Global ETD Search

41	Studies on breeding of maize for resistance to ear rots caused by Fusarium spp. and on the occurrence of viruses in maize in eastern Canada Presello, Daniel A. January 2001 (has links) No description available. Corn -- Diseases and pests -- Ontario. Fusarium graminearum. Fusarium diseases of plants. Virus diseases of plants -- Ontario.
42	Studies on breeding of maize for resistance to ear rots caused by Fusarium spp. and on the occurrence of viruses in maize in eastern Canada Presello, Daniel A. January 2001 (has links) Responses from pedigree selection for resistance to gibberella ear rot were assessed in four maize (Zea mays L.) populations, two selected after inoculation of Fusarium graminearum (Schwabe) macroconidia into the silk channel and two selected after inoculation into developing kernels. Responses were significant in both populations selected for silk resistance and in one of the populations selected for kernel resistance. Selection was more effective in later generations and genetic gains were associated with among-family selection but not with within-family selection. Results obtained here indicate that responses to selection could be more efficiently obtained by applying high selection intensities in advanced generations, by managing earlier generations as bulks and by reducing the number of plants per family. In another experiment, a wide sample of Argentine maize germplasm was evaluated for silk and kernel resistance to gibberella ear rot and to fusarium ear rot (caused by F. verticillioides (Saccardo) Nirenberg [=F. moniliforme (Sheldon)]. Several entries exhibited disease resistance in comparison with local check hybrids, particularly for fusarium ear rot, the most prevalent ear rot in Argentina. Results obtained in this study suggested the presence of general mechanisms controlling silk and kernel resistance to both diseases. In a supplementary study, viral diseases were surveyed in maize fields from the provinces of Ontario and Quebec in 1999 and 2000. Barley yellow dwarf was found in 1999. Sugarcane mosaic, maize dwarf mosaic and wheat streak mosaic were found in 2000. These diseases were not important for grain-maize planted in May, the most prevalent kind of maize crop in these provinces. Some of these diseases, such as sugarcane maize mosaic and maize dwarf mosaic were found important only in maize fields planted during or after the month of June, and this is of commercial relevance only for sweet corn. Fusarium graminearum. Fusarium diseases of plants. Virus diseases of plants -- Ontario. Corn -- Diseases and pests -- Ontario.
43	Genetic analysis and response to selection for resistance to two stem borers, Busseola fusca and Chilo partellus, in tropical maize germplasm. Mwimali, Murenga Geoffrey. 19 June 2014 (has links) Maize is the principal staple food in sub-Saharan Africa (SSA), but production lags behind population growth. The African stem borer, Busseola fusca, Fuller (Lepidoptera, Noctuidae), and the spotted stem borer, Chilo partellus, Swinhoe (Lepidoptera, Crambidae) are serious insect pests of maize in tropical environments. The damage can be managed by breeding stem borer resistant maize varieties but there is limited information that can be used to devise appropriate breeding programs. Therefore breeding investigations were conducted to appraise germplasm screening methods, and to determine combining ability, heterosis and response of maize populations to S1 progeny recurrent selection. The study was conducted in Kenya during 2010 to 2013. The results showed that most of the test genotypes were susceptible to B. fusca and less so to C. partellus, indicating that breeding for B. fusca would be more challenging. Therefore more resources would be required to improve maize germplasm for resistance to B. fusca to broaden the base from which breeders will select suitable lines for breeding. There was a highly significant (r=0.947, p≤ 0.01) correlation between rank selection index in the greenhouse and laboratory. The detached leaf disk bioassay method was effective for screening maize genotypes for resistance to both stem borers. Therefore it will be recommended for use in screening maize genotypes in future studies. The line x tester studies indicated a preponderance of the additive gene effects for borer resistance traits. Specific combining ability effects were significant for resistance traits and grain yield indicating that non-additive effects were also influential. Findings from the breeding investigations will impact positively on both food security and plant breeding capacity. The completed study was successful in identifying new maize inbred lines with resistance to both stem borers. These lines have high utility to maize breeding programmes that emphasise stem borer resistance in tropical environments. For the hybrid-oriented programmes, combining ability and heterotic orientation data for the 66 maize inbred lines will be crucial. In this regard the study was very successful in classifying the lines into three heterotic groups according to single cross testers (CML395/CML444, and CML312/CML442) that are widely used at CIMMYT, and by public breeding programs throughout SSA. Importantly, this was done based on grain yield potential of hybrids under B. fusca and C. partellus infestations in three mega environments. The study demonstrates that S1 progeny recurrent selection is effective for improving stem borer resistance, without compromising yield. There was significant reduction (69%) in maize plant damage by both pests, and yield gains of 25% to 70% were realised in two populations. This represents significant contribution to plant breeding capacity, especially to maize breeding programmes that emphasise stem borer resistance in hybrids. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2014. Corn--Diseases and pests--Kenya. Corn--Varieties--Kenya. Stem borers. Theses--Plant breeding.
