New Perspectives on the Management of Helicoverpa Zea (Boddie) (Lepidoptera: Noctuidae) in United States Sweet Corn PDF Download
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Author: Daniel Lucas Olmstead Publisher: ISBN: Category : Languages : en Pages : 170
Book Description
Helicoverpa zea (Boddie), the corn earworm, is a polyphagous caterpillar pest found throughout the United States and is a key pest of sweet corn. Chapter one is a review of literature relevant to the biology, ecology and management of H. zea in United States sweet corn production. Chapter two evaluates the predictive ability of male moth pheromone trap catch alone compared to a model that incorporates multiple factors on the biology and development of H. zea and the environment. Chapter three tests the efficacy of insecticides, registered for use against H. zea in sweet corn, in context to important timing windows during sweet corn ear development, as outlined in chapter two. The epilogue summarizes conclusions and identifies areas of future research. Chapter one is a comprehensive review of the literature relating to the biology, ecology and management of H. zea in United States sweet corn production. First, H. zea behavior, development, host interactions and ecology are reviewed, including host range, dispersal and migration, diapause and overwintering. Next, integrated pest management (IPM) practices for control of H. zea are discussed. Then, current tools including cultural, biological, chemical and transgenic controls for H. zea are reviewed. Finally, research needs likely to be of importance for management of H. zea in coming years are outlined. Female H. zea oviposit on sweet corn silks and yield loss occurs when neonates migrate into the ear under the husk to feed because a single larva can cause complete economic loss if the ear is for fresh market purposes. Chapter two examines current integrated pest management (IPM) guidelines for sweet corn that use pheromone trap-captured male H. zea moths to inform management decisions compared to models inclusive of additional factors relevant to ovipositional behavior or development of H. zea. Results of logistic regression and predictive discriminant analyses demonstrate that using multiple environmental and biological factors do, in fact, provide a higher predictive power than pheromone trap catch alone. These results show that IPM strategies to control H. zea damage in sweet corn should use multiple biological and environmental factors important for oviposition and infestation, and that pheromone trap catch alone is not the best predictor of damage at harvest. Chapter three draws on the conclusions of chapter 2, asking whether sweet corn can be protected more effectively if insecticides are applied to target the most attractive silking periods for female H. zea oviposition. The relationship between insecticide application timing from tassel through silk stages and marketable yield at harvest were evaluated in the field. Results were compared to yields resulting from current IPM recommendations for the northeast United States. The effectiveness of three registered insecticides (methomyl, chlorantraniliprole and lambda-cyhalothrin), each representing a different class of insecticide, were evaluated. Significant yield differences among insecticides and timing treatments were detected and the combined effects of active ingredient with timing determined the extent of H. zea damage. The efficacy of chlorantraniliprole as an effective means of H. zea control in sweet corn was unclear. In year 1, there was no significant effect of insecticide type or application timing, but there was a significant interaction effect between factors. In year 2, there was a significant effect of insecticide type. Chlorantraniliprole treatments resulted in significantly higher percentages of sweet corn ears compared to lambda-cyhalothrin. There was also a main effect of application timing. Four insecticide applications made from 50% tassel to 25% dry silk resulted in significantly higher percentages of clean ears at harvest compared with a single insecticide application made at 50% tassel. Compared to other timing treatments, however, there were no significant differences. 4 The epilogue provides a summary of conclusions reached from chapters one through three. This section also discusses areas of future research that include plant-insect dynamics, chemical ecology and possibilities for advancement of IPM strategies for H. zea management in the 21st century. 5.
