Global ETD Search

431	THE CORRELATION OF CERTAIN QUANTITATIVE CHARACTERS WITH THE VIRULENCE OF ERWINIA CAROTOVORA. STOWELL, LARRY JOSEPH. January 1982 (has links) Erwinia strains from several geographic regions and several hosts were evaluated for virulence, sensitivity to siderophores produced by Pseudomonas fluorescens (Pf) and bacteriocins produced by Erwinia, and for the presence of plasmids. Selection of virulent strains of Erwinia for use in plant breeding programs for resistance to disease might be based upon quantitative characters which are correlated with disease severity rather than the biochemical reactions used to distinguish Erwinia carotovora subspecies. Quantitative assays for motility, polygalacturonate degradation, potato tuber infection, and tuber decay revealed that motility was correlated with infection (r = 0.83, p = 0.01) and polygalacturonate degradation with decay (r = 0.84, p = 0.01) of potato tubers. Siderophores produced by Pf and bacteriocins produced by Erwinia yielded variable results in bioassays against the Erwinia strains studied. Six of the 12 strains of Erwinia tested were resistant to Pf siderophores. The growth inhibition of sensitive strains was bacteriostatic and reversible by addition of iron (Fe II or Fe III) to the culture medium. Additionally, only one strain of Erwinia was sensitive to the bacteriocins produced by the other 12 strains. The resistance of Erwinia strains to Pf siderophores and Erwinia bacteriocins severely limits the potential for widespread application of these agents in biological control of Erwinia. Bacteriocin-like structures were detected in culture extracts of all 12 Erwinia strains studied. The presence of bacteriocins is indirect evidence that these strains harbor plasmids. Bacteriocin-coding plasmids may be the source of genetic and phenotypic variability demonstrated by the erwinias. The status and value of subspecific classification of Erwinia carotovora may therefore require re-evaluation. Bacterial diseases of plants. Plants -- Diseases and pests.
432	Diseases of Urban Plants in Arizona Olsen, Mary W. 04 1900 (has links) 26 pp. / Geographically, Arizona can be divided roughly into four areas, southwest, central, southeast, and northern. These regions correspond with four climatic zones, allowing a large and diverse number of plants to be grown for landscaping purposes. But, interestingly, in this desert environment many of the parasitic diseases in landscape plants are caused by a limited number of plant pathogens. This publication discusses some of those diseases that are sufficiently important to the urban plants in all areas Arizona. plant diseases plants urban plants plant pathogens
433	THE CHARACTERIZATION AND SELECTION OF GERMINATION FOR TEMPERATURE AND SALT TOLERANCE IN GUAR, CYAMOPSIS TETRAGONOLOBA (L.) TAUB. Vinizky, Itamar. January 1984 (has links) No description available. Guar. Plants -- Effect of salts on. Plants -- Effect of temperature on.
434	PHYTOCHEMICAL INVESTIGATION OF AMSONIA GRANDIFLORA FAMILY APOCYNACEAE. Wahyuono, Subagus. January 1985 (has links) No description available. Forage plants -- Arizona. Plants -- Analysis. Amsonia grandiflora.