44	Induction of maize wallaby ear disease by Cicadulina bimaculata and its incidental infection by leafhopper A virus / by Felix Ofori Ofori, Felix January 1984 (has links) Bibliography: leaves 62-64 / iii, 64 leaves, [16] plates : ill ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Plant Pathology, 1985 633.1597 19 Corn Diseases and pests. Insects as carriers of plant disease. Leafhoppers Host plants. Insects Viruses. Insects Virus diseases.
45	Ocorrência de fumonisinas em milho e derivados, destinados à alimentação humana / Fumonisin ocurrence in corn and derivatives, for human consuption Oliveira, Dillaine Hennig de 02 September 2016 (has links) A cultura do milho é um dos segmentos mais importantes para a economia do agronegócio brasileiro, sendo responsável por 37% dos grãos produzidos no país. Entretanto, devido ao seu alto valor nutritivo, possui grande suscetibilidade ao crescimento fúngico, com destaque para Fusarium sp. que além de agente deteriorante é responsável por produzir fumonisinas, um grupo de micotoxinas de caráter termoestável e possivelmente carcinogênico, associada a surtos ocorridos em equinos, suínos e aves. Assim, este trabalho teve como objetivo avaliar a ocorrência de fumonisinas em milho e seus derivados durante o processo de industrialização. Um total de 1200 amostras (300 de milho, 300 de canjica, 300 de grits e 300 de farinha de milho) foram coletadas durante o processamento do milho no mês de maio de 2016 e submetidas a quantificação de fumonisinas pelo método de imunoensaio ROSA® Fumonisin Quantitative, cujo limite de detecção foi de 250 µg/kg. Paralelamente foram coletadas aleatoriamente 23 amostras (9 de milho e 14 de farinha), que foram submetidas simultaneamente a quantificação de fumonisinas pelo método ROSA® e pelo método Cromatografia Líquida de Alta Eficiência, acoplado a espectrometria de massa sequencial LC MS/MS, a fim de estudar a existência de uma correlação entre os métodos. Das 1200 amostras analisadas, 370 (30,83%) apresentaram resultado positivo para fumonisinas totais, com concentrações variando de 278 a 1.522 µg/kg no milho, de 293 a 1.240 µg/kg na canjica, de 269 a 445 µg/kg no grits e de 267 a 512 µg/kg na farinha de milho. Entretanto, os teores de fumonisinas detectados no milho e derivados encontraram-se abaixo dos limites máximos tolerados pela legislação brasileira, sendo portanto, considerados aptos para consumo humano. O método ROSA® utilizado para quantificação de fumonisinas neste trabalho apresentou uma correlação de Pearson positiva forte (r = 0,98) com o método oficialmente empregado, indicando a possibilidade de utilização na quantificação de micotoxinas pelas indústrias processadoras, que necessitam de resultados rápidos, confiáveis e de baixo custo. Contudo, apesar dos níveis de fumonisinas detectados não representarem um risco à saúde dos consumidores, sugere-se um monitoramento constante de produtos à base de milho, tendo em vista que a contaminação por micotoxinas depende de um conjunto de fatores e representa um grande desafio para as indústrias processadoras de milho. / The culture of corn is one of the most important segments for the economy of the Brazilian agriculture industry, being responsible for 37 % of the grains produced in the country. Therefore, due to its high nutritious value, it possesses a great vulnerability of fungus growth, especially for the Fusarium sp., which is a deteriorate agent and responsible for producing fumonisin, a group of mycotoxins of carcinogenic character and term stable, associated to outbreaks that reach to equine, suine and poultry and also lead to esophagus cancer in humans. Thus, the aim of this work was to evaluate the incidence of fumonisin in the corn and its derivatives during the industrialization process. A total of 1200 samples (300 maize, 300 of hominy, 300 of grits and 300 of corn flour) was collected among the processing of corn during May 2016 and submitted to fumonisin quantification by method of immunoassay ROSA® Fumonisin Quantitative Method. The detection limit was 250 µg/kg. In order to verify the existence of a Pearson correlation between two different methods for fumonisin quantification, other 23 samples (9 maize and 14 flour) were randomly collected in a parallel study, followed by fumonisin quantification by simultaneously ROSA® Fumonisin Quantitative