Author: Daniel Lucas Olmstead Publisher: ISBN: Category : Languages : en Pages : 170
Book Description
Helicoverpa zea (Boddie), the corn earworm, is a polyphagous caterpillar pest found throughout the United States and is a key pest of sweet corn. Chapter one is a review of literature relevant to the biology, ecology and management of H. zea in United States sweet corn production. Chapter two evaluates the predictive ability of male moth pheromone trap catch alone compared to a model that incorporates multiple factors on the biology and development of H. zea and the environment. Chapter three tests the efficacy of insecticides, registered for use against H. zea in sweet corn, in context to important timing windows during sweet corn ear development, as outlined in chapter two. The epilogue summarizes conclusions and identifies areas of future research. Chapter one is a comprehensive review of the literature relating to the biology, ecology and management of H. zea in United States sweet corn production. First, H. zea behavior, development, host interactions and ecology are reviewed, including host range, dispersal and migration, diapause and overwintering. Next, integrated pest management (IPM) practices for control of H. zea are discussed. Then, current tools including cultural, biological, chemical and transgenic controls for H. zea are reviewed. Finally, research needs likely to be of importance for management of H. zea in coming years are outlined. Female H. zea oviposit on sweet corn silks and yield loss occurs when neonates migrate into the ear under the husk to feed because a single larva can cause complete economic loss if the ear is for fresh market purposes. Chapter two examines current integrated pest management (IPM) guidelines for sweet corn that use pheromone trap-captured male H. zea moths to inform management decisions compared to models inclusive of additional factors relevant to ovipositional behavior or development of H. zea. Results of logistic regression and predictive discriminant analyses demonstrate that using multiple environmental and biological factors do, in fact, provide a higher predictive power than pheromone trap catch alone. These results show that IPM strategies to control H. zea damage in sweet corn should use multiple biological and environmental factors important for oviposition and infestation, and that pheromone trap catch alone is not the best predictor of damage at harvest. Chapter three draws on the conclusions of chapter 2, asking whether sweet corn can be protected more effectively if insecticides are applied to target the most attractive silking periods for female H. zea oviposition. The relationship between insecticide application timing from tassel through silk stages and marketable yield at harvest were evaluated in the field. Results were compared to yields resulting from current IPM recommendations for the northeast United States. The effectiveness of three registered insecticides (methomyl, chlorantraniliprole and lambda-cyhalothrin), each representing a different class of insecticide, were evaluated. Significant yield differences among insecticides and timing treatments were detected and the combined effects of active ingredient with timing determined the extent of H. zea damage. The efficacy of chlorantraniliprole as an effective means of H. zea control in sweet corn was unclear. In year 1, there was no significant effect of insecticide type or application timing, but there was a significant interaction effect between factors. In year 2, there was a significant effect of insecticide type. Chlorantraniliprole treatments resulted in significantly higher percentages of sweet corn ears compared to lambda-cyhalothrin. There was also a main effect of application timing. Four insecticide applications made from 50% tassel to 25% dry silk resulted in significantly higher percentages of clean ears at harvest compared with a single insecticide application made at 50% tassel. Compared to other timing treatments, however, there were no significant differences. 4 The epilogue provides a summary of conclusions reached from chapters one through three. This section also discusses areas of future research that include plant-insect dynamics, chemical ecology and possibilities for advancement of IPM strategies for H. zea management in the 21st century. 5.
