Pulverização eletrostática e assistência de ar no tratamento fitossanitário na cultura do algodoeiro

Serra, Marina Elisei [UNESP]

19 December 2011

Made available in DSpace on 2014-06-11T19:34:59Z (GMT). No. of bitstreams: 0 Previous issue date: 2011-12-19Bitstream added on 2014-06-13T19:44:45Z : No. of bitstreams: 1 serra_me_dr_botfca.pdf: 858146 bytes, checksum: 84a2ab1f09b242594389dd1466b66b56 (MD5) / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / O controle químico de pragas e doenças é uma prática imprescindível no manejo fitossanitário do algodoeiro para a redução das perdas de produtividade. Com o intuito de promover o uso racional dos produtos fitossanitários nessa cultura, esse trabalho teve por objetivo comparar três tecnologias de pulverização: assistida por ar, assistida por ar associada a gotas com carga elétrica e convencional (sem ar e carga elétrica) combinadas aos volumes de 50 e 100L.ha-1, sobre a deposição e cobertura da pulverização, controle de insetos pragas e doenças e produtividade da cultura do algodão. Os experimentos foram conduzidos no delineamento de blocos ao acaso com seis tratamentos e quatro repetições para avaliação da deposição, cobertura e controle de pragas e doenças. As pulverizações foram realizadas em dois estádios de desenvolvimento das plantas conduzidas nos espaçamentos de 0,45 m e 0,90 m entre linhas de semeadura da cultura. Para isso, utilizou-se um pulverizador autopropelido equipado com pontas de pulverização de jato cônico vazio, JA-1 (50L.ha-1) e JA-2 (100L.ha-1) na pressão de 828 kPa. Foi avaliado o efeito das respectivas tecnologias no controle de Pseudoplusia includens, Bemisia tabaci, Aphis gossypii, Spodoptera spp. e Thrips spp. e da doença fúngica Ramularia areola durante todo o ciclo de desenvolvimento da cultura, bem como a produtividade do algodoeiro no sistema de cultivo convencional. As dimensões das parcelas foram 24 m de largura x 100 m de comprimento em ambos os sistemas de semeadura, para os ensaios de deposição e cobertura. Para avaliação da deposição e cobertura foram escolhidas, ao acaso, 10 plantas e, de cada uma delas removida uma folha do ápice e outra folha da base da planta / Chemical control has been an essential practice on the pest management of cotton crop to reduce productivity losses. In order to promote rational use of pesticides, this work was aimed to compare three spray technologies: air-assisted, assisted by air associated with electrically charged droplets and conventional spraying (without air and electric charge) combined with volume rates of 50 and 100L.ha-1, on spray deposition, coverage and in the effect of control insect pests and disease. The trials were conducted in a randomized blocks design with six treatments and four replications for evaluation of the deposition, coverage and effect on pests and disease. The spraying was carried out on two growth stages of plants conducted in spacing of 0.45 m and 0.90 m between plant rows of culture. For this, were used a self-propelled sprayer equipped with spray nozzles hollow cone, JA-1 (50L.ha-1) and JA-2 (100L.ha-1) at 828 kPa of work pressure. The effect of these technologies was evaluated on controlling of Pseudoplusia includens, Bemisia tabaci, Aphis gossypii, Spodoptera spp. and Thrips spp. and a fungal disease Ramularia areola all the development cycle of the culture as well as the yield in conventional tillage. The dimensions of the plots were 24 m wide x 100 m length in both sowing systems for deposition and coverage tests. To evaluate the deposition and coverage were selected at random 10 plants and, of each one removed one leaf from the apex and another leaf of the lower part of plant. The tracer dye Brilliant Blue FD & C No. 1 (0.3%), fluorescent pigment ColorLight (0.15%) and Lignosulfonate Vixilperse (0.015%) were the tracer mixture. In experiments in which we evaluated the effect of the treatments on controlling pests and disease, were installed plots of 24 m wide x 250 m length and then weekly samplings were carried out as required spraying

Algodão - Doenças e pragas

Pulverização

Cotton crop - Pest management

3D ecosystem modeling of aeration and fumigation in Australian grain silos to improve efficacy against insects