Method and the Liquid Chromatography-Mass Spectrometry LC-MS/MS. Of the 1200 samples analyzed, 370 (30,83%) tested positive for total fumonisins with concentrations ranging 278-1.522 µg/kg in corn, 293-1.240 µg/kg in hominy, 269-445 µg/kg in grits and 267-512µg/kg in corn flour. However, fumonisin levels detected in corn and derivatives were lower than the maximum level established by Brazilian law, and therefore able for human consumption. The ROSA® method for fumonisin quantitation used in this work showed a strong positive Pearson correlation (r = 0.98) with the official method employed, indicating the possibility of its use in the quantification of mycotoxins by the processing industries, that require fast, reliable and cost-effective results. Despite the detected levels fumonisins did not represent any risks to the consumers health, the corn products monitoring there must be constant, seeing that the contamination through mycotoxins depends on a group of factors and represents a great challenge to the corn manufacturing industries. Milho - Indústria Milho - Doenças e pragas Micotoxinas Fungos Corn industry Corn - Diseases and pests Mycotoxins Fungi
46	Generalist predators in reduced-tillage corn: predation on armyworm, habitat preferences, and a method to estimate absolute densities Clark, M. Sean 10 November 2009 (has links) The potential impact of generalist predators on armyworm mortality was evaluated in the field, through a predator removal study, and in the laboratory, through controlled feeding trials. The most common potential armyworm predators removed from the field included ground beetles (Carabidae), rove beetles (Staphylinidae), ants (Formicidae), and spiders (Araneae). Armyworm damage to corn plants was significantly greater where generalist predator populations were reduced, through the use of pitfall traps and exclusion arenas, than in the control where predator populations were unaltered. The differences in the proportion of damaged plants and the degree of damage between the predator removal treatment and the control were statistically significant. Generalist predator consumption rates of live armyworm larvae in the laboratory were variable, however most predators did feed on the larvae. Large carabid beetles, including Pterostichus chalcites Say, Pterostichus lucublandus Say, and Scarites subterraneus F., exhibited the highest consumption rates. Generalist predators were sampled in four reduced-tillage corn systems which differed in the degree of soil disturbance and quantity and structure of the surface mulch due to tillage and cover crop management practices. The two sampling methods which were used, pitfall trapping and vacuum sampling, showed similar trends in predator abundance. The treatment with the highest degree of mulch ground cover had the highest overall predator abundance while the treatment which was disked and had no surface mulch had the lowest. Although several species tended to prefer the system with the least amount of ground cover, most of the common species preferred the treatment with the most groundcover. Pitfall trap catches over a three-day period indicated that predator activity was significantly higher during the day than night in all treatments. However, a laboratory study provided evidence that night activity in the field may have been reduced due to unusually low temperatures. Catch data from pitfall traps, unbaited and baited with live armyworm larvae, indicated that long-distance chemical detection is not an important cue for generalist predators in finding armyworm as prey. A removal sampling technique was used and evaluated for estimating the absolute densities of ground beetles (Carabidae). Removal sampling is a method of absolute density estimation based on the decline in successive catch numbers as individuals are removed from a population. Field arenas were used to isolate sampling areas in a no-till corn field and barrier pitfall traps were installed within the arenas to remove the carabids. Three three-week sampling trials were conducted in 1991 providing data for estimates on 5 June, 26 June, and 17 July. A single six-week sampling period was conducted in 1992 providing data for estimates on 2 June based on three, four, five, and six weeks of sampling. A linear regression method was used for calculating the estimate from the removal sampling data. The technique's practicality and agreement with the assumptions of removal sampling are discussed. / Master of Science LD5655.V855 1993.C627 Corn -- Ecology Ground beetles -- Ecology Predation (Biology)
