Relevant bibliographies by topics / Corn – Diseases and pests – Control

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Corn – Diseases and pests – Control'

Author: Grafiati
Published: 4 June 2021
Last updated: 16 February 2022

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Journal articles on the topic "Corn – Diseases and pests – Control"

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Seamark, Robert F. "Biotech prospects for the control of introduced mammals in Australia." Reproduction, Fertility and Development 13, no. 8 (2001): 705. http://dx.doi.org/10.1071/rd01073.

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More than twenty exotic vertebrate species are now listed as pests in Australia. Collectively, these pests have a huge economic and environmental impact and pose a major threat to Australia’s ecosystems and unique biodiversity. Management of such pests on a continental scale is a major challenge. Recent advances in biotechnology suggest alternatives to the lethal diseases normally sought for use as biological control agents. One proposal, being investigated in the Pest Animal Control Cooperative Research Centre, Canberra, is the use of biotechnology to develop a new generation of agents that act through controlling reproduction to prevent the build up of pest populations. The core concept is fertility control through immunocontraceptive vaccines delivered by viruses that specifically infect the target pest population. Proof of this exciting concept has been obtained for the mouse and, very recently, the rabbit, and a candidate vaccine vector identified for the fox, portending better control of a trio of Australia’s most pervasive pests. Other advances in biotechnology suggest ways to negate the build up of both innate and acquired immune resistance in target pest populations that normally act to limit the efficacy and effective life of biocontrol agents in the field. Prospects for extending the use of virally vectored vaccines to the field management of wildlife diseases are also identified. Targets for such vaccines include a growing suite of emerging diseases, hosted by Australia’s wildlife, which pose a threat to human and livestock health. Numerous technical challenges remain to be addressed before any of these new agents are ready for use in the field. However, the major risk to their development is now no longer viewed as being technical, but the failure to gain public acceptance for their use in the field. This already significant risk is exasperated by the present heightened level of public concern about all introductions of genetically modified organisms.
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Ko, Alexander E. "Urban Entomology Highlights From 2020—Monitoring and Control of Urban Pests." Journal of Medical Entomology 58, no. 5 (August 3, 2021): 2012–15. http://dx.doi.org/10.1093/jme/tjab119.

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Abstract Pest management professionals aim to answer two primary questions for their customers: 1) ‘Where/What is the pest?’ and 2) ‘How do I kill it?’. These two questions drive at the core of any pest management program. 2020 was an exciting year for entomology research, with much work being done on novel technologies and methods for detecting and controlling pests. The objectives of the current publication were to discuss papers published in 2020 that addressed the key pest management objectives of 1) monitoring and 2) controlling pest populations.
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Whalen, Joann K., Shiv O. Prasher, and Hicham Benslim. "Monitoring corn and soybean agroecosystems after establishing no-tillage practices in Québec, Canada." Canadian Journal of Plant Science 87, no. 4 (October 1, 2007): 841–49. http://dx.doi.org/10.4141/cjps06023.

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The conversion to no-tillage (NT) may seem risky to some producers who rely on tillage to control weeds, some insect pests and disease-causing pathogens that can reduce crop yield. Weeds, arthropods, and disease incidence were monitored in silage corn (Zea mays L.) and soybean (Glycine max L. Merr.) agroecosystems with CT and newly established NT plots in Ste-Anne-de-Bellevue, Québec. During the first 2 establishment years, there were more annual grass and fewer annual broadleaf weeds in NT than in CT plots, but the surface area covered by weeds (broadleaf,grasses and perennials) was greater in CT than NT plots. Foliar arthropods were more numerous in soybean than corn plots in both years, but were unaffected by tillage. There were more ground-dwelling generalist predators, especially Coleoptera and Carabidae, in CT than NT plots, while spiders and harvestmen (Araneae and Opiliones) were dominant in NT plots. Crop damage from insect pests and diseases was below economic thresholds, but 5 yr of yield monitoring (2000–2004) revealed a trend of greater silage corn and soybean yields in CT than NT plots. The reduction in crop yield after establishing NT practices at this site was probably due to rooting constraints from inadequate seedbed preparation in the NT system, rather than from weed competition, insect damage or crop diseases. Key words: Arthropods, crop disease, silage corn, soybean, tillage, weed control
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Gu, Yili, Zhiqiang Li, Zhen Zhang, Jun Li, and Liqing Chen. "Path Tracking Control of Field Information-Collecting Robot Based on Improved Convolutional Neural Network Algorithm." Sensors 20, no. 3 (January 31, 2020): 797. http://dx.doi.org/10.3390/s20030797.

