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Optimization of an immunomarking technique for the study of tarnished plant bug movement between corn and cottonKumar, Ankit 07 August 2010 (has links)
A key economic pest of cotton in the mid-south is the tarnished plant bug (TPB), Lygus lineolaris (Hemiptera: Miridae). It is believed that early season crops like corn play a major role in building up TPB populations which then move to nearby cotton fields. The objective of this research was to determine the movement dynamics of TPB at the interface of these crops. Our 2009 data indicate TPB movement from corn into cotton occurred when corn was maturing from silk stage to milk. However, tasseling corn is more attractive compared to pre-squaring cotton to TPB. A supporting study evaluated the retention time of protein markers under simulated midsouth summer conditions. We measured the impact of adding sorbitol to an egg protein solution on retention time of the protein on TPB acquisition. We found that sorbitol decreased acquisition time and raised the detection values of proteins in the absence of rain.
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Chronobiology of Lygus Lineolaris (Heteroptera: Miridae): Implications for Rearing and Pest ManagementSelf, Sarah Rose 11 August 2012 (has links)
This research project consisted of three primary objectives: (1) Improve rearing methods for L. lineolaris, (2) Determine if selected behaviors displaying photoperiodicity are under circadian control, and (3) Estimate phase angle shifts of selected circadian rhythms, in an effort to contribute toward the future improvement of current integrated pest management techniques. Improving rearing methods was accomplished in three areas: (1) Estimating the optimal stocking rate to maximize production while maintaining acceptable insect quality as a function of photoperiodic regime, (2) Estimating fecundity at the optimal stocking rate and photoperiodic regime, and (3) Determining the timing of oviposition, mating, feeding and egg hatch, under the optimal stocking rate and photoperiodic regime. The stocking rate maximizing production of females was 8.93 (SE = 2.54) egg packets/rearing container. It was also determined that average female weight significantly declined as stocking rate increased. Therefore, a lower stocking rate of six oviposition packets is recommended as a compromise between productivity and product quality appropriate for many rearing purposes. Fecundity under the optimal stocking rate was also determined. Females produced an average of zero to seven eggs per day over the course of their lifetime, and an average of 83.49 eggs over the course of a single female’s lifespan (SE = 9.4). This is unusually low compared to other studies due to an infection of Nosema spp. in the laboratory colony. Oviposition peaked nine to 12 days after eclosion. Fecundity data can be used by rearers as a measure of fitness, allowing them to gauge the overall vigor of their colony. Oviposition and mating behaviors were determined to be periodic with respect to photoperiod, while feeding and egg hatch were not. Oviposition and mating were also determined to be under circadian control, because they met the four criteria stated by Saunders (2001). No significant phase angle shift occurred between 16:8 and 12:12 LD photoperiods for either behavior. Therefore the calculation of a phase angle shift was not possible. Additionally, the investigation of light intensity effect on peak oviposition showed that L. lineolaris did not respond differently to on/off light signals compared to simulated “dawn/dusk” signals.
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Genomic Analysis of Cotton PestsShowmaker, Kurtis C 12 August 2016 (has links)
Upland cotton (Gossypium hirsutum) is an important crop in Mississippi. Economic losses are incurred every year due to the feeding and treatment of crop pests and plant pathogens. Because it is often unclear what differentiates a pest from a pathogen, I will use the umbrella term “biotic stressor” or BST when referring to a plant pest or pathogen. BSTs employ a special set of proteins known as ‘effectors’ that function at the site of BST physical attack. Effectors dictate how the host-BST relationship will unfold. Effectors include the proteins produced by the BST that are recognized by the plant and invoke the subsequent plant immune responses to the BST. Moreover, some effectors are responsible for the successful modification of the host tissues for the survival of the pest. In this study I utilized Illumina sequencing and computational biology approaches to identify effectors within three evolutionarily diverse cotton BSTs; specifically, Lygus lineolaris (tarnished plant bug), Xanthomonas citri pv. malvacearum (Xcm) (bacterial cotton blight), and Rotylenchulus reniformis (reniform nematode). Transcripts from the Lygus lineolaris salivary gland were found to encode putative degradative proteins used for the extra-oral digestion of host tissues by the insect. Production, assembly, and comparison of a whole genome assembly of the first Xcm genome obtained from a strain isolated in the cotton producing region of the United States revealed that the cotton Xcm is similar to other reported Xcm assemblies and contains most of the proteins found in these other strains. Genome and life-stage specific transcriptome sequencing of the nematode Rotylenchulus reniformis resulted in the identification of 41,570 transcripts of which 3,033 were up-regulated in the parasitic sedentary female life-stage. These studies collectively provide insight into the mechanisms by which key cotton BSTs invade and damage cotton. Further study of the BST effectors and the plant biomolecules with which they interact should facilitate development of highly targeted mechanisms of minimizing/eliminating BST damage. Such customized BST management will increase profits for farmers and maximize resource utilization in an environmentally responsible manner.
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Studies on the impact of an insect growth regulator and host plant on reproductive physiology of Lygus lineolarisAnderson, James Houston Chance 13 May 2022 (has links) (PDF)
The tarnished plant bug, Lygus lineolaris, is an economically important polyphagous pest with a broad host range. With occurrence of insecticide resistance, strategies to limit its ability to reproduce, which would curb population growth, are becoming increasingly more valuable. Strategies toward this goal include the application of insect growth regulators (IGRs) and utilization of resistant cotton lines. This thesis summarizes experiments that elucidate the physiological underpinnings of the mode of action of novaluron, an IGR, and a cotton chromosome substitution (CS) line on the reproductive physiology of L. lineolaris. Investigations reported herein indicate that novaluron inhibits oviposition by inhibiting ovarian development and decreasing the expression of a gene (LlCHS-1) encoding chitin synthase. Transcriptomic analysis of ovarian tissue of L. lineolaris fed on a resistant CS line compared to a control line revealed the downregulation of genes involved in chitin synthesis and upregulation of genes involved in chitin degradation.
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Seasonal management strategies for tarnished plant bug, Lygus lineolaris (Palisot de Beauvois), in midsouth cotton production systemsMann, Ryan Taylor 10 December 2021 (has links)
The tarnished plant bug, Lygus lineolaris (Palisot de Beauvois), is considered the most economically important pest of midsouth cotton. This study was designed to understand the impact of tarnished plant bug populations in the later weeks of flowering cotton and residual effects of novaluron with subsequent applications. Experiments evaluated dynamic threshold approaches in the later flowering period of midsouth cotton, the impacts of novaluron plus subsequent applications at the 3rd week of square, as well as residual properties in a laboratory experiment. Results suggest that a dynamic late season approach can reduce the amount of insecticide applications targeting tarnished plant bug with no penalty to yield. Populations were observed at lowest densities where applications of novaluron were tank mixed with an adulticide (acephate) at the 3rd week of square. Results of this experiment will be important in refining seasonal management recommendations for tarnished plant bug in midsouth cotton production systems.
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