435	Biological control of Bryophyllum delagoense (crassulaceae) Witt, Arne Balder Roderich 27 February 2012 (has links) Ph.D., Faculty of Science, University of the Witwatersrand, 2011 / Introduced plants will lose interactions with natural enemies, mutualists and competitors from their native ranges, and possibly gain interactions with new species, under new abiotic conditions in their new environment. The use of biocontrol agents is based on the premise that introduced species are liberated from their natural enemies, although in some cases introduced species may not become invasive because they acquire novel natural enemies. In this study I consider the potential for the biocontrol of Bryophyllum delagoense, a Madagascan endemic, and hypothesize as to why this plant is invasive in Australia and not in South Africa. Of the 33 species of insects collected on B. delagoense in Madagascar, three species, Osphilia tenuipes, Eurytoma bryophylli, and Rhembastus sp. showed potential as biocontrol agents in Australia. Surveys in southern Africa revealed that B. delagoense had acquired 14 species of insects, compared to only two in Australia, which supported the hypothesis that an introduced plant is less likely to become invasive in regions where there are many closely related species. A beetle, Alcidodes sedi, was found to be widespread and damaging in South Africa and also sufficiently host specific for release in Australia. Studies were also undertaken to determine the biology of B. delagoense and characteristics of the recipient environments in Australia and South Africa. Analysis of soils in South Africa found that B. delagoense has the ability to grow on a range of soils and is tolerant of moderate shade. Bryophyllum delagoense exhibited phenotypic plasticity by re-allocating resources to stem production in light-limited; and to root production in nutrient- or water limited, environments. Competition trials indicated that B. delagoense is a weak competitor with overgrazing and the concomitant reduction in fires facilitating invasions. The absence of damaging natural enemies and characteristics of the Australian environment may make it more prone to B. delagoense invasions than in southern Africa. The study indicates that no single trait or group of traits can completely explain the invasive ability of a plant species because the success of an invader often depends on complex interactions between the species and its recipient environment. This has widespread implications for predicting the invasibility of imported plants. Keywords: Alcidodes sedi, biological control, Bryophyllum delagoense, Crassulaceae, Eurytoma bryophylli, fire, invasions, Madagascar, Osphilia tenuipes, Rhembastus sp., soil. Plants (metabolism) Botany Plants (transpiration) Leaves
436	Regrowth of pearl millet Stephenson, Robert John January 2011 (has links) Typescript (photocopy). / Digitized by Kansas Correctional Industries Pearl millet Forage plants Annuals (Plants)
437	Metabolite fingerprinting tools to detect differences between transgenic and conventional crops Morin, Geneviève. January 2007 (has links) No description available. Soybean. DNA fingerprinting of plants. Transgenic plants.
438	The influence of light and nutrients on the metabolism and cellular composition of phytoplankton under non steady-state conditions / by Simon J.L. Stone Stone, Simon John Lawrence January 1982 (has links) Typescript (photocopy) / vi, 271 leaves : 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 Botany, 1982 Phytoplankton. Plants, Effect of light on. Plants Nutrition.
439	The effects of native plants on non-native plant abundance in a restoration setting : differences among native species and the predictive ability of species traits Goodridge, Jennifer M. 05 September 2001 (has links) Reducing the cover of non-native species is one of the challenges of ecosystem restoration. The goal of this study is to identify native species traits that will increase native species cover and reduce non-native species cover in the first growing season at upland and wetland prairie restoration sites. Native and non-native prairie species were planted in the fall and harvested the following summer at both an upland and a wetland site. Native species traits, such as plant weight, leaf area, relative growth rate, leaf area ratio, leaf weight ratio, net assimilation rate, and specific leaf area were measured under laboratory conditions for 7- and 21-day old seedlings. Germination rate (laboratory) and phenology (field) were also measured. At the upland site, species with a large 7-day plant weight and a high germination rate also had high native cover in the field (P<0.00l, R��=0.83). At the wetland site, high 21-day leaf area, low 21-day leaf weight ratio, and high net assimilation rate predicted increased native cover in the field (P<0.00l, R��=0.87). An abundance of natives, as measured by native cover, native biomass, and number of individuals, likely results in fewer resources (light, nutrients, and water) available for the non-native species growth resulting in a reduction in the non-native cover. Intrinsic traits of native species also predicted the field performance of non-native species, although the amount of variation explained was lower than the amount of variation explained in the models that predicted native cover. In the upland site, native species with high leaf weight ratio (21-day) tended to have lower non-native cover in their field plots (P=0.087, R��=0.23). In the wetland site, the native species traits that predict non-native cover were low 21-day leaf area and high 21-day leaf weight ratio (P<0.00l, R��=0.46). These traits were similar to those that predicted native species cover at the wetland site. This study demonstrates the ability of species traits to predict field performance. Predictive models were generated using native species traits to select species for restoration that will increase native cover and decrease non-native cover in the first growing season. Traits can be measured for species not included in this study and the models generated can be used to predict the field performance of species at similar sites. / Graduation date: 2002 Restoration ecology Endemic plants Alien plants
440	Severe accident analysis using dynamic accident progression event trees Hakobyan, Aram P., January 2006 (has links) Thesis (Ph. D.)--Ohio State University, 2006. / Title from first page of PDF file. Includes bibliographical references (p. 205-215).

Search results