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Due to the narrow row spacing of corn, the lack of light in the field caused by the blocking of branches, leaves and weeds in the middle and late stages of corn growth, it is generally difficult for machinery to move between rows and also impossible to observe the corn growth in real time. To solve the problem, a robot for corn interlines information collection thus is designed. First, the mathematical model of the robot is established using the designed control system. Second, an improved convolutional neural network model is proposed for training and learning, and the driving path is fitted by detecting and identifying corn rhizomes. Next, a multi-body dynamics simulation software, RecurDyn/track, is used to establish a dynamic model of the robot movement in soft soil conditions, and a control system is developed in MATLAB/SIMULINK for joint simulation experiments. Simulation results show that the method for controlling a sliding-mode variable structure can achieve better control results. Finally, experiments on the ground and in a simulated field environment show that the robot for field information collection based on the method developed runs stably and shows little deviation. The robot can be well applied for field plant protection, the control of corn diseases and insect pests, and the realization of human–machine separation.
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Windasari, Lily, Meitini Wahyuni Proborini, and Made Ria Defiani. "BIOKONTROL ENDOMIKORIZA TERHADAP JAMUR Curvularia sp. PENYEBAB PENYAKIT TANAMAN JAGUNG (Zea mays L.)." SIMBIOSIS 7, no. 2 (September 30, 2019): 28. http://dx.doi.org/10.24843/jsimbiosis.2019.v07.i02.p03.

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In Indonesia, production of corn are used for fodder (55%), food (30%), and seed (15%). The growth of corn plants is limited by the presence of pests, weeds, and plant diseases. Curvularia sp. causing leaf spot and could decrease corn production. Use of mycorrhiza can be used as a biological agent in preventing pathogens outbreaks. Isolates of Curvularia sp. fungal was sprayed on corn seed. This research was conducted in laboratorium and green house. Corn seedlings were grown on sterile soil media (control), mycorrhizal treatments (100g of mycorrhizal + Curvularia sp., 200g of mycorrhizal + Curvularia sp., 300g of mycorrhizal + Curvularia sp.) and Curvularia sp. The observed variables were plant height, number of leaves, rate of disease progression, fresh weight and dry weight of plant canopy. The results showed that application of 100g inoculum tend to increase plant growth to 26-27% and percentage of mycorrhizal colonization to 58,66% thereof can decrease pathogen infection on plant at 28 day after planting.
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Jones, Tara-kay L., and Raul F. Medina. "Corn Stunt Disease: An Ideal Insect–Microbial–Plant Pathosystem for Comprehensive Studies of Vector-Borne Plant Diseases of Corn." Plants 9, no. 6 (June 14, 2020): 747. http://dx.doi.org/10.3390/plants9060747.

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Over 700 plant diseases identified as vector-borne negatively impact plant health and food security globally. The pest control of vector-borne diseases in agricultural settings is in urgent need of more effective tools. Ongoing research in genetics, molecular biology, physiology, and vector behavior has begun to unravel new insights into the transmission of phytopathogens by their insect vectors. However, the intricate mechanisms involved in phytopathogen transmission for certain pathosystems warrant further investigation. In this review, we propose the corn stunt pathosystem (Zea mays–Spiroplasma kunkelii–Dalbulus maidis) as an ideal model for dissecting the molecular determinants and mechanisms underpinning the persistent transmission of a mollicute by its specialist insect vector to an economically important monocotyledonous crop. Corn stunt is the most important disease of corn in the Americas and the Caribbean, where it causes the severe stunting of corn plants and can result in up to 100% yield loss. A comprehensive study of the corn stunt disease system will pave the way for the discovery of novel molecular targets for genetic pest control targeting either the insect vector or the phytopathogen.
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Vitanza, Salvador, Celeste Welty, Mark Bennett, Sally Miller, and Richard Derksen. "(27) Effect of Plant Stand Density and Pesticide Application Technology on Insect Pests and Diseases of Bell Peppers." HortScience 41, no. 4 (July 2006): 1075B—1075. http://dx.doi.org/10.21273/hortsci.41.4.1075b.