Plumier, Benjamin Mark

January 1900

Doctor of Philosophy / Department of Grain Science and Industry / X. Susan Sun / With continued population growth, more food production will be required with lower resource inputs. A significant drain on resources is post-harvest loss due to insects, which results in loss of product, quality and market access, and increased grain spoilage. Aeration and fumigation are key tools to control insect growth in stored grains and grain foods. The implementation of aeration strategies in Australia is made difficult by the warm subtropical climate, meanwhile the success of fumigation is being threatened by the spread of insect resistance to the fumigant phosphine. This dissertation project seeks to improve the understanding of aeration and fumigation by modifying the Maier-Lawrence (M-L) 3D ecosystem model by adding insect growth equations and quantifying fumigant loss from sealed bulk grain silos. The improved model was used to examine aeration under Australian conditions, validate its capability to accurately describe fumigant concentrations during silo fumigation, determine the extent to which fumigations are influenced by operational variables and environmental conditions, and validate its capability to describe fumigant concentrations post-fumigation in order to investigate the time needed to clear a grain storage silo of fumigant in order to assure worker safety. Six aeration strategies were evaluated under Australian conditions. Of these strategies, two were found to be effective in lowering temperatures, i.e., fans were turned on when ambient temperature was less than 20oC, and less than internal grain temperature. The strategy based on temperature differential was the most effective because it cooled the interior of the grain mass with the least amount of energy (using the fewest fan run hours, and reaching 15oC an average of 11 days after than the fastest strategy). Using a 0oC temperature differential was the most effective strategy in terms of reducing insect growth. The expanded (M-L-P) model was then validated based on experimental fumigant concentrations. The model was effective in reproducing average fumigant concentrations and fumigant trends vertically through the grain mass, but was not able to reproduce lateral fumigant variations. Verifications of the model with two different periods of phosphine release (i.e., 24h and 30h) were tested. Based on a 24h phosphine release period the predicted Ct-product differed from the experimental value by 0.9%. A 30h release period predicted a Ct-product that differed by 4.3% from the experimental value but it was more accurate during the times of highest concentration. Increases in leakage reduced fumigant concentrations, but the size of the effect decreased as leakage grew. Increasing temperature and wind speed in the model led to decreased phosphine concentrations, with temperature changes having a more significant impact overall than wind speed changes for the conditions investigated. Decreasing silo surface area to volume ratio dampened the impact of changing weather conditions on phosphine concentrations. A fumigant venting experiment was conducted in a silo at Lake Grace, Australia, to investigate full scale desorption. Two equations estimating fumigant desorption were tested, with an average of 65.5% and -86.3% error. The length of venting periods was simulated to quantify hours needed to mitigate hazardous conditions. For the scenarios investigated 10 to 24 h of venting were needed to reduce residual fumigant concentration below 0.3 ppm depending on simulation assumptions.

Population dynamics, mortality factors, and pest status of alfalfa weevil in Virginia

Kuhar, Thomas P.

22 February 2000

The alfalfa weevil, Hypera postica (Gyllenhal) (Coleoptera: Curculionidae), remains a serious pest in Virginia despite being under complete biological control in the northeastern U.S. In 1996, a survey of 187 alfalfa fields in Virginia was initiated to determine the current pest status of alfalfa weevil and incidence of natural enemies. Fields located in the Piedmont region of the state had significantly higher alfalfa weevil pressure than those in the Shenandoah Valley and southwestern region. The dominant natural enemy of alfalfa weevil larvae was the parasitoid, Bathyplectes anurus (Thomson). Larval parasitization was lower in the Piedmont compared with the other regions. The entomopathogenic fungus, Zoophthora phytonomi, also killed weevil larvae in all regions. A more intensive ecological investigation of alfalfa weevil population dynamics and mortality was initiated in 1997 to determine why H. postica remains a pest in Virginia, particularly in the Piedmont region. Nine alfalfa weevil populations from three geographic locations were sampled and measured over a period of two years. Results showed that warmer winter temperatures in the Piedmont region contributed to a higher rate of alfalfa weevil oviposition compared with the Shenandoah Valley and southwestern mountains. Parasitization of adult weevils by Microctonus aethiopoides (Loan) was low in all regions of Virginia relative to rates reported in the northeastern U.S. This also contributes to relatively high alfalfa weevil fecundity in Virginia because a greater percentage of adults reproduce. Phenological asynchrony between M. aethiopoides and the alfalfa weevil may explain the low parasitism. The 1st generation of M. aethiopoides adults did not emerge until most of the overwintering alfalfa weevil adults had reproduced and died. A majority of alfalfa weevil eggs were laid before January at all locations in Virginia. Approximately half of the egg population survived to contribute to spring larval infestations. In the northern U.S., very few alfalfa weevil eggs survive the winter, and larval populations result primarily from spring-laid eggs. Mortality of larvae was high in Virginia and comparable to that reported in other states. Bathyplectes anurus was well-synchronized with alfalfa weevil and killed a high percentage of larvae. / Ph. D.

