The influence of lesion nematode infection on plant water relations and root integrity.

Kaplan, David Todd

01 January 1975

No description available.

Corn Diseases and pests

Pratylenchus penetrans

Sunflowers Diseases and pests.

Bipolaris zeicola: physiological races, morphology and resistance on maize

Traut, Eduardo Jorge

22 December 2005

Conidial length, width, septation, curvature and pigmentation of 39 isolates of Bipolaris zeicola (Stout) Shoemaker from different geographical areas and representing distinct physiological races were examined. Wide variability in conidial morphology was found among isolates of each race. No association was found between races or groups of isolates producing the same shape of lesions and conidial morphology. Morphology and expansion of lesions induced by three races of B. zeicola producing different shapes of lesion on susceptible maize (Zea mays L.) inbred lines were studied. Resistant type lesions induced by three races of B. zeicola were indistinguishable based on their shape or size. However, lesion size correlated with the lesion type induced by each race, indicating that it may be useful to evaluate resistance to different races of B. zeicola. Inheritance of reaction to one isolate of the proposed pathotype of B. zeicola was studied. Resistance was controlled by a single dominant gene in the cross Pr x B37. Forty-nine isolates of B. zeicola from different geographical areas including all the previously described races and pathotype were characterized by their disease reaction, severity and symptoms incited on 14 maize inbred lines. Eleven physiological races were distinguished based on their differential reaction on the 14 inbred lines; however, 6 inbred lines were adequate to differentiate the races. A system based on binary notation is proposed to designate races of B. zeicola on maize. Two races induced typical symptoms of Helminthosporium carbonum-toxin (HC-toxin) production on Pr. Seven races produced oval to irregular lesions on susceptible hosts and did not produce typical lesions of HC-toxin production on Pr. One race induced predominantly long, linear lesions, and another was avirulent on all 14 maize inbred lines. / Ph. D.

LD5655.V856 1993.T695

Bipolaris zeicola

Corn -- Diseases and pests

ECOLOGY OF AN OVERWINTERING FIELD POPULATION OF THE SOUTHWESTERN CORN BORER, DIATRAEA GRANDIOSELLA, IN ARIZONA.

Sprenkel, Reid James.

January 1982

No description available.

Southwestern corn borer.

Corn -- Diseases and pests -- Arizona.

Insect populations -- Arizona.

Population biology.

Mycotoxicological properties of fusarium verticillioides and the fumonisins : mechanisms and implications for setting risk assessment parameters in humans

Gelderblom, Wentzel Christoffel Andreas

03 1900

Thesis (DSc (Biochemistry))--Stellenbosch University, 2009. / The fumonisin mycotoxins are known to be the causative principle for several animal diseases and are associated with the development of liver and oesophagus cancer and neural tube defects in humans. The thesis focuses mainly on the characterisation of the compounds from maize cultures of the fungus Fusarium verticillioides, isolated from maize, the toxicological effects in animals, mechanism involved in hepato- and nephrocarcinogenicity and discussing the major differences and contradictions in the literature together with their impact on setting relevant risk assessment parameters to safeguard human health. Controversies include the importance of non-genotoxicity vs genotoxicity in the development of cancer, the role of threshold effects in carcinogenesis and the establishment of realistic risk assessment parameters that will also be applicable in developing countries. Recent approaches suggest that thresholds should also apply for genotoxic carcinogens as interaction with the DNA is only one event in the multi-step process of cancer development and therefore could not be taken as the basis for applying a no-effect threshold for genotoxins. It would appear that a carcinogen such as fumonisin, whether it is labeled genotoxic or non-genotoxic per se, exhibits some degree of risk at any level due to additive or synergistic interactions with other xenobiotics and/or dietary constituents. The underlying mechanisms of fumonisin-induced carcinogenicity includes the disruption of sphingolipid, phospholipids and fatty acid metabolism, which plays a major role in the modulation of apoptotic and cell proliferative pathways related to cancer development. Interactive responses between arachidonic acid and ceramide affect downstream cell signal transduction pathways and depending on the cell type the disruption of these pathways could either stimulate or inhibit cell proliferation which eventually will determine the induction of apoptosis and hence affect cell survival. The modulating roles of dietary constituents such as vitamins, protein and the South African herbal teas are also highlighted as they affected the outcome of toxicological assays, thus determining thresholds of the adverse effects in specific target organs that will impact risk assessment parameters. Regulation of the fumonisins in food and the associated risk are debated from many perspectives. In developing countries there is a lack of quality control implying that maize highly contaminated with mycotoxins may directly enter the food chain of adults and children as control of mycotoxins is difficult or in some cases totally absent. The interaction of politics, economy and technology will eventually determine the impact on health as the regulation of fumonisin in food differs between countries. Knowledge about the biological effects of the fumonisins is currently playing an important role in the development of simple and inexpensive methods to reduce the levels of the fumonisin in maize by targeting specific populations at risk.

