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An investigation into the detection of sugarcane African stalk borer (Eldana saccharina Walker (Lepidoptera : Pyralidae)) using hyperspectral data (spectroradiometry).Mokhele, Tholang Alfred. January 2009 (has links)
The South African Sugarcane production is one of the world’s leading sugarcane (Saccharum spp. Hybrid) producers. However, in recent years Eldana saccharina Walker has been the most destructive pest in South African sugarcane production, causing great crop loses per annum and is the most important factor limiting sugarcane productivity. The pest has been monitored using a traditional visual approach whereby a representative sample of stalks is taken from a field and split longitudinally to assess damage and count the number of E. saccharina larvae and pupae. However, this approach is time-consuming, labour intensive and sometimes biased as only easily accessible areas are often surveyed. In order to investigate a more economical but equally effective survey methodology, this study aimed to determine the potential of using hyperspectral remote sensing (spectroradiometry) for identifying sugarcane attacked by E. saccharina. A hand-held spectroradiometer ASD Field Spec® 3 was used to collect leaf spectral measurements of sugarcane plants from a potted-plant trial taking place under shade house conditions at the South African Sugarcane Research Institute (SASRI). In this trial, nitrogen (N) and silicon (Si) fertilizers were applied at known levels to sugarcane varieties. Varieties were either resistant or intermediate resistant or susceptible to E. saccharina attack. In addition, watering regimes and artificial infestation of E. saccharina were carefully controlled. Results illustrated that severe E. saccharina infestation increased spectral reflectance throughout the whole spectrum range (400 – 2500 nm) and caused a red-edge shift to the shorter wavelength. Eldana saccharina stalk damage was also linearly related to modified normalized difference vegetation index (mNDVI) using R2025 and R2200 (R2 = 0.69). It was concluded that hyperspectral data has a potential for use in monitoring E. saccharina in sugarcane rapidly and non-destructively under controlled conditions. A followup study is recommended in field conditions and using airborne and/or spaceborne hyperspectral sensors. / Thesis (M.Sc.)-University of KwaZulu-Natal, Durban, 2009.
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Identification and characterization of glyphosate-resistant common ragweedPollard, Justin Michael. January 2007 (has links)
Thesis (M.S.)--University of Missouri-Columbia, 2007. / The entire dissertation/thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file (which also appears in the research.pdf); a non-technical general description, or public abstract, appears in the public.pdf file. Title from title screen of research.pdf file (viewed on April 10, 2009) Includes bibliographical references.
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The establishment of in vitro screening methods for evaluating the susceptibility of sugarcane (Saccharum spp. hybrids) to the fungal disease, smut (causal agent : Ustilago scitaminea H. and P. Sydow) and the stalk borer, Eldana saccharina Walker (Lepidoptera : Pyralidae).Devnarain, Natrisha. January 2010 (has links)
The fungal disease smut (causal agent: Ustilago scitaminea H. & P. Sydow) and stalk borer Eldana saccharina Walker place major constraints on sugarcane agriculture in South Africa. The best approach for management is the introduction of resistant cultivars; however, conventional field-based screening for pest and disease resistance is a lengthy process. This study evaluated in vitro techniques combined with artificial inoculation of 12 week old in vitro plantlets and 8-10 week old embryogenic calli as rapid screening methods. Preliminary investigations were conducted on cultivars with known field ratings to smut and E. saccharina: NCo376, N26 and N39; and 5 „test‟ cultivars, whose identities were undisclosed until completion of experiments, were used to assess the accuracy of protocols. Infective U. scitaminea sporidia generated from teliospores, were used as inocula. Development of a callus protocol was unsuccessful due to sporidial and mycelial overgrowth, despite addition of a contact fungicide, Dithane M-45® (0.025 g/l) and a biocide/fungicide, PPMTM (5 ml/l), to media. Plantlet inoculation by injection, 1 cm above the apical meristem, resulted in 12% and 20% of smut susceptible NCo376 plantlets producing smut whips after 5 weeks when inoculated with 1 x 106 and 1 x 109 sporidia/ml, respectively. Smut whip production in 5 of the 8 (63%) cultivars inoculated with the lower sporidial concentration correlated with their field resistance ratings. In addition, whips harvested from in vitro plantlets were a valuable source of aseptic teliospores for future research. Ongoing work involves inoculation of NCo376 calli with such teliospores and maintenance on medium with PPMTM - emergence of whips from plantlets remains to be assessed. The E. saccharina screening protocol involved surface decontamination of eggs with 1% sodium hypochlorite (NaOCl) for 15 min. Feeding bioassays were conducted by placement of first instar larvae on in vitro plantlets and calli for 3 and 2 weeks, respectively. Larval mass, length and percentage infestation were recorded. Although greater larval size was expected in susceptible compared with resistant cultivars, the results did not support this. Significant differences in plantlet infestation were observed between susceptible (94-98%) and resistant (72-86%) lines. No significant differences were found in the callus feeding bioassay. However, a 24 h callus choice bioassay which investigated larval preference between callus genotypes compared with NCo376, showed significant differences and correctly discerned cultivar susceptibility according to field ratings. / Thesis (M.Sc.)-University of KwaZulu-Natal, Westville, 2010.