population ecology

biological control

pest management

alfalfa

Hypera postica

parasitoids

A Bio-Economic Model of Long-Run Striga Control with an Application to Subsistence Farming in Mali

Mullen, Jeffrey D.

08 October 1999

The parasitic weeds belonging to the genus Striga are among the world's most tenacious, prolific and destructive agricultural pests. Crop loss estimates due to Striga infestations can reach 100 percent. Furthermore, the weeds' affinity for low-fertility soils and low rainfall means that those farming the most marginal lands are most severely affected. Nonetheless, subsistence farmer have yet to adopt seemingly beneficial control practices to any appreciable degree. This paper develops a bio-economic model capable of identifying: (1) affordable, effective Striga control practices consistent with the resource constraints of subsistence farmers; and (2) barriers to the adoption of those practices. The model is comprised of two components: a biological component modeling Striga population dynamics, and an economic component representing the production opportunity set, resource constraints, and price parameters farmers face. The model is applied to two zones in Northwestern Mali, Sirakorola and Mourdiah, and solved using non-linear, dynamic programming. Data collected by the USAID IPM-CRSP/Mali project are used to specify the economic parameters of the model. A new technique for estimating the lower bound of a farmer's production planning horizon is also developed and employed in the application of the model to Sirakorola and Mourdiah. The results of several model scenarios indicate that the availability of information regarding the efficacy of Striga control practices is a primary barrier to their adoption by subsistence farmers. The movement of Striga seed between fields, however, is of limited importance. The "optimal control practices" identified by the model depend on the size and demographic composition of the production unit (UP), the zone in which the UP is located, and the cash budget available to the UP. At low budget levels, the model suggests planting millet without fertilizer at a high density in Sirakorola and a low density in Mourdiah. At high budget levels, the model suggests planting millet at a high density in both zones while applying urea. The benefits of adopting the optimal set of practices are presented in both nutritional and financial terms, and can reach as much as a ten-fold increase in the nutritional content of and financial returns to a harvest. / Ph. D.