Fumonisins

Hepatocarcinogenesis

Lipids

Risk assessment

Mycotoxins

Fusarium diseases of plants

Corn -- Diseases and pests

Application of Bacillus Thuringiensis through center-pivot irrigation systems for control of Southwestern and European corn borer

Nolting, Steven P

January 2011

Digitized by Kansas Correctional Industries

European corn borer--Biological control

Corn--Diseases and pests

Intercropping and mechanical weeding : effects on insects of Zea mays

Brunet, Francine.

January 1996

A study was undertaken from 1993 to 1994 to determine the effects of intercropping (with Glycine max L Merr., Lupinus sp., Trifolium pratense L.-Lolium multiflorum Lam., or Secale cereale L.) and mechanical weeding (with a rigid tines cultivator, Danish tines cultivator or ridge cultivator) on the population dynamics of insect pests (Diabrotica longicornis Say, Lygus lineolaris Palisot de Beauvois, Ostrinia nubilalis Hubner, and Pseudaletia unipuncta Haworth) on corn (Zea mays L.) in L'Assomption and Sainte-Anne-de-Bellevue, Quebec, Canada. / D. longicornis or P. unipuncta populations did not increase. / In 1994, intercropping with T. pratense-L. multiflorum (Sainte-Anne-de-Bellevue) or weeding with the Danish tines cultivator (L'Assomption) increased L. lineolaris populations. / In 1994, intercropping with S. cereale (L'Assomption) ot T. pratense-L. multiflorum (Sainte-Anne-de-Bellevue) increased O. nubilalis populations.

Cultivators -- Québec (Province).

The effect of cultivation and intercropping on the incidence of ear rot of corn and head blight of wheat

Dupeux, Yann Alain

January 1995

Three cultivators, Rabewerk, Kongskilde and Hiniker, and three intercrops, soybean, lupin and red clover + rye grass were investigated for their impact on the incidence of ear rot of corn, a common disease of maize in eastern Canada. Wheat was seeded in the corn rows to serve as an additional indicator of cultivation and intercropping effects on the pathogen. An artificial inoculum of F. graminearum that produced perithecia and ascospores was used to mimic natural inoculum. / In 1993 and 1994, the infection in the corn was not very severe and there were no differences between the treatments and the controls. / In 1993 and 1994, at both sites, wheat seeds from cultivation trials showed a tendency for greater disease incidence in the non-cultivated herbicide treatment when compared to any of the other cultivator treatments. Cultivators till the soil and bury corn residues, this action led to the destruction of some of the inoculum and a subsequent reduction of the disease incidence in the cultivated plots. / In the intercrop trial of 1993 and 1994, wheat infection was moderate to severe, except at L'Assomption in 1993, but no significant differences were observed among the treatments. It is believed that interplot interference, due to ascospores moving from one plot to the next, masked differences. / The results indicated that weed cultivation would have a negligible or no effect on the development of fusarium ear rot of corn in Quebec. (Abstract shortened by UMI.)

Companion planting.

Fusarium graminearum

Corn -- Diseases and pests.

Wheat fusarium culmorum head blight.

The role of birds as predators and potential biocontrol agents of insect pests in corn fields /

Tremblay, Annie C.