47	Effect of European and southwestern corn borers on translocation of photosynthetic products, water use and yield in Zea mays L. Melia-Hancock, Susan. January 1985 (has links) Call number: LD2668 .T4 1985 M444 / Master of Science Corn--Diseases and pests--Kansas. Plant translocation. Plants--Photorespiration. Plant-water relationships. Corn--Losses--Kansas. Masters theses
48	Yield response of Fusarium infected maize seed treated with biological control agent formulations Gerber, Johan,1961- 11 1900 (has links) Potential vegetative and reproductive increases in yield, as well as the biological efficacy against Fusarium verticillioides and F. proliferatum causing ear and stem rot in maize crops of commercially-formulated micro-organism formulation T-Gro (Trichoderma harzianum isolate DB103 WP) combined with Spartacus (Beauveria bassiana isolate DB 105 WP), T-Gro combined with Armenius (Bacillus subtilis isolate DB 109 WP), T-Gro combined with Maximus (Bacillus subtilis isolate DB 108 WP), T-Gro combined with Shelter (Bacillus subtilis isolate DB 101), T-Gro combined with Bismarck (Microbacterium maritypicum isolate DB 107 WP), as well as individual treatments of T-Gro, Armenius, Bismarck, Maximus and Shelter, were investigated when applied to maize seed and soil under field conditions. All the micro-organism treatments were compared with Thiram 750WP (750g/kg thiram WP) and an untreated control. The micro-organism treatments showed an increase in vegetative as well as reproductive yields when compared to the reference product Thiram 750 WP and the untreated control. There were no observations of adverse effects on the germination of maize seed in all the treatments that were applied. The three isolates B. subtilis, T. harzianum, and M. maritypicum, showed a significant reduction in vascular tissue discolouration of the main and ear stems, indicating a potential to be used in the reduction and control of diseases caused by Fusarium spp. Results also showed poor to very good increases of stem and foliage biomass as well as cob yield per plant produced by the micro-organism treatments when compared to the untreated control. The highest cob yield per plant that differed significantly from the untreated control was produced by T-Gro and Shelter. No phytotoxicity of any kind was observed with the application of the micro-organism formulations and they could therefore be deemed suitable to be used for the treatment of maize seed. The micro-organism formulations containing fungal and bacterial biological control agents have the potential to be used in commercial maize production to increase vegetative and reproductive yields and reduce the severity of ear and stem rot in maize. / Agriculture Animal Health & Human Ecology / M.Sc. (Agriculture) Biological control agents Crop protection Maize diseases Fusarium verticillioides Fumonisins Growth-promoting agents Micro-organism 633.1596 Corn -- Yields Fusarium diseases of plants
49	Genetic diversity, stability, and combining ability of maize genotypes for grain yield and resistance to NCLB in the mid-altitude sub-humid agro ecologies of Ethiopia. Mengesha, Wende Abera. January 2013 (has links) Maize (Zea mays L.) is the third most important cereal crops in the world after wheat and rice. In Ethiopia, maize remains the second largest food security crop after tef [Eragrostis tef (Zucc.) Trotter.]. The mid-altitude, sub-humid agro-ecology (1000 to 1800 m above sea level) is the most important maize producing environment in Ethiopia. However, productivity of maize is low, due to several biotic and abiotic constraints. Among the biotic constraints, Turcicum leaf blight disease of maize caused by Exserohilum turcicum Pass Leonard & Suggs shows high incidence of 95-100% and inflicts significant grain losses in the country. Therefore, high yielding, Turcicum leaf blight resistant and farmers-preferred maize varieties and their production technologies should be developed and made available to growers to enhance maize production and to achieve food security. The objectives of this study were to: (1) assess farmer’s preferences, and production