffusion coefficients,
subject to strictly positive initial data and zero-flux Neumann boundary conditions on a bounded
spatial domain. The primary objectives in this case are to establish a model which may be used
within an area-wide integrated pest management programme for E. saccharina in order to
investigate the efficiency of different sterile moth release strategies in various scenarios without
having to conduct formal field experiments, and to present guidelines by which release ratios,
frequencies and distributions may be estimated that are expected to lead to suppression of the
pest.
In addition to the mathematical models formulated, two practical applications of the models
are described. The first application is the development of a user-friendly simulation tool for
simulating E. saccharina infestation under the influence of sterile insect releases over differently
shaped spatial domains. This tool provides the reader with a deeper understanding as to what
is involved in applying mathematical models, such as the two described in this dissertation, to
real-life scenarios. In the second application, an optimal diversification of sugarcane habitats is
considered as an option for minimising average E. saccharina infestation levels, and as a further
consequence, improving the cost-efficiency of sterile insect releases. Although many special cases of the above model classes have been used to model the sterile
insect technique in the past, few of these models describe the technique for Lepidopteran species
with more than one life stage and where F1-sterility is relevant. In addition, none of these
models consider the technique when fully sterile females and partially sterile males are being
released. The models formulated in this dissertation are also the first to describe the technique
applied specifically to E. saccharina, and to consider the economic viability of applying the
technique to this species. Furthermore, very few examples exist of such models which go beyond
a theoretical description and analysis towards practical, real-life applications as illustrated in
this dissertation. / AFRIKAANSE OPSOMMING: Twee wiskundige modelle word in hierdie proefskrif vir die populasiegroei van ’n Eldana saccha-
rina Walker infestasie van suikerriet onder die invloed van gedeeltelik steriele, vrygelate insekte
daargestel. Die eerste model beskryf die populasiegroei van en -interaksie tussen normale en
steriele E. saccharina motte in ’n dinamiese, maar ruimtelik-homogene omgewing. Die model is
’n stelsel deterministiese verskilvergelykings onderhewig aan streng positiewe aanvangswaardes.
Die primˆere doelstelling met hierdie model is om geskikte parameters te bepaal in terme waarvan
die bogenoemde groei en interaksie gekwantifiseer kan word, en waarvolgens E. saccharina
infestasievlakke en die gepaardgaande suikerrietskade gemeet kan word.
Die tweede model beskryf hierdie groei en interaksie onder die invloed van gedeeltelik steriele
insekte wat in ’n dinamiese en ruimtelik-heterogene omgewing vrygelaat word. Die model
is ’n gediskretiseerde stelsel reaksie-diffusievergelykings met veranderlike diffusieko¨effisi¨ente
onderhewig aan streng positiewe aanvangswaardes en zero-vloei Neumann-randwaardes op ’n
begrensde ruimtelike gebied. Die primˆere doelstellings in hierdie geval is om ’n model tot stand
te bring wat in ’n area-wye, ge¨ıntegreerde pesbestrydingsprogram vir E. saccharina gebruik
kan word om die doeltreffendheid van verskillende steriele motvrylatingstrategie¨e te bepaal
sonder om daadwerklik veldeksperimente uit te voer, en om riglyne daar te stel waarvolgens
vrylatingsverhoudings, -frekwensies en -verspreidings bepaal kan word wat na verwagting na ’n
onderdrukking van die pes sal lei.
Bykomend tot die wiskundige modelle in hierdie proefskrif, word twee praktiese toepassings
van die modelle ook beskryf. In die eerste toepassing word ’n gebruikersvriendelike simulasie
hulpmiddel ontwikkel om E. saccharina infestasie onder die invloed van steriele insekvrylatings
in verskillende ruimtelike gebiede te simuleer. Hierdie toepassing fasiliteer ’n dieper begrip van
wat ter sprake is in die toepassing van wiskundige modelle, soos die twee modelle in hierdie
tesis, tot werklike scenario’s. In die tweede toepassing word ’n optimale diversifisering van
suikerriet habitats as ’n opsie vir die vermindering van die gemiddelde E. saccharina infestasie
vlakke beskou, en gevolglik word die verbetering van die koste-doeltreffendheid van steriele
insekvrylatings afgeskat. Alhoewel verskeie spesiale gevalle van die bogenoemde twee klasse van modelle reeds in die
verlede gebruik is om die doeltreffendheid van die steriele-insektegniek te modelleer, beskryf
weinig van hierdie modelle die tegniek vir Lepidopteriese spesies met meer as een lewensfase en
waar F1-steriliteit ter sprake is. Verder beskryf geen van hierdie modelle die tegniek waar algeheel
steriele wyfies en gedeeltelik steriele mannetjies vrygelaat word nie. Die modelle in hierdie
tesis is ook die eerste waar die tegniek spesifiek op E.saccharina toegepas word, en waar die
ekonomiese lewensvatbaarheid van die tegniek vir hierdie spesie oorweeg word. Verder bestaan
daar min voorbeelde van soortgelyke modelle wat verder gaan as ’n teoretiese beskrywing en
wiskundige ontleding na praktiese, werklike toepassings, soos in hierdie proefskrif ge¨ıllustreer.
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