January 1999

This project investigated the impact of bird predation on insect pest populations within two cornfields of Southwestern Quebec. Birds were excluded from portions of these fields through the use of bird-proof netting. Rhopalosiphum maidis, Ostrinia nubilalis, Agrotis spp. and Sphenophorus spp. were all found at greater densities in plots where birds were excluded as compared with the non covered plots. Only the adult Diabrotica longicornis population was not reduced by birds. Results significantly suggest that birds can reduce insect pest populations. Bird visits in cornfields with respect to distance from field edge, type of edge habitat and corn phenology were also studied. Red-winged Blackbird, Song and Chipping Sparrows and American Robin were the most frequently observed bird species inside cornfields. Early in the summer, birds tended to stay closer to the field edge, especially when composed of mature coniferous trees. Different bird species visited the cornfields at specific periods during corn development.

Birds -- Food -- Québec (Province).

The incidence of fungi and their mycotoxins in Angolan food and crops with particular reference to maize

Panzo, Josue Domingos

31 July 2012

M.Tech. / Fungi and their mycotoxins are major contaminants of cereals and maize which is the major staple food for Angolan population. The consumption of fungal and mycotoxins contaminated maize can induce health problems as these mycotoxins are known to induce immune suppression and other chronic diseases known as mycotoxicoses. In addition, to these mycotoxins also induce chronic diseases such as cancers of various types (liver, oesophageal, brain). Mycotoxins also immensely affect organs such as fragility and haemorrhage in tissues, liver-necrosis, bile-duct proliferation, caustic effects, intestinal haemorrhage and diarrhoea, adenomatosis, tremors, inco-ordination, mania, coma, photosensitization, sloughing of the extremities, nephrosis, uremia, infertility, prolonged oestrus, huge implications and infections in people with Human immunodeficiency virus (HIV)- AIDS. There is a very little known about the incidence of mycotoxins in Angola, which are associated with Food, Environment and Health. Therefore, the aim of this scientific novel study in history of Angola was to analyse maize samples obtained from major markets in Angola and to establish their quality with regard to mycotoxins and fungi and well as to establish possible links to the prevalent diseases as well as chronic diseases recorded among Angolan populations. To attain these aims, 60 samples of maize were randomly selected and purchased from open rural and nonregulated informal (dusty and food exposed to open air) markets around Luanda, Angola. Luanda, being the capital city of Angola was found to be the best place to sample, because of the presence of huge markets in which food products as well as maize produced in different provinces are delivered and sold to its high population. Thus, sampling in these markets was representative of the whole country and the results obtained give an approximate the status of the quality of maize consumed in different parts of Angola. The result from this study approximates the status of possible health risks that consumers can be exposed due to consumption of these mycotoxins. The samples were analysed in the Food Environmental and Health Research Laboratories at the University of Johannesburg for fungi and mycotoxins contamination using fungal screening methodologies. In terms of mycotoxins extraction, a multi-mycotoxin (solvent-solvent) extraction, solid phase extraction using SAX column for fumonisins (FBs) and immuno-affinity column (VICAM) were used for confirmation of results. Normal thin layer chromatography (TLC), reversed phase thin layer chromatography (RPTLC) (both for FBs confirmation), fluorometer “VICAM” and high performance liquid chromatography (HPLC) were techniques used for mycotoxins detection, identification and quantification. From the results obtained in this study, fungal isolation revealed contamination of the three most important toxigenic species: Aspergillus, Penicillium, Fusarium spp.

Fungi

Mycotoxins

Maize contamination research (Angola)