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The response of lepidopteran pests to commercialised Bt maize in South Africa / Jakobus Gideon VenterVenter, Jakobus Gideon January 2015 (has links)
Bt maize expressing Cry1Ab was approved for release in South Africa for control of
Busseola fusca (Fuller) (Lepidoptera: Noctuidae) and Chilo partellus (Swinhoe)
(Lepidoptera: Crambidae) in 1998. During 2012, a stacked Bt maize event,
expressing Cry2Ab2 + Cry1A.105, was also approved for control of these
abovementioned pests. The aim of this study was to determine the effects of two Bt
maize events expressing Cry1Ab (MON810 and Bt11) and a Bt maize event
expressing Cry2Ab2 + Cry1A.105 (MON89034) on selected lepidopteran non-target
pest species and certain lepidopteran stem borer species in South Africa. Results
from previous studies and this study will provide information regarding efficacy of Bt
maize against pests which have not been evaluated yet. Insects with significance in
maize agro-ecosystems in South Africa as well as the rest of Africa, were prioritised
and laboratory bioassays were conducted to evaluate the effect of Bt maize against
these selected target and non-target pest species. Studies were conducted on three
stem borers C. partellus, Eldana saccharina and Sesamia calamistis and three nontarget
lepidopteran pest species Agrotis segetum, Helicoverpa armigera and
Spodoptera exempta. Results showed that MON810 maize was not effective against
A. segetum larvae feeding on maize seedlings. Differential levels of survival were
observed between two A. segetum populations on MON89034 with a population from
Polokwane showing survival on the stacked maize event. No S. exempta 1st instar
larvae survived on MON810 and MON89034 but 3rd instar larvae survived on
MON810 maize. Helicoverpa armigera larvae survived on ears of MON810 maize
plants but not on events MON89034 or Bt 11. Results further indicated that C.
partellus larvae were highly susceptible to these three Bt maize events. Larval
survival of S. calamistis was recorded for larvae feeding on MON810 and Bt11 maize
ears but not on MON89034 maize ears. Bt maize during the vegetative growth
stages therefore effectively controlled C. partellus, S. calamistis and E. saccharina
but the latter two species was not effectively controlled when feeding on ear tissue.
This study provides important information on the effects of Bt maize on the most
important non-target pest species of maize in sub-Saharan Africa. / MSc (Environmental Sciences), North-West University, Potchefstroom Campus, 2015
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The response of lepidopteran pests to commercialised Bt maize in South Africa / Jakobus Gideon VenterVenter, Jakobus Gideon January 2015 (has links)
Bt maize expressing Cry1Ab was approved for release in South Africa for control of
Busseola fusca (Fuller) (Lepidoptera: Noctuidae) and Chilo partellus (Swinhoe)
(Lepidoptera: Crambidae) in 1998. During 2012, a stacked Bt maize event,
expressing Cry2Ab2 + Cry1A.105, was also approved for control of these
abovementioned pests. The aim of this study was to determine the effects of two Bt
maize events expressing Cry1Ab (MON810 and Bt11) and a Bt maize event
expressing Cry2Ab2 + Cry1A.105 (MON89034) on selected lepidopteran non-target
pest species and certain lepidopteran stem borer species in South Africa. Results
from previous studies and this study will provide information regarding efficacy of Bt
maize against pests which have not been evaluated yet. Insects with significance in
maize agro-ecosystems in South Africa as well as the rest of Africa, were prioritised
and laboratory bioassays were conducted to evaluate the effect of Bt maize against
these selected target and non-target pest species. Studies were conducted on three
stem borers C. partellus, Eldana saccharina and Sesamia calamistis and three nontarget
lepidopteran pest species Agrotis segetum, Helicoverpa armigera and
Spodoptera exempta. Results showed that MON810 maize was not effective against
A. segetum larvae feeding on maize seedlings. Differential levels of survival were
observed between two A. segetum populations on MON89034 with a population from
Polokwane showing survival on the stacked maize event. No S. exempta 1st instar
larvae survived on MON810 and MON89034 but 3rd instar larvae survived on
MON810 maize. Helicoverpa armigera larvae survived on ears of MON810 maize
plants but not on events MON89034 or Bt 11. Results further indicated that C.