Author: Peter A. Edde Publisher: Academic Press ISBN: 0128196998 Category : Technology & Engineering Languages : en Pages : 1004
Book Description
Field Crop Arthropod Pests of Economic Importance presents detailed descriptions of the biology and ecology of important arthropod pest of selected global field crops. Standard management options for insect pest control on crops include biological, non-chemical, and chemical approaches. However, because agricultural crops face a wide range of insect pests throughout the year, it can prove difficult to find a simple solution to insect pest control in many, if not most, cropping systems. A whole-farm or integrated pest management approach combines cultural, natural, and chemical controls to maintain insect pest populations below levels that cause economic damage to the crop. This practice requires accurate species identification and thorough knowledge of the biology and ecology of the target organism. Integration and effective use of various control components is often enhanced when the target organism is correctly identified, and its biology and ecology are known. This book provides a key resource toward that identification and understanding. Students and professionals in agronomy, insect detection and survey, and economic entomology will find the book a valuable learning aid and resource tool. - Includes insect synonyms, common names, and geographic distribution - Provides information on natural enemies - Is thoroughly referenced for future research
Author: Publisher: ISBN: Category : Languages : en Pages :
Book Description
To mitigate resistance development in pest insects to transgenic field corn and cotton expressing Bacillus thuringiensis (Bt) proteins, the USDA and EPA have indicated that a high dose/refuge strategy is most effective, but single toxin Bt crops which predominate the transgenic crop acreage provide only a moderately high dose for one target pest in North Carolina, Helicoverpa zea (Boddie), or bollworm. When a source of susceptible insects is present, moderately high insecticide doses are expected to result in resistance development more quickly than high doses. In theory, introducing a pyramided genotype expressing two different Bt proteins in the presence of a source of susceptible insects can more substantially delay resistance development than a single Bt genotype expressing a high or moderately high Bt dose. Herein, we determine the effects of transgenic field corn (2001 & 2002) and cotton (2003 -- 2005) genotypes expressing Bt proteins Cry1Ab/Ac & Cry2Ab, both singly and pyramided, on the development and survival of H. zea. Effects were documented by quantifying larval, pupal, and adult populations for each Bt crop genotype and a conventional sister genotype over time in eastern North Carolina. Each year all Bt field corn genotypes significantly reduced larval populations and production of pupae and adults below that of the non-Bt genotype with the pyramided Bt genotype significantly reducing these populations below each single toxin Bt genotype. Additionally, larval growth rate, pupal weight, and pupal length were reduced and adult eclosion date delayed by Bt field corn genotypes. Adverse weather conditions resulted in no useful data collected from cotton in 2003 & 2004, thus all cotton data reported are from two locations in 2005. All three Bt cotton genotypes significantly reduced the percentage of terminal regions and bolls containing live heliothine larvae and feeding damage compared to the non-Bt genotype with no significant differences a.
Author: Satya Ravikanth Vemula Publisher: ISBN: Category : Genetic polymorphisms Languages : en Pages :
Book Description
Helicoverpa zea, commonly referred to as corn earworm, has been a major pest of corn and cotton, along with many major crops grown in United States. Migration of this pest plays a major role in its distribution and successful survival. Part of the current resistance management strategy for transgenic crops, using non-Bt crops as refuges, is totally based on the movement of the adult populations between the Bt and non-Bt fields, and successful exchange of genetic material between the rare resistant and susceptible populations. To study the movement and migration patterns, and their implications in resistance management, suitable molecular genetic markers were comparatively selected, followed by a study of temporal variations in populations from north Mississippi. The dominant marker system Inter Simple Sequence Repeats (ISSR) was selected for the study based on higher polymorphism (5.0) and PIC (0.34) values compared to Simple Sequence Repeats (SSR) and Sequence Related Amplification Polymorphism (SRAP) marker systems. 53 ISSR loci were used in understanding the temporal variations in H. zea. Percent polymorphism and heterozygosity levels showed variation among the twelve collections tested. Early spring putative migrants were distinct from the rest of the generations. Population differentiation was higher in the beginning of the season and then declined by end of the season (pairwise FST = 0.341, early in March and 0.025, late in August). Average heterozygosity levels recorded were 0.11, coinciding with 1993 and 2002 data. The result of this study supports the existence of spring migration of adults and their contribution to the local gene pool. The extent of genetic exchange between the putative migrants and the local populations varied among three years. There is variation in population densities from migrants and local emergence in one of the three years. The results of this study indicate a need for continuous monitoring for genetic changes and their possible implications for resistance management in transgenic crops in Mississippi.
Author: Daniel Lucas Olmstead
Author: Daniel Lucas Olmstead
Author: Roger I. Vargas
Author: Peter A. Edde
Author: Gagandeep Kaur
Author: Michael Paul Seagraves
Author: Emma Dian Connery
Author: Richard Neel Arnold
Author: 
Author: United States. Entomology Research Division
Author: Satya Ravikanth Vemula