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Recurrent phenotypic selection for increased winter productivity in annual ryegrass (Lolium multiflorum Lam.)Dhaliwal, Amandeep Kaur, Van Santen, Edzard. January 2009 (has links)
Thesis--Auburn University, 2009. / Abstract. Vita. Includes bibliographic records.
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Glyphosate-resistance in Italian ryegrass (Lolium multiflorum) : evaluation and investigation of the mechanisms of resistance /Perez-Jones, Alejandro. January 1900 (has links)
Thesis (Ph. D.)--Oregon State University, 2007. / Printout. Includes bibliographical references. Also available on the World Wide Web.
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Growth studies in Lolium multiflorum in a Mediterranean environmentEl Hassani, T. A. January 1986 (has links)
No description available.
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Italian ryegrass (Lolium perenne L. ssp. multiflorum) control in Mississippi corn (Zea mays L.) productionWesley Jr, Michael Todd 13 December 2019 (has links)
Studies were conducted in the field and in containers in Mississippi from 2017-2019 to optimize Italian ryegrass control in corn production. Most fall-applied residual herbicides provided ≥ 90% Italian ryegrass control 56 days after treatment (DAT) in both field and container experiments. Oxyflurofen provided 95% Italian ryegrass control 28 DAT but only 81% control 56 DAT in field plots. S-metolachlor plus atrazine followed by paraquat produced the highest return on investment for both site-years. The timing of removal study indicates the optimum time to remove Italian ryegrass relative to corn planting is approximately three to four weeks prior to planting. In the droplet size study, Italian ryegrass control when S-metolachlor was sprayed with the TTI was lower than when S-metolachlor was sprayed with the AIXR in containers 28 DAT. Italian ryegrass control when paraquat was sprayed with the AIXR was greater than when paraquat was sprayed with the TTI.
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Evaluation of Italian ryegrass and Palmer amaranth control in MississippiHughes, Johnson Harris 12 May 2023 (has links) (PDF)
Italian ryegrass is a problematic weed in Mississippi corn production due to the development and proliferation of glyphosate resistance. Studies were conducted to assess Italian ryegrass control prior to planting using herbicides. Effects of fall and spring applied burndown herbicide applications for Italian ryegrass control and subsequent corn grain yield were investigated at the R.R. Foil PSRC in Starkville, MS, at the Coastal Plain Experiment Station in Newton, MS, and the Black Belt Experiment Station in Brooksville, MS on soil textures ranging from sandy loam to silt clay loam. A fall preemergence (PRE) application of S-metolachlor + metribuzin followed by paraquat in the spring provided 99% Italian ryegrass control 28 days after paraquat application. Four spring burndown treatments provided Italian ryegrass control similar to that observed following application of the fall PRE application followed by paraquat in the spring. Applications clethodim + glufosinate + paraquat + dimethenamid-P; clethodim + glufosinate + paraquat + S-metolachlor; clethodim + paraquat + dimethenamid-P; and clethodim + oxyfluorfen + paraquat + S-metolachlor resulted in similar levels of Italian ryegrass control at 96%, 98%, 94%, and 99%, respectively. Corn yield following the fall PRE followed by spring paraquat application was 10,687 kg ha-1. Corn yield following clethodim + paraquat + dimethenamid-P as well as clethodim + oxyfluorfen + paraquat + S-metolachlor applied in the spring resulted in similar corn grain yield to that following the fall PRE followed by spring paraquat application at 9,649 kg ha-1 and 9,567 kg ha-1, respectively. Spring burndown herbicide treatments could be used to control Italian ryegrass while producing similar corn yield to the standard fall herbicide followed by paraquat application in the spring.
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Individual and population responses to abiotic stresses in Italian ryegrass (Lolium multiflorum Lam.)Martinez-Ghersa, Maria Alejandra 15 March 2004 (has links)
Plant form is a compromise between resource gathering, reproduction and
the tolerance to physical demands of the abiotic and biotic environment. In
an agricultural field in addition to the natural factors causing stress, humans
also introduce physical and mechanical stresses, and chemical pesticides
into the environment. Many of these factors are hazardous, since they
represent stresses to which plants are unable to develop defense
mechanisms. However, weeds have persisted in the agricultural
environment despite the efforts to eradicate them. They have adapted to
environmental changes such as crop rotation and have developed tolerance
to stressors like pesticides in very short periods of times (less than 10
years), much less time than normally expected for evolutionary responses
to occur. Perhaps a key to why weeds persist in stress-dominated habitats
is the way they compromise between yield and survival. The mechanisms
that explain which process is relevant in the control of seed production or
seedling growth relate to the ecophysiology of the individual plants.
However, trade-offs between plants physiological functions will have
implications at both population and community levels.
Climate change, air pollution and water scarcity are examples of
environmental stresses that particularly affect agriculture. Herbicides are a
major technological tool for agriculture and are responsible, at least in part,
for significant increases in crop production during the last quarter of the
century. The research presented in this dissertation was developed to
understand the extent that individual responses to multiple environmental
stresses can be extrapolated to population-level responses in an annual
weed species.
The specific objectives were to assess (1) the impact of three
anthropogenic stresses (herbicide, UVB light and ozone) and their
interactions on individual Italian ryegrass ontogeny and reproduction and
(2) the potential evolutionary effect of these stresses and combinations on
changes in population size and structure over time.