Subsistence Farming

Striga

Integrated Pest Management

Mali

Dynamic Programming

Developing an integrated pest management program for edamame in Virginia

Sutton, Kemper Lewis

23 January 2023

Edamame (Glycine max (L.) Merr.), also known as vegetable soybean, is primarily grown and consumed in Asia. In recent years, the demand for edamame in the United States has risen due to its health benefits as an alternative, plant-based protein. Due to the lack of domestic production, most edamame is imported from Asia. In an attempt to increase domestic production, research efforts have begun in Virginia and other regions to develop cultivars and best management practices for growing edamame in the mid-Atlantic region. Beginning in 2018, edamame trials examining breeding lines and cultivars were conducted to look at their suitability for this region. These varieties were sampled and evaluated for insect and disease complexes as well as their implications on plant yield and quality. Most of the insects and diseases that were found were very similar to pest complexes commonly found in cultivated soybeans in Virginia. However, due to edamame being marketed as a vegetable, insects and diseases that caused unsightly blemishes or damage to the pods or seeds were most concerning. Multiple insects and diseases were present but some of the most important insects and diseases we observed from 2018-2020 were pod feeding stink bug (Hemiptera: Pentatomidae), as well as the diseases like purple seed stain, Cercospora kikuchii, and bacterial pustule, Xanthomonas axonopodis pv. glycines. From 2019-2021 an integrated pest management study was conducted to determine best management practices for minimizing insecticide applications while applying them at thresholds to control key pests. In three growing seasons, I was able to determine that pesticides can be limited prior to flowering while insecticide inputs will need to be increased after flowering to protect the pods from pests, specifically stink bugs. Additionally, from 2019-2021 insecticide and fungicide field trials were conducted to test different pesticides on their efficacy against pod damaging pests and diseases. The growing seasons between 2019 and 2021 resulted in varying insect and disease pressure that led to inconsistent results. However, insecticides such as cyclaniliprole and sulfoxaflor performed well compared to other treatments. Lastly in 2020-2021, corn earworm (Helicoverpa zea [Boddie], Lepidoptera: Noctuidae), an important soybean pest and most likely a major pest of edamame, was tested for pyrethroid susceptibility and resistance across the state using a bean-dip bioassay. Pyrethroid efficacy to control this pest across Virginia seemed to vary by location and year, however, the bean-dip bioassay proved to be a time-efficient strategy for further monitoring these populations in the coming years. / Doctor of Philosophy / Edamame, also known as vegetable soybean, is primarily grown and consumed in Asia. Due to the lack of domestic production, most edamame is imported from overseas. Edamame trials were conducted in Virginia beginning in 2018, to look at production practices suitable for growing this crop in the region. Scientists observed edamame to document insect and disease complexes as well as their implications on yield and quality. Most of the insects and diseases that were found were very similar to what is known to already occur in soybeans. However, due to edamame being marketed as a vegetable, insects and diseases that left blemishes or damage to the pod were most concerning. Multiple insects and disease were present but some of the most important insects and diseases we observed were pod feeding stink bug species as well as the diseases purple seed stain and bacterial pustule. In 2019-2021 a pest management study was conducted to determine best management practices for minimizing insecticide applications while applying them at thresholds to control key pests. We were able to determine that pesticide usage can be limited prior to flowering while they will need to be increased after flowering to protect the pods. Additionally, in 2019-2021 insecticide and fungicide field trials were conducted to determine the efficacy of materials against pod damaging pests and diseases. The growing seasons between 2019 and 2021 resulted in varying insect and disease pressure, however, several insecticides with reduced ecological impacts out preformed others. Lastly in 2020-2021, corn earworm, a major pest of soybean and presumable of edamame, was tested for pyrethroid susceptibility and resistance across the state using a bean-dip bioassay. Pyrethroid efficacy across Virginia seemed to vary by location and year but the bean dip bioassay method proved to be a time-effective strategy for monitoring the states corn earworm populations against insecticides.

edamame

pest management

pesticide

stink bug

corn earworm

Protocols for the Assessment of Economic and Environmental Effects of Integrated Pest Management Programs

Beddow, Jason Michael

04 October 2000

State Integrated Pest Management (IPM) programs are often called on to demonstrate their impacts. While many studies demonstrate techniques for assessing various economic and environmental effects of IPM, the literature provides little guidance on incorporating the techniques to perform complete assessments of IPM programs. This thesis begins with a discussion of relevant economic and environmental techniques for IPM impact assessment. Next, impact assessment techniques that are widely accepted and analytically feasible are identified. These techniques are incorporated into comprehensive impact assessment frameworks for use by individuals charged with the assessment of state level IPM programs. The study concludes with case studies which show how the assessment protocols were applied to estimate and describe the impacts of the Pennsylvania and Massachusetts sweet corn IPM programs. / Master of Science

IPM

economic impacts

environmental impacts

integrated pest management

Gender and Pest Management in the Ecuadorian Andes

Byrne, Megan LeAnna

13 April 2011

This research was conducted to assess the intersection of gender and pesticide knowledge to identify gendered dynamics that may prove important to consider when implementing an Integrated Pest Management (IPM) program. Key findings include knowledge being associated with task undertaken, not necessarily the gender of a person. Often, due to social conceptions of appropriate gender roles, similar knowledge may be associated with a certain gender because they are engaging in similar tasks, but it is not their sex or gender that inherently gives them such knowledge. Therefore, knowledge generally associated with women can be associated with men if they are engaging in similar work. Additionally, triangulation of data through using various research methodologies, and interdisciplinary research are imperative for developing comprehensive research or development programs. Finally, even people who are concerned with the negative human and environmental health effects of pesticides may not be using them in a cautious manner. Outside factors such as market sale, education and income level must be taken into account when assessing why pesticides are used and the best methods to introduce an alternative pest control method, such as IPM. / Master of Public and International Affairs

Ecuador

Gender

Gendered knowledge

pest management

reproductive v. productive

Gender and Pest Management in Ghana: Implications for the Introduction of an IPM Program for Tomato