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The impact of pesticide application technology and crop stand density on bell pepper production was evaluated in a series of field trials, during 2004 and 2005, at the North Central Agricultural Research Station, Fremont, Ohio. In 2004, one trial tested three sprayers, at a speed of 8 and 4 mph, using insecticides at half the recommended rate and one treatment at full rate. Sprayers evaluated included an air-assisted electrostatic sprayer, a Cagle sprayer equipped with AI-11005 or AI-110025 nozzles, and an air-blast sprayer with XR-1003-VS or XR-110015-VS nozzles. In 2005, one experiment tested the interaction of two application technologies, three planting distances within row, and single vs. twin rows. Another experiment compared the Cagle sprayer (with TJ60-11003 or AI-110025 nozzles) and the airblast sprayer (with XR-110015-VS nozzles), at a speed of 4 mph, and insecticides at half the recommended rate. In 2004, the Cagle sprayer with air-induction nozzle, half rate, at 8 mph obtained the highest fruit yield. There was not significant improvement in European corn borer control by applying insecticides at full rate with the Cagle sprayer and all treatments achieved significantly better bacterial soft rot control than the untreated control. In 2005, the trials were terminated early due to crop destruction by Phytophthora capsici. Red fruit weighed less at high than at medium or low plant stand densities. Clean yield of red fruit was significantly greater in single rows than in twin rows. Marketable yield of green fruit was greater using the TJ60-11003 than using the AI-110025 nozzles.
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Farias-Larios, J., and A. Michel-Rosales. "Sustainable Production of Honeydew and Muskmelon in Western Mexico." HortScience 33, no. 3 (June 1998): 495d—495. http://dx.doi.org/10.21273/hortsci.33.3.495d.

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In Western Mexico, melon production depends on high-input systems to maximize yield and product quality. Tillage, plasticulture, fumigation with methyl bromide, and fertigation, are the principal management practices in these systems. However, at present several problems has been found: pests as sweetpotato whitefly (Bemisia tabaci Gennadius), aphids (Myzus and Aphis), leafminer (Liryomiza sativae); diseases as Fusarium, Verticilium, and Pseudoperenospora, and weeds demand high pesticide utilization and labor. There is a growing demand for alternative cultural practices, with an emphasis on reducing off-farm input labor and chemicals. Our research is based on use of organic mulches, such as: rice straw, mature maize leaves, banana leaves, sugarcane bagasse, coconut leaves, and living mulches with annual legume cover crop in melons with crop rotation, such as: Canavalia, Stilozobium, Crotalaria, and Clitoria species. Also, inoculations with mycorrhizal arbuscular fungi for honeydew and cantaloupe melon seedlings production are been assayed in greenhouse conditions for a transplant system. The use of life barriers with sorghum, marigold, and other aromatic native plants in conjunction with a colored yellow systems traps for monitoring pests is being studied as well. While that the pest control is based in commercial formulations of Beauveria bassiana for biological control. The first results of this research show that the Glomus intraradices, G. fasciculatum, G. etunicatum, and G. mosseae reached 38.5%, 33.5%, 27.0%, and 31.0% of root infection levels, respectively. Honeydew melons production with rice and corn straw mulches shows an beneficial effect with 113.30 and 111.20 kg/plot of 10 m2 compared with bare soil with 100.20 kg. The proposed system likely also lowers production cost and is applicable to small- and large-scale melon production.
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Johnson, W. Carroll, Albert K. Culbreath, and Xuelin Luo. "Interactive Effects of Cultivation, Insect Control, and Fungal Disease Control in Organic Peanut Production." Peanut Science 45, no. 1 (January 1, 2018): 38–44. http://dx.doi.org/10.3146/ps17-14.1.