partellus larvae were highly susceptible to these three Bt maize events. Larval
survival of S. calamistis was recorded for larvae feeding on MON810 and Bt11 maize
ears but not on MON89034 maize ears. Bt maize during the vegetative growth
stages therefore effectively controlled C. partellus, S. calamistis and E. saccharina
but the latter two species was not effectively controlled when feeding on ear tissue.
This study provides important information on the effects of Bt maize on the most
important non-target pest species of maize in sub-Saharan Africa. / MSc (Environmental Sciences), North-West University, Potchefstroom Campus, 2015
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Lepidoptera stem borers on cultivated and wild host plants : implications of insect-plant interactions for pest managementRebe, Makhosandile 12 October 2005 (has links)
Please read the abstract in the section 00front of this document / Thesis (PhD (Entomology))--University of Pretoria, 2005. / Zoology and Entomology / unrestricted
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Comparative phenology of Lepidoptera on genetically modified BT- and non-BT maize / A. van Wyk.Van Wyk, Annemie January 2006 (has links)
The maize stem borers, Busseola fusca (Fuller) (Lepidoptera: Noctuidae) and Chilo
partellus (Swinhoe) (Lepidoptera: Pyralidae) are economically important pests of maize
in South Africa. Genetically modified Bt maize (MON810) expressing Cry1Ab protein is
used to control these pests on approximately 425 000 hectares in South Africa. Before
this study no information was available on the diversity of Lepidoptera on maize in South
Africa or the potential impact of Bt maize on non-target Lepidoptera species under field
conditions. There was also no information on the susceptibility to Bt maize of another
stem borer species, Sesamia calamistis (Hampson) (Lepidoptera: Noctuidae), which is
not a target species of Bt maize. The aims of this study were to determine which
Lepidoptera species occur and feed on maize and could be directly exposed to Bt toxin as
well as to assess the levels of infestation of target stem borer species and non-target
Lepidoptera species on Bt- and non-Bt maize fields. Field collections of Lepidoptera that were directly exposed to Bt toxin through feeding on Bt maize plants were done between
January 2004 and May 2006. Surveys were conducted in the North-West, Free State,
Gauteng and Limpopo provinces. In order to quantify infestation levels and incidence of
larvae on plants, sampling was done by inspecting between 300 – 900 plants per field.
Studies were also done to compare the incidence of damaged plants and larvae on plants between Bt- and adjacent non-Bt maize fields. The susceptibility of S. calamistis to several Bt maize hybrids was evaluated under laboratory and greenhouse conditions.
Fifteen species of Lepidoptera were recorded on maize plants. The following six species were recorded to feed on Bt maize and were reared on Bt maize until the adult stage: Acantholeucania loreyi (Noctuidae), Agrotis segetum (Noctuidae), B. fusca (Noctuidae),
Helicoverpa armigera (Noctuidae), Eublemma gayneri (Noctuidae) and Nola
phaeocraspis (Nolidae). Although Bt maize was damaged by several species of leaf, stem
and ear feeding Lepidoptera in this study, the incidence of damage was always
significantly lower on Bt maize fields than susceptible fields. This study provided base
line data on Lepidoptera that feed on Bt maize in South Africa. Non-target Lepidoptera species that are directly exposed to Bt toxin was identified. An ecological model wasused to develop a preliminary risk assessment for Bt maize through which priority species for research and monitoring was identified as well as species that are at risk of resistance development. / Thesis (M. Environmental Science (Plant Protection))--North-West University, Potchefstroom Campus, 2007.