Plants were capable of growth and reproductive compensation under
the studied stresses. Stress factors with similar biochemical
mechanisms had different effects at the individual plant and population
levels of organization. Compensation occurred at all levels of
organization: as individuals modifying growth and allocation to different
organs and as populations modifying birth, and death rates and density
dependent responses. The ability to compensate sometimes decreased
with the number of stress factors (e.g. herbicide and UVB). In other
cases, compensation ability increased with the number of stress factors
(e.g. ozone and herbicide). / Graduation date: 2004
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Control of Italian ryegrass (Lolium perenne L. spp. multiflorum Lam. Husnot) in wheat (Triticum spp.) and evaluation of resistance to acetyl-CoA carboxylase inhibiting herbicidesEllis, Andrew Todd, January 2009 (has links) (PDF)
Thesis (Ph. D.)--University of Tennessee, Knoxville, 2009. / Title from title page screen (viewed on Nov. 2, 2009). Thesis advisor: Thomas C. Mueller. Vita. Includes bibliographical references.
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Overseeding annual ryegrass and cereal rye into soybean for winter forage and as a cover crop for weed control and soil conservationSmith, Luke B. January 2005 (has links)
Thesis (M.S.)--University of Missouri-Columbia, 2005. / The entire dissertation/thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file (which also appears in the research.pdf); a non-technical general description, or public abstract, appears in the public.pdf file. Title from title screen of research.pdf file viewed on (July 14, 2006) Includes bibliographical references.
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Italian ryegrass (Lolium multiflorum) growth response to water and nitrogenAbraha, Amanuel Bokhre 18 November 2011 (has links)
At present, and more so in the future, irrigated agriculture will take place under water scarcity. Owing to the global expansion of irrigated areas and the limited availability of irrigation water, there is a need to optimize water production and use efficiency (WUE). In South Africa, annual ryegrass (Lolium multiflorum) is one of the most widely grown cool season pasture species under irrigation. It is mainly used in dairy farming enterprises. Shortages of water and nitrogen can, however, be limiting factors for the production of this pasture. By using appropriate irrigation and nitrogen management tools, water and nitrogen productivity of the pasture can be improved. The objective of this study was, therefore, to determine the effects of different water levels in combination with different N fertiliser applications on the growth rate and dry matter production, quality, water use and water use efficiency of annual ryegrass. For two seasons, the trial was conducted under a rain shelter on the Hatfield Experimental Farm of the University of Pretoria. Higher frequency of irrigation coupled with high nitrogen application significantly improved the dry matter yield. Canopy size influenced the LAI and FI which in turn affects the yield. The study showed that the treatments that were irrigated twice weekly and top-dressed with 60 kg N ha-1 after each cut consumed the most water, and this resulted in the production of higher yield, maintenance of the largest leaf area index and higher interception of the incoming solar radiation. The increase in these parameters may be due to the sufficient water and nitrogen fertiliser that induces rapid cell elongation as a result of higher water potential, higher turgor pressure and higher photosynthetic processes. As hypothesized, the decrease in the frequency of water application resulted in an increase in the DMC, digestibility, ME and CP values. Nitrogen application had an effect on the WU, as less water was used in the treatments that received no nitrogen. Highest KC value recorded was in the optimal range and this indicates that the treatments were not over-irrigated. As the irrigation interval increased, more water was depleted from the soil profile. Depletion rates increased as the season progressed but generally it was minimal in the frequently irrigated treatments. Increase in WUE was achieved by reducing the frequency of irrigation from twice a week to once a week without causing significant yield loss. A possible reason for the increase in the WUE by reducing the irrigation frequency could be ascribed in part to reduced evaporation from the soil resulting from the lower wetting frequency of the deficit irrigation treatments. Within the same irrigation frequency, higher WUE was achieved by alleviating a limiting factor, N fertiliser, in this case, through increases in dry matter production. The highest WUE was achieved by irrigating once every two weeks. However, in some treatments, the WUE was not improved with the reduction in the frequency of irrigation as the water saved was overshadowed by yield loss. In summary, it can be said that the hypotheses that pasture production will be positively associated with soil moisture content, water stress can improve the quality of the pasture, N fertiliser will increase the DM response to soil moisture content and WUE will increase by alleviating a limiting factor, N fertiliser in this case were accepted. A logical extension of this work would be to do the trial in an open field to analyze the effect of irrigation and nitrogen fertilization on the growth, yield and quality of the pasture and then extrapolate the results to other sites and soil types using models. / Dissertation (MSc(Agric))--University of Pretoria, 2011. / Plant Production and Soil Science / unrestricted
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Management strategies for glyphosate-resistant Italian ryegrass [Lolium perenne L. ssp. multiflorum (Lam.) Husnot]Bond, Robin C 07 August 2010 (has links)
Glyphosate-resistant (GR) Italian ryegrass has been documented in many different countries around the world and has now become a major problem in row crop production areas of Mississippi. Field experiments were conducted from 2006 to 2008 in the Mississippi Delta to evaluate various herbicide and tillage treatment programs for its control. style='mso-spacerun:yes'> Highest level of control and reduction of GR Italian ryegrass biomass was observed with mechanically incorporated as well as surface applied residual herbicides in the fall of the year. style='mso-spacerun:yes'> Control of GR Italian ryegrass was 86-95% with surface applications of clomazone at 0.56, 0.84, and 1.12 kg ai/ha, s-metolachlor at 1.79 kg class=SpellE>ai/ha and KIH-485 at 0.16 kg ai/ha 171 days after emergence. Using a systems approach, preplant incorporated (PPI) class=SpellE>clomazone and/or s- class=SpellE>metolachlor followed by preemergence (PRE) application of paraquat + linuron+ non-ionic surfactant was also found to control and reduce biomass of GR Italian ryegrass.
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