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ABSTRACT During previous organic peanut weed management trials, maintenance pesticides were not applied and it was observed that insect infestations and disease epidemics were not problematic. This was surprising considering that conventional peanut are routinely treated with insecticides and fungicides to control common pests. It was hypothesized that components of the organic peanut production system could be integrated into conventional peanut production to reduce inputs. Structured research trials were conducted from 2012 through 2014 to determine interactions among three levels of weed control, two levels of insect control, and three levels of fungal disease control in organic peanut production using a factorial arrangement of treatments. Weed control treatments were weed-free using handweeding, cultivation with a tine weeder repeated weekly for six weeks, and a non-cultivated (weedy) control. Insect control treatments were two early-season applications of spinosad (Organic Materials Review Institute approved) and a nontreated control. Fungal disease control treatments were applications of cupric oxide plus sulfur (Cu+S) at three-week intervals, the conventional fungicide azoxystrobin at three-week intervals, and a nontreated control. The peanut cultivar Georgia-04S was planted each year of the study. The crop rotation at the research sites was corn grown in alternating years between peanut experiments. There were no interactions among the main effects. Compared to the non-cultivated control, cultivation with a tine weeder consistently reduced weed densities, and yields were equivalent to handweeded peanut two years of three. Intensive cultivation with a tine weeder did not increase disease epidemics or reduce peanut yield, which is contradictory to long-standing peanut production recommendations. Spinosad applications did not affect any of the parameters measured, including incidence of thrips-vectored spotted wilt and peanut yield. Cupric oxide plus sulfur controlled peanut diseases equal to azoxystrobin two years out of three, but peanut yields did not consistently respond to improved disease control from the conventional fungicide. We speculate that ideal crop rotations to reduce disease inoculum and modern peanut cultivars with improved disease tolerance are also factors that allow the use of reduced pest control inputs.
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Wen, Sheng, Quanyong Zhang, Jizhong Deng, Yubin Lan, Xuanchun Yin, and Jian Shan. "Design and Experiment of a Variable Spray System for Unmanned Aerial Vehicles Based on PID and PWM Control." Applied Sciences 8, no. 12 (December 3, 2018): 2482. http://dx.doi.org/10.3390/app8122482.

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Unmanned aerial vehicle (UAV) variable-rate spraying technology, as the development direction of aviation for plant protection in the future, has been developed rapidly in recent years. In the actual agricultural production, the severity of plant diseases and insect pests varies in different locations. In order to reduce the waste of pesticides, pesticides should be applied according to the severity of pests, insects and weeds. On the basis of explaining the plant diseases and insect pests map in the target area, a pulse width modulation variable spray system is designed. Moreover, the STMicroelectronics-32 (STM32) chip is invoked as the core of the control system. The system combines with sensor technology to get the prescription value through real-time interpretation of prescription diagram in operation. Then, a pulse square wave with variable duty cycles is generated to adjust the flow rate. A closed-loop Proportional-Integral-Derivative (PID) control algorithm is used to shorten the time of system reaching steady state. The results indicate that the deviation between volume and target traffic is stable, which is within 2.16%. When the duty cycle of the square wave is within the range of 40% to 100%, the flow range of the single nozzle varies from 0.16 L/min to 0.54 L/min. Variable spray operation under different spray requirements is achieved. The outdoor tests of variable spray system show that the variable spray system can adjust the flow rapidly according to the prescription value set in the prescription map. The proportion of actual droplet deposition and deposition density in the operation unit is consistent with the prescription value, which proves the effectiveness of the designed variable spray system.
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Dissertations / Theses on the topic "Corn – Diseases and pests – Control"

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Thurston, Graham S. (Graham Stanley) 1958. "Host plant resistance and entomogenous nematodes for controlling the northern corn rootworm, Diabrotica barberi (Coleoptera: Chrysomelidae)." Thesis, McGill University, 1987. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=66175.

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Tremblay, Annie C. "The role of birds as predators and potential biocontrol agents of insect pests in corn fields." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1999. http://www.collectionscanada.ca/obj/s4/f2/dsk2/ftp03/MQ50898.pdf.