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Comparative phenology of Lepidoptera on genetically modified BT- and non-BT maize / A. van Wyk.Van Wyk, Annemie January 2006 (has links)
The maize stem borers, Busseola fusca (Fuller) (Lepidoptera: Noctuidae) and Chilo
partellus (Swinhoe) (Lepidoptera: Pyralidae) are economically important pests of maize
in South Africa. Genetically modified Bt maize (MON810) expressing Cry1Ab protein is
used to control these pests on approximately 425 000 hectares in South Africa. Before
this study no information was available on the diversity of Lepidoptera on maize in South
Africa or the potential impact of Bt maize on non-target Lepidoptera species under field
conditions. There was also no information on the susceptibility to Bt maize of another
stem borer species, Sesamia calamistis (Hampson) (Lepidoptera: Noctuidae), which is
not a target species of Bt maize. The aims of this study were to determine which
Lepidoptera species occur and feed on maize and could be directly exposed to Bt toxin as
well as to assess the levels of infestation of target stem borer species and non-target
Lepidoptera species on Bt- and non-Bt maize fields. Field collections of Lepidoptera that were directly exposed to Bt toxin through feeding on Bt maize plants were done between
January 2004 and May 2006. Surveys were conducted in the North-West, Free State,
Gauteng and Limpopo provinces. In order to quantify infestation levels and incidence of
larvae on plants, sampling was done by inspecting between 300 – 900 plants per field.
Studies were also done to compare the incidence of damaged plants and larvae on plants between Bt- and adjacent non-Bt maize fields. The susceptibility of S. calamistis to several Bt maize hybrids was evaluated under laboratory and greenhouse conditions.
Fifteen species of Lepidoptera were recorded on maize plants. The following six species were recorded to feed on Bt maize and were reared on Bt maize until the adult stage: Acantholeucania loreyi (Noctuidae), Agrotis segetum (Noctuidae), B. fusca (Noctuidae),
Helicoverpa armigera (Noctuidae), Eublemma gayneri (Noctuidae) and Nola
phaeocraspis (Nolidae). Although Bt maize was damaged by several species of leaf, stem
and ear feeding Lepidoptera in this study, the incidence of damage was always
significantly lower on Bt maize fields than susceptible fields. This study provided base
line data on Lepidoptera that feed on Bt maize in South Africa. Non-target Lepidoptera species that are directly exposed to Bt toxin was identified. An ecological model wasused to develop a preliminary risk assessment for Bt maize through which priority species for research and monitoring was identified as well as species that are at risk of resistance development. / Thesis (M. Environmental Science (Plant Protection))--North-West University, Potchefstroom Campus, 2007.
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Identification and documentation of ethnobiological methods used by rural farmers to control stalk borers on maize in the Eastern Cape Province of South AfricaSkenjana, Nolitha Leonora January 2015 (has links)
Maize contributes substantially to food security in the Eastern Cape province of South Africa. It is a staple food to many of the province’s rural and urban inhabitants. Insect pests are one of the factors that hamper its productivity and as a result, deprive farmers of good yields. The adverse effects of insecticides and the high cost associated with them and the cost of transgenic seeds are some of the challenges faced by small-scale farmers in rural areas. Alternative control methods which include the use of indigenous techniques to control pests are now sought. A study to identify and document ethnobiological means used by rural farmers to manage insect pests of maize was conducted in the rural areas of the Eastern Cape Province. A total of 217 participants were interviewed on the matter, using semi-structured but detailed questionnaires. Rural farmers due to their linkage to agriculture activities and the fact that they are considered as custodians of agricultural indigenous knowledge were selected as respondents. Only maize producing and IsiXhosa speaking people were chosen to contribute. Main focus was on the demography of respondents, crop production activities and insect pest control. Pretesting of the questionnaire in order to assess the appropriateness of questions and comprehension by both farmers and enumerators was done. Data was analysed using descriptive statistics. Fifty five percent (55 %) of the respondents were females and the highest number of participants was from the Chris Hani District Municipality. Majority of the people were unemployed or pensioners. Most had only attended primary school and the mean age was 59 years. Apart from maize, respondents were cultivating other crops such as cabbage, Swiss chard, potatoes etc. Stalk borers followed by cutworms were the main pests of maize in these areas. Respondents used mainly insecticides, followed by alternative substances, which also included cultural control methods such as planting date manipulation. Few respondents used plants as control agents for insect pests. Some people did not control pests even though they were a problem in their fields. The most used plant was Chenopodium ambrosiodes L, while the most used substance was Madubula (a detergent). The most used insecticide was carbaryl from the carbamite family. Respondents listed different preparation techniques for all the control methods mentioned. These techniques revealed different times of preparation, quantities of ingredients, amounts applied on plants, modes of application and intervals of application. Rural farmers in the study areas used different atypical methods which may play a significant role in pest management today. Some of the products may have a positive influence on agriculture, while some are dangerous to humans and environmental health. Further research which will investigate their potential use in pest control needs to be done.