constraints for maize in the mid-altitude, sub-humid agro-ecology of western Ethiopia, (2) determine the genetic variability among elite maize inbred lines and select promising parents for resistance to E. turcicum, (3) determine diversity among the elite germplasm lines using SSR markers, (4) determine combining ability and heterosis among elite maize inbred lines and their hybrids, and (5) investigate genotype x environment interaction and yield stability of experimental maize hybrids developed for the midaltitude sub-humid agro-ecology of Ethiopia. A participatory rural appraisal (PRA) research was conducted involving 240 maize farmers in three representative maize growing zones of western Ethiopia; West Shoa, East Wollega and West Wollega, each represented by two districts and two subdistricts. Maize was ranked number one both as food and cash crop by 82.9% of respondents. Turcicum leaf blight was ranked as number one devastating leaf disease by 46% of respondents. Breeding for improved disease resistance and grain yield, enhancing the availability of crop input and stabilizing market price during harvest time were recommended as the most important strategies to increase maize production by small-scale farmers in western Ethiopia. Fifty inbred lines were evaluated for reaction to Turcicum leaf blight during the main cropping seasons of 2011 and 2012. Inbred lines were clustered into resistant (CML202, 144-7b, 136-a, 139-5j, 30H83-7-1, ILOO’E-1-9, SZYNA-99-F2, and 142-1-e), and susceptible (CML197, CML464, A7033 , Kuleni C1-101-1-1, CML443, SC22-430 (63), (DRB-F2-60-1-2) – B-1-B-B-B, Pool9A-4-4-1-1-1). Inbred lines (CML312, CML445, Gibe-1-158-1-1-1-1, CML395, and 124-b (113)) had intermediate response to the disease. Overall, inbred lines such as CML202, 30H83-7-1, ILOO’E-1-9-1, CML312, CML395 CML445 and 142-1-e were selected with better agronomic performance and resistance to leaf blight for breeding. Twenty selected elite parental inbred lines were genotyped with 20 polymorphic SSR markers. The genotypes used were clustered into five groups consistent with the known pedigrees. The greatest genetic distance was identified between the clusters of lines CML-202 and Gibe-1-91. Eighteen selected inbred lines were crossed using the factorial mating scheme and 81 hybrids developed to determine combining ability effects and heterosis. Inbred lines with high GCA effect (CML 202, CML395, 124-b (113), ILOO’E-1-9 and CML 197) were selected as best combiners for hybrid development. Additionally five high yielding novel single cross hybrids with grain yield of > 8 t ha-1 and high SCA effects were identified such as CML395 X CML442, DE-78-Z-126-3-2-2-1-1 X CML442, ILOO’E-1-9-1-1-1-1-1 X CML312, X1264DW-1-2-2-2-2 X CML464 and SC22 X Gibe-1-91-1-1-1-1. These experimental hybrids are recommended for direct production or as hybrid testers for hybrid development. Genotype x environment interaction (GEI) effects of 81 newly developed and three check maize hybrids were evaluated across 10 locations in the mid-altitude sub-humid agro-ecologies of Ethiopia. The AMMI-3 and GGE biplot models were used to determine stability. Hybrids such as G68, G39, G37, G77, G34 and G2 were identified as the most stable and high yielding at favorable environments such as Bako, Jima, Arsi Negelle and Pawe in Ethiopia. The genotype and genotype by environment interaction (GGE) biplot clustered the 10 environments into three unique mega-environments. Environment I included Bako, Jima, Asossa, Ambo, Finote Selam, Haramaya and Pawe while environment II represented by Arsi-Negelle and environment III Areka and Hawassa. In general, the study identified valuable maize inbred lines with high combining ability for breeding and novel single cross hybrids for large-scale production or as testers for hybrid development at the mid-altitude, sub-humid agro-ecologies of Ethiopia or similar environments in sub-Saharan Africa. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2013. Corn--Breeding--Ethiopia. Corn--Diseases and pests--Ethiopia. Corn--Yields--Ethiopia. Corn--Varieties--Ethiopia. Fungal diseases of plants--Ethiopia. Theses--Plant breeding.
50	Sweet corn decline syndrome in Oregon's Willamette Valley Hoinacki, Elisabeth V. 02 June 2003 (has links) Graduation date: 2004

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