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Jackson, Tori Lee. "Alternative Controls for Helicoverpazea on Sweet Corn: Phytotoxicity and Pollination Inhibition from Direct Silk Applications." Fogler Library, University of Maine, 2004. http://www.library.umaine.edu/theses/pdf/JacksonTL2004.pdf.

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Skenjana, Nolitha Leonora. "Identification and documentation of ethnobiological methods used by rural farmers to control stalk borers on maize in the Eastern Cape Province of South Africa." Thesis, University of Fort Hare, 2015. http://hdl.handle.net/10353/d1019852.

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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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Odeyemi, Oluwakemi Oluwaseyi. "Studies on the use of essential oils for the control of Sitophilus Zeamais (Motschulsky) (Coleoptera; Curculionidae): a pest of stored maize grains." Thesis, University of Fort Hare, 2008. http://hdl.handle.net/10353/168.

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The common maize weevil, Sitophilus zeamais Motschulsky (Coleoptera: Curculionidae), a well known pest of stored-maize grain in most parts of the world, was identified as one of the major constraints of harvested maize grains in the Eastern Cape Province, South Africa. The use of plants or their products is one of the recent methods being investigated for insect pest control worldwide. Therefore, the main aim of the present study was to identify available plants in the Eastern Cape that could be used to combat the problem of Sitophilus zeamais in stored-maize grains. For the realization of the aims of this research, the following studies were carried out; a preliminary survey was conducted to obtain baseline information on the farmers’ knowledge and experience of indigenous insect pest control methods in the Eastern Cape. Also, studies on the insecticidal potential of the essential oils of some plants were investigated against the maize weevil. The quality parameters of maize grains treated with the essential oils was also studied and, using a rat model, the toxicity of the essential oils was investigated. The outcome from this study revealed that there is awareness amongst the farmers in the Eastern Cape on the use of plants or their products to control insect pests. Unfortunately, such methods are currently being neglected and the knowledge of their application was found to be eroding. Among the various essential oils screened were those from Mentha longifolia L. and Tagetes minuta L. which evoked an appreciable level of contact, fumigant and repellent toxicity on the maize weevil. Further work done to determine the effects of the oils on maize stored over a period of three months revealed that the two oils had no adverse effect on the proximate compositions and some quality parameters of the stored maize. However, the toxicological study conducted on rats showed that the oils at tested concentrations exhibited some level of toxicity. It is, therefore, suggested that the essential oils of M. longifolia and T. minuta should not be used to treat maize grains intended for human consumption.
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Clark, M. Sean. "Generalist predators in reduced-tillage corn : predation on armyworm, habitat preferences, and a method to estimate absolute densities /." Thesis, This resource online, 1993. http://scholar.lib.vt.edu/theses/available/etd-11102009-020213/.

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Bujold, Isabelle. "The use of a fungal antagonist to reduce the initial inoculum of Gibberella zeae on wheat and corn debris /." Thesis, McGill University, 2000. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=31199.

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Gibberella zeae (anamorph: Fusarium graminearum) is the causal agent of fusarium head blight (FHB) and maize ear rot, two major diseases of wheat and corn in Eastern Canada.
In Quebec, Microsphaeropsis sp., an antagonist of Venturia inaequalis, the causal agent of apple scab, was isolated from the apple leaf litter. This fungus, well adapted to Quebec climate, can reduce the initial inoculum of V. inaequalis. FHB and Gibberella ear rot are similar to apple scab because the major inoculum source comes from melanized structures produced on crop residues. Consequently, we evaluated the potential of Microsphaeropsis sp. (isolate P130A) to inhibit ascospore production of G. zeae when applied to crop residues as post harvest or pre-planting applications. Under in vitro conditions, the antagonist significantly reduced ascospore production on wheat and corn residues, when applied prior to (82% and 92% respectively) or at the same time as the pathogen (36% and 58% respectively). Under field conditions, the antagonist had no effect on the pattern of perithecia maturation but significantly reduced the number of ascospores produced on two sampling dates, May 1998 and July 1999. (Abstract shortened by UMI.)
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Terry, Alan J. "Control of pests and diseases." Thesis, University of Surrey, 2009. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.505965.