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Induction des préférences olfactive et gustative chez les lépidoptères foreurs de graminées en Afrique de l'Est : effet des expériences pré-imaginale et imaginale / Induction of olfactory and gustatory preferences in Lepidoptera stemborers in East Africa : effect of pre-imaginal and imaginal experiencesPetit, Christophe 05 November 2015 (has links)
Chez les insectes phytophages, la sélection de la plante-hôte qui constitue un site de ponte et d'alimentation est cruciale pour la survie et le bon développement de la descendance. Les sens chimiques – olfaction et gustation - sont déterminants pour un insecte lors du choix de sa plante hôte. Ainsi, une expérience olfacto-gustative des signaux chimiques d'une plante permet aux insectes d'optimiser la période de recherche et d'identification de celle-ci. Dans ce travail, nous avons testé l'effet d'une expérience pré-imaginale et imaginale pour un nouveau substrat de développement (enrichi en vanilline) sur l'induction de préférence olfactive et alimentaire à ce substrat chez trois espèces de lépidoptères foreurs de graminées ayant des spectres alimentaires différents, Sesamia nonagrioides (polyphage), Busseola fusca (oligophage) et Busseola nairobica (monophage). Il s'est avéré que la préférence olfactive des femelles pour les odeurs de ce substrat peut être induite par une expérience préalable pré-imaginale et imaginale pour ce nouveau substrat et que cette induction est transmise de façon transgénérationnelle. Elle n'est cependant pas liée à une augmentation de la sensitivité des antennes des femelles à la vanilline. De plus, elle dépend de l'espèce étudiée. Elle se manifeste plus rapidement chez l'espèce la plus polyphage (au bout de deux générations), plus tardivement chez l'espèce monophage (au bout de cinq générations) et est, par contre, absente chez l'espèce oligophage. Même si plusieurs mécanismes peuvent être impliqués dans cette induction, nos résultats valident à la fois la théorie d'Hopkins, le principe néo-Hopkins et l'héritage chimique chez les espèces qui ont présenté cette induction. Concernant les larves, nous avons pu montrer que celles-ci suivent, en général, la préférence olfactive des femelles pour les odeurs d'un nouveau substrat mais que cette préférence n'est pas corrélée avec leurs préférences alimentaires. / Among herbivorous insects, the selection of the host plant as an egg laying site and food is crucial for the survival and development of the offspring. The chemical senses - olfaction and gustation – of an insect are crucial in host plant selection. An olfactory-gustatory experience of plant chemical signals allows insects to optimize their search period and host identification. In this study, we tested the effect of pre-imaginal and imaginal experience for a new artificial diet (enriched in vanillin) on the induction of olfactory and food preference for this diet in three species of lepidopteran stem borers with different food spectra, namely Sesamia nonagrioides (polyphagous), Busseola fusca (oligophagous) and Busseola nairobica (monophagous). It was shown that the olfactory preference of females for the odor of the new diet could be induced by pre-imaginal and imaginal experience for this new diet and that this induction was transmitted transgenerationally. It was however not linked to an increase in the sensitivity of the female antennae to vanillin. In addition, it depended on the species studied. It occurred after two generations only in the polyphagous species, after five generations in the monophagous species, and it was absent in the oligophagous species. Although several mechanisms may be involved in this induction, our results validate both the theory of Hopkins, neo-Hopkins principle and the chemical legacy in the species in which the induction occurred. The larvae exhibited generally the same olfactory preference than the adult females for the odors of the new diet but this preference was not correlated with their food preferences, indicating in larvae a discrepancy between olfaction and gustation.
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