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Inheritance of resistance to the Dectes stem borer, Dectes texanus LeConte (Coleoptera: Cerambycidae), in soybean plant introduction PI165673Aguirre-Rojas, Lina Maria January 1900 (has links)
Master of Science / Department of Entomology / C. Michael Smith / The Dectes stem borer, Dectes texanus LeConte, is a pest of soybean, Glycine max (L.) Merrill, in North America. Larval feeding weakens plant stems, triggering lodging of the infested plants and causing significant yield losses. D. texanus infestations in soybean fields are increasing across Kansas and other states, necessitating the development of effective tactics to control this pest. The use of D. texanus -resistant soybean cultivars is a desirable strategy to control this pest since cultural and chemical control options are lacking. In previous studies, the soybean plant introduction PI165673 was identified to be resistant to D. texanus. The objective of this research was to determine the inheritance of resistance to D. texanus in PI165673. F[subscript]2 progeny plants from crosses between the D. texanus susceptible genotypes KS5004N and K07-1544, and the resistant genotype PI165673 were tested in the field for resistance to D. texanus in 2011. Seeds from the cross K07-1544/PI165673 were advanced to the F[subscript]3 generation, and F[subscript]2:3 families were tested in the field for resistance to D. texanus in 2012. At 20 d after infestation with adults, the numbers of oviposition punctures and larvae on each plant were counted to estimate the oviposition puncture per larvae resistance ratio. Segregation for resistance to D. texanus and heritability estimates in the F[subscript]2 and F[subscript]2:3 populations indicated that resistance is controlled by more than one gene. Thirteen F[subscript]2:3 families had a higher (more resistant) resistance ratio than the susceptible parent K07-1544. Mean head capsule widths of larvae collected from K07-1544 and PI165673 plants in 2012 were similar, as was the percentage of larvae per larval instar. According to heritability estimates for each phenotypic trait, progress in breeding for D. texanus resistance using PI165673 will benefit from marker assisted selection. Identification of additional sources of D. texanus resistance besides that in PI165673 is needed to slow larval growth in the stem.
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Development of soybean host plant resistance and other management options for the stem borer, Dectes texanus leconteNiide, Terutaka January 1900 (has links)
Doctor of Philosophy / Department of Entomology / Larry L. Buschman / C. Michael Smith / Several studies were conducted to develop soybean management options that could provide protection from the soybean stem borer, Dectes texanus LeConte. Selected soybean genotypes were screened for host plant resistance against D. texanus. Soybean plants were grown in a footprint that could be covered by a field cage. When beetles were flying in the fields they were collected and placed in the field cages to increase the insect feeding pressure on the test plants. A susceptible commercial soybean variety treated with the systemic insecticide fipronil was used as a positive antibiosis check. Both commercial soybean varieties and plant introductions (PIs) obtained from the USDA National Soybean Germplasm Collection in maturity groups (MG) VI to VIII were tested over a four-year period. Since the number of ovipositions per plant could not be controlled, the ratio of oviposition punctures (OP’s) per live larvae (OP/ Lv) was used as a novel index of potential plant antibiosis to D. texanus. Field evaluations identified PI165673 as a genotype with a very high OP/ Lv ratio - similar to that for the fipronil antibiosis control. PI165673 appears to be potential source of resistance to D. texanus. Factorial analysis indicated that soybean maturity group was not significant factor in the expression of resistance. The OP/ Lv ratio appears to be more sensitive means of identifying antibiosis than other more conventional damage indices. The use of field cages demonstrated consistent plant responses from year to year during the multi-year study. Greenhouse-grown soybean plants, including transgenic plants containing the Manduca sexta chitinase gene, were not morphologically appropriate for successful D. texanus oviposition because the greenhouse-grown plants were poorly developed and had not produced enough pith in petioles. Therefore the greenhouse results were inconclusive. Analysis of the vertical distribution of D. texanus oviposition on soybean plants revealed that D. texanus oviposition was most likely to occur on leaf petioles on the upper five nodes of the plant canopy. Histomorphological observations of plant petioles indicated that the proportion of the petiole perimeter occupied by vascular bundles might be related to D. texanus oviposition. Both foliar and seed applications of fipronil suppressed D. texanus larval damage on soybean plants. The efficacy of these treatments was sustained for long periods, even until adult beetles were present in early August. The effects of the fipronil seed-treatment and harvest date on grain yield were both significant while the interaction was not. A physiological yield loss of 8.2% and plant lodging losses of 2.9% were associated with D. texanus infestation.
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