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Chauhan, Ramola. "A study of filamentous viruses in maize and smallgrains." Master's thesis, University of Cape Town, 1985. http://hdl.handle.net/11427/22013.

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Bibliography: pages 175-184.
The occurrence of maize dwarf mosaic virus (MDMV) in field grown maize was investigated. For this purpose, maize showing mosiac symptoms was collected from different maize growing areas in South Africa by Prof. M.B. von Wechmar. These samples from Transvaal, Orange Free State and Natal were then investigated for the presence of MDMV and possible strains of this virus. Three virus isolates were purified and partially characterised. These isolates were serologically compared together with a fourth isolate SCMV 4975, obtained from the U.S., to establish strain relationships.
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Midgarden, David Gunder. "Spatial distribution of western corn rootworm (Diabrotica virgifera virgifera Leconte) trap counts and evaluation of a novel method for sampling soil pests of field corn." Thesis, This resource online, 1992. http://scholar.lib.vt.edu/theses/available/etd-06302009-040212/.

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Books on the topic "Corn – Diseases and pests – Control"

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Reid, Lana M. Common diseases of corn in Canada. Ottawa, Ont: Agriculture and Agri-Food Canada, 2001.

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Program, New York State Integrated Pest Management. IPM field corn pocket guide: Northeast region. Auburn, NY: IPM, 1999.

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Hoinacki, Beth. Root rot of sweet corn in western Oregon. [Corvallis, Or.]: Oregon State University Extension Service, 2004.

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Workneh, Abraham Tadesse. Studies on some non-chemical insect pest management options on farm-stored maize in Ethiopia. Giessen: Fachverlag Köhler, 2003.

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Davies, G. Brocas de milho uma contribuição para o seu estudo no planalto de Lichinga. Maputo, Moçambique: Departamento de Agricultura e Sistemas de Produção, Instituto Nacional de Investigação Agronómica, Ministério da Agricultura e Pescas, 1995.

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United States. Congress. House. Committee on Agriculture. Subcommittee on Wheat, Soybeans, and Feed Grains. Incidence of aflatoxin in the 1988 corn crop due to drought: Hearings before the Subcommittee on Wheat, Soybeans, and Feed Grains of the Committee on Agriculture, House of Representatives, One Hundred First Congress, first and second sessions, April, 4, 1989 and April 2, 1990. Washington: U.S. G.P.O., 1990.

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Food and Agriculture Organization of the United Nations., ed. Tropical maize: Improvement and production. Rome: Food and Agricultural Organization of the United Nations, 2000.

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Bürgi, Jürg. Insect-resistant maize: A case study of fighting the African stem borer. Wallingford, Oxfordshire, UK: CABI, 2009.

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Giroux, Isabelle. Contamination de l'eau par les pesticides dans les régions de culture intensive du maïs au Québec: Campagnes d'échantillonnage de 1994 et 1995. 2nd ed. Québec]: Ministère de l'environnement et de la faune, 1997.

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Bebee, Charles N. The protection of corn, September 1988-May 1992: Citations from AGRICOLA concerning diseases and other environmental considerations. Beltsville, Md: National Agricultural Library, 1992.

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Book chapters on the topic "Corn – Diseases and pests – Control"

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Vakili, N. G. "Sick pathogens make poor pests in biological control of corn diseases." In The Rhizosphere and Plant Growth, 305. Dordrecht: Springer Netherlands, 1991. http://dx.doi.org/10.1007/978-94-011-3336-4_62.

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Lewis, Leslie C., Denny J. Bruck, and Jan J. Jackson. "Microbial control of insect pests of corn." In Field Manual of Techniques in Invertebrate Pathology, 375–92. Dordrecht: Springer Netherlands, 2007. http://dx.doi.org/10.1007/978-1-4020-5933-9_17.