Fungi - Biotechnology

Toxenic fungi

Corn - Diseases and pests - Angola

Tolerance of maize genotypes to selected herbicides

Kanyomeka, Luke

12 October 2005

Maize damage has been observed from time to time in many parts of South Africa where registered herbicides were applied. Differential cultivar tolerance to certain herbicides was identified as an important factor in many cases where herbicide selectivity was inadequate. A study was done to investigate the existence of differential tolerance of maize genotypes to selected herbicides. Several maize genotypes were screened for tolerance to selected herbicides, both in the greenhouse and in the field. Maize genotypes demonstrated significant differences in their tolerance to all herbicides. Some genotypes were severely injured by certain herbicides while others were not affected at all by the same herbicide. This suggests that maize genotypes should be screened for tolerance to herbicides in order to reduce crop injury by using only appropriate ones for specific genotypes. Generally, hybrids were more tolerant to herbicides than inbreds, indicating that screening may be most necessary in seed production, where inbreds are used, than in commercial production where only hybrids are used. Tolerance of maize to herbicides was more variable to metazachlor than to other herbicides, and metazachlor also injured more genotypes than other herbicides. This was probably due to differences in herbicide mechanism of action. Shoot or root dry mass reduction of some of the maize genotypes occurred without visual injury symptoms, thus suggesting that visual injury may not reliably indicate susceptibility or tolerance to herbicides. The degree of correspondence of herbicide effects on maize in the greenhouse and the field was determined. Comparison of results from the greenhouse and the field showed that there is positive correlation between herbicide effects in the greenhouse and in the field. There was generally good correspondence of major parameters, such as shoot dry mass and injury symptoms, in the greenhouse and in the field. Similarly these parameters were positively correlated with the grain yield obtained from the field. It appears that shoot dry mass and visual injury symptoms could be good predictors of the yield. This indicates that reliable data could be generated through quicker screening at greenhouse level. A total of four herbicides, metazachlor, dimethenamid, acetochlor and the combination atrazine / metolachlor / terbuthylazine, had significant correlations while only two, flufenacet and acetochlor + atrazine/sulcotrione, had no significant correlations for major parameters with the yield. This indicates that the correlation of data was herbicide-dependent. The influence of temperature on maize tolerance to alachlor, metazachlor and metolachlor was investigated. Results showed that low temperatures reduce the tolerance of maize to these herbicides. This could mean that low temperature may reduce the selectivity of these herbicides. Fluctuating temperature conditions of 10°C at night and 35°C during the day, which are found in some maize producing areas, did not affect maize tolerance to the herbicides. The possibility of improving metazachlor tolerance in maize was also investigated. Evidence provided for possible gene effects on the tolerance of metazachlor indicates that maize tolerance to the herbicide could be improved by crossing tolerant parents. The results suggest that it may be possible to improve metazachlor tolerance by crossing appropriate parent lines with dominant genes for tolerance to metazachlor. Ultrastructural changes in the maize seedling root and shoot cells caused by metazachlor were investigated. In susceptible genotypes root cell nucleoli were found to be abnormally large, empty and more abundant than those in untreated control plants. In susceptible plants the chromatids appeared disorganised in cell nucleoli, and both the nuclear and plasma membranes showed signs of disintegrating. There were more and larger vacuoles in the herbicide-susceptible plants. Leaf cells from the susceptible plants had more empty vacuoles and more chloroplasts with generally disorganised content. The bundle sheath chloroplast membranes were dilated in susceptible plants, and the orientation of the grana was disrupted. In the herbicide-tolerant plants, the ultrastructure was not different from that of all the untreated plants. The established differential tolerance of maize to herbicides necessitates the screening of all genotypes to all registered herbicides in order to recommend specific herbicides for certain maize genotypes. Due to the large number of genotypes that would require screening, techniques that yield reliable data quickly have obvious merit. Pot experiments under controlled conditions, which could be selected to promote herbicide bioactivity, are likely to provide data with which the best possible predictions on the risk of herbicide damage in the field could be made. Based on this requirement, environmental factors that should be considered for greenhouse work are: soil with low adsorptive capacity, soil water content close to the field capacity level, and cool temperatures. When screening for herbicide tolerance, the use of herbicide rates in excess of the recommended rate could obviate the need for special environmental conditions, since all the aforementioned factors basically promote the accumulation of higher than usual amounts of herbicide at the site of action in the plant. Therefore, the use of at least a 2X-herbicide rate in screening experiments is advised. / Thesis (PhD (Plant Production: Weed Science))--University of Pretoria, 2006. / Plant Production and Soil Science / unrestricted

Corn herbicide injuries

Corn diseases and pests control

Corn varieties testing

UCTD