Zseleczky, Laura

07 May 2012

The purpose of this research is to identify gender-based constraints and opportunities to the introduction of an Integrated Pest Management (IPM) program for tomato crops based on a case study of tomato farmers in the town of Tuobodom in the Brong Ahafo region of Ghana. The study seeks to identify the knowledge, practices, perceptions, and access to resources of men and women tomato farmers in Tuobodom, specifically with respect to pesticides and pest management. A mixed methods approach combined quantitative and qualitative methodologies including focus group discussions, household interviews, participatory mapping, field visits, key informant interviews, participant observation, and a survey. Key findings in the areas of health and safety, markets and the tomato value chain, and information and training reveal general and gender-specific issues that an IPM program should address when working with farmers to develop an effective and sustainable IPM package for tomato in this area. The results of this study also demonstrate the importance of gender analysis in identifying context-specific gender issues. For example, while this study confirmed that men's roles in tomato production place them at higher risk of exposure to pesticides, results challenge the assumption that women's reproductive roles (e.g., food preparation, caring for the sick, and washing clothes) make them more aware of the risks of pesticides. / Master of Public and International Affairs

Gender

Ghana

Integrated Pest Management

international development

tomato

Bed Bug Management in Low-Income, Multi-Unit Housing: An Evaluation of Resident Education and Cost-Effective, Minimally Toxic Suppression Methods

Stedfast, Molly Logan

10 June 2014

In the United States, we have been battling the bed bug (Cimex lectularius L.) resurgence for over ten years. Current treatment methods are labor intensive, time consuming, and very expensive. Many studies have evaluated the efficacy of treatment methods, but few have focused on bed bug suppression in multi-unit housing. Low income, multi-unit housing residents lack basic bed bug knowledge and are particulary vulnerable to bed bug infestations because they are unable to afford conventional treatment. In this study, diatomaceous earth (D.E.), an inexpensive desiccant dust labeled for bed bug control, was evaluated for its efficacy in killing bed bugs, and determined to be successful. A proactive bed bug suppression program that included D.E. was implemented in a low-income housing facility in Harrisonburg, VA. The program consisted of inexpensive, low toxicity, integrated bed bug management methods, including a novel strategy for applying a perimeter barrier of D.E. in apartment units (n = 121). Over the course of one year, both the number of initial infestations and the costs associated with bed bug treatments were reduced. Low-income, multi-unit housing residents (n = 479) from three cities (Harrisonburg and Richmond, VA; New Orleans, LA) were surveyed before and after an educational seminar to assess their bed bug. After attending the seminar, residents (n = 112) significantly improved (P < 0.0001) their bed bug knowledge, and were able to correctly answer more bed bug-related questions than they had before the educational seminar. / Master of Science in Life Sciences

bed bugs

integrated pest management

diatomaceous earth

apartments

Analyzing the Impacts of an IPM Vegetable Technology Transfer in Bangladesh

McCarthy, Evan Tyler

09 September 2015

This study evaluates the effectiveness and impacts of USAID's IPM IL vegetable technology transfer subproject in Bangladesh. The effectiveness of the technology transfer is evaluated in four ways: IPM adoption rates and determinants of IPM adoption, measuring the impact of IPM adoption on vegetable yields, pest management costs, and the number of pesticide applications used, estimation of the economic impacts of IPM adoption and the technology transfer, and analysis of the relative efficiency of the various technology transfer methods used to transfer the IPM practices to farmers. Adoption determinants were identified using traditional and ordered probit regression analysis. Difference-in-difference models were used to identify the impacts of IPM adoption on yields, pest management costs, and the number of pesticide applications applied. Economic impacts of IPM technology adoption were measured using economic surplus analysis. Finally, to compare the relative efficiency of different technology transfer methods, adoption rates were identified for each transfer method and combined with the training cost per farmer to identify the cost per farmer adopting IPM practices. The results from the adoption analysis suggest the number of years of agricultural experience of the household head, the number of IPM adopters known by the household, and learning agricultural information from media sources and/or farm training events such as field days significantly increase the likelihood of IPM adoption. The impacts of IPM adoption on vegetable yields, pest management costs, and the number of pesticide applications were non-significant for vegetable crops. Analysis of the cost efficiency of the different IPM technology transfer methods suggests that media sources such as television, radio, and newspapers have the lowest cost per farmer. / Master of Science

Bangladesh

Integrated Pest Management (IPM)

vegetable

technology adoption