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Lewis, Leslie C., Denny J. Bruck, and Jan J. Jackson. "Microbial Control of Insect Pests of Corn." In Field Manual of Techniques in Invertebrate Pathology, 405–24. Dordrecht: Springer Netherlands, 2000. http://dx.doi.org/10.1007/978-94-017-1547-8_17.

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Thompson, Anthony Keith, and Ibok Oduro. "Diseases and pests." In Yams: botany, production and uses, 76–90. Wallingford: CABI, 2021. http://dx.doi.org/10.1079/9781789249279.0006.

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Abstract This chapter describes the different diseases and pests that affect yams and various methods for their control. It particularly covers the following aspects: field fungal diseases; postharvest fungal diseases; specific fungal diseases; control of fungal diseases; bacterial diseases; viral diseases; physiological disorders; insect pests; and nematode pests.
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Anderson, Mary. "Control of Pests and Diseases of Arabidopsis." In Arabidopsis Protocols, 19–26. Totowa, NJ: Humana Press, 1998. http://dx.doi.org/10.1385/0-89603-391-0:19.

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Sergeeva, Vera. "Medicinal Plants to Control Diseases and Pests." In Medicinal and Aromatic Plants of the World, 257–71. Dordrecht: Springer Netherlands, 2015. http://dx.doi.org/10.1007/978-94-017-9810-5_13.

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Huang, Ying-Kun, Wen-Feng Li, Rong-Yue Zhang, and Xiao-Yan Wang. "Integrated Control of Sugarcane Diseases and Pests." In Color Illustration of Diagnosis and Control for Modern Sugarcane Diseases, Pests, and Weeds, 361–77. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-13-1319-6_5.

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Weeks, Emma N. I., Erika T. Machtinger, Diana Leemon, and Christopher J. Geden. "12. Biological control of livestock pests: entomopathogens." In Ecology and Control of Vector-borne Diseases, 337–87. The Netherlands: Wageningen Academic Publishers, 2018. http://dx.doi.org/10.3920/978-90-8686-863-6_12.

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Sparagano, Olivier, Davide Di Domenico, Claudio Venturelli, Elias Papadopoulos, Renate C. Smallegange, and Annunziata Giangaspero. "2. Arthropod pests in the poultry industry." In Ecology and Control of Vector-borne Diseases, 17–53. The Netherlands: Wageningen Academic Publishers, 2018. http://dx.doi.org/10.3920/978-90-8686-863-6_2.

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Huang, Ying-Kun, Wen-Feng Li, Rong-Yue Zhang, and Xiao-Yan Wang. "Diagnosis and Control of Sugarcane Main Pests." In Color Illustration of Diagnosis and Control for Modern Sugarcane Diseases, Pests, and Weeds, 105–280. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-13-1319-6_2.

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Conference papers on the topic "Corn – Diseases and pests – Control"

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Nurlaeli and Subiyanto. "Forward chaining method on diagnosis of diseases and pests corn crop." In ENGINEERING INTERNATIONAL CONFERENCE (EIC) 2016: Proceedings of the 5th International Conference on Education, Concept, and Application of Green Technology. Author(s), 2017. http://dx.doi.org/10.1063/1.4976902.

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Syarif, Iwan, Dito Hafizh Indiarto, Ira Prasetyaningrum, Tessy Badriyah, and Edi Satriyanto. "Corn Pests and Diseases Prediction Using Linear Regression and Natural Spline Methods." In 2018 International Conference on Applied Science and Technology (iCAST). IEEE, 2018. http://dx.doi.org/10.1109/icast1.2018.8751583.

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Simorangkir, Gabe Dhiar, Eko Adi Sarwoko, Priyo Sidik Sasongko, Sutikno, and Sukmawati Nur Endah. "Usability Testing of Corn Diseases and Pests Detection on a Mobile Application." In 2018 2nd International Conference on Informatics and Computational Sciences (ICICoS). IEEE, 2018. http://dx.doi.org/10.1109/icicos.2018.8621842.

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Martinson, C. A. "Control of Corn Leaf Diseases." In Proceedings of the First Annual Crop Production and Protection Conference. Iowa State University, Digital Press, 1990. http://dx.doi.org/10.31274/icm-180809-332.

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Martinson, C. A. "Corn Leaf Diseases and Their Control." In Proceedings of the 1992 Crop Production and Protection Conference. Iowa State University, Digital Press, 1993. http://dx.doi.org/10.31274/icm-180809-420.

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Martinson, Charlie A., and Gary P. Munkvold. "Fungicidal Control of Leaf Diseases in Corn." In Proceedings of the 1995 Integrated Crop Management Conference. Iowa State University, Digital Press, 1995. http://dx.doi.org/10.31274/icm-180809-513.

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Yan, Lihua, and Shuqin Li. "Grape Diseases and Pests Named Entity Recognition Based on BiLSTM-CRF." In 2021 IEEE 4th Advanced Information Management, Communicates, Electronic and Automation Control Conference (IMCEC). IEEE, 2021. http://dx.doi.org/10.1109/imcec51613.2021.9482206.

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Jing, Yang, Zhan Yuzhi, Du Dan, Wang Xiao, Yang Ping, Chen Lingfang, Sun Yuefang, and Li Zetao. "An early warning system of diseases and pests for blueberry based on WSN." In 2017 36th Chinese Control Conference (CCC). IEEE, 2017. http://dx.doi.org/10.23919/chicc.2017.8028770.

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Liu, Shasha, Yubin Xu, Yong Zhao, Kejian Yuan, and Ye Tian. "Comparative Study on Identification Models of Early Cotton Pests and Diseases at Canopy Scale." In 2019 IEEE 8th Data Driven Control and Learning Systems Conference (DDCLS). IEEE, 2019. http://dx.doi.org/10.1109/ddcls.2019.8908936.

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Kusumo, Budiarianto Suryo, Ana Heryana, Oka Mahendra, and Hilman F. Pardede. "Machine Learning-based for Automatic Detection of Corn-Plant Diseases Using Image Processing." In 2018 International Conference on Computer, Control, Informatics and its Applications (IC3INA). IEEE, 2018. http://dx.doi.org/10.1109/ic3ina.2018.8629507.

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Reports on the topic "Corn – Diseases and pests – Control"

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Wise, Kiersten. Fungicide Efficacy for Control of Corn Diseases. United States: Crop Protection Netework, February 2019. http://dx.doi.org/10.31274/cpn-20190620-002.

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Munkvold, Gary P., Charlie Martinson, and John M. Shriver. Fungicidal Control of Leaf Diseases in High-Oil Hybrid Corn, 2000. Ames: Iowa State University, Digital Repository, 2001. http://dx.doi.org/10.31274/farmprogressreports-180814-242.

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Plant Protection and Quarantine: Helping U.S. Agriculture Thrive--Across the Country and Around the World, 2016 Annual Report. U.S. Department of Agriculture, Animal and Plant Health Inspection Service, March 2017. http://dx.doi.org/10.32747/2017.7207241.aphis.

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Abstract:
For Plant Protection and Quarantine (PPQ) and our partners, 2016 was a year of remarkable successes. Not only did we eradicate 10 fruit fly outbreaks, but we also achieved 4 years with zero detections of pink bollworm, moving us one step closer to eradicating this pest from all commercial cotton-growing areas of the continental United States. And when the U.S. corn industry faced the first-ever detection of bacterial leaf streak (Xanthomonas vasicular pv vasculorum), we devised a practical and scientific approach to manage the disease and protect valuable export markets. Our most significant domestic accomplishment this year, however, was achieving one of our agency’s top 10 goals: eliminating the European grapevine moth (EGVM) from the United States. On the world stage, PPQ helped U.S. agriculture thrive in the global market-place. We worked closely with our international trading partners to develop and promote science-based standards, helping to create a safe, fair, and predictable agricultural trade system that minimizes the spread of invasive plant pests and diseases. We reached critical plant health agreements and resolved plant health barriers to trade, which sustained and expanded U.S. export markets valued at more than $4 billion. And, we helped U.S. producers meet foreign market access requirements and certified the health of more than 650,000 exports, securing economic opportunities for U.S. products abroad. These successes underscore how PPQ is working every day to keep U.S. agriculture healthy and profitable.
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