Low temperature and soil disturbance effects on winter survival and vigour in spring of arbuscular mycorrhiza fungus

Wang, Baoling, 1965-

January 1999

Mycorrhiza is an association between a host plant and a soil fungus. Experiments were conducted to determine low temperature and soil disturbance effects on AM fungus winter survival and vigour in spring. The results showed that cool temperatures significantly reduced plant root growth and delayed AM formation. Glomus intraradices sporulation was highest at 23°C, while spore metabolic activity was significantly reduced with temperature below 10°C. Root length and colonization percentage decreased at 10°C. Mycorrhizal fungi increased 32P activity of leek leaves at a root zone temperature of 23°C 7 days after 32P injection, and at both 23°C and 15°C 14 days after injection. No difference was found at 0°C between mycorrhizal and non-mycorrhizal plants. Amounts of total and metabolically active spores and hyphae varied over sampling times. The infectivity of AM fungi was not affected by soil disturbance, but varied among the sampling times.

Tillage.

RNA Interference-Based Approach to Combat Viral Infections: Vesicular Stomatitis Virus Group Prototype

Ramirez Carvajal, Lisbeth

2011 August 1900

Vesicular stomatitis virus (VSV) is considered a prototype for studying non-segmented negative-stranded ribonucleic acid (RNA) viruses. Livestock are naturally infected by VSV, causing severe economic impact due to lack of any effective treatment. RNA interference (RNAi)-based therapeutics are promising alternatives to control viral infections. Lentiviral vector systems deliver artificial short hairpin RNA (shRNA) into the genome of cells to activate the RNAi pathway. In this study, an RNAi-based approach to generate cell lines with reduced susceptibility to VSV (Indiana) infection was tested. First, eight shRNAs targeting either the nucleocapsid (N), phosphoprotein (P), or the polymerase (L) viral genes were designed and introduced into cell systems. To test the potency of the shRNAs for silencing the target viral transcripts, semi-quantitative polymerase chain reaction (PCR) analysis of viral N, P, and L transcripts was performed. Then, supernatants from infected groups were evaluated by microtitration and immunoblot. Finally, the effect of VSV genomic variability in the target region of shRNAs was predicted by partial sequencing field and laboratory-adapted strains. Viral transcripts were significantly reduced in cells stably expressing shRNAs targeting the N viral gene (nucleotides 67-97 or 1312-1332; p<0.05) or P gene (nucleotides 1772-1792; p&lt;0.05). Reduction in viral transcripts was not observed by other VSV-shRNAs tested. Reduction of viral transcripts by the N-shRNA (sh-1312) was accompanied by a decrease in viral protein. Also, a reduction in the viral particles shed from cells expressing N-shRNAs (nucleotides 67-97, p&lt;0.05) was noted. The results also showed complementarity of target gene sequences for shRNAs in the sequence from the laboratory-adapted strain and single base substitutions in the corresponding regions from VSV field isolates. However, these mismatches did not occur within the seed region of the shRNAs. In conclusion, partial silencing of viral transcripts by a single shRNA does not block VSIV replication; however, partial impairment of VSIV replication was observed in N-shRNAs expressing cells. During infection, the naturally high level of N gene transcription may have modulated the sh-RNA effect. The combination of the most potent shRNAs identified here into a multiple shRNA vector may result in further reduction of viral replication. These data contribute to ongoing development of effective RNAi-based technologies to combat viral diseases.

RNA interference

Vesicular Stomatitis Virus

antiviral approach

The role of mycorrhizal symbiosis in plant intraspecific competition and population structure

Facelli, Evelina

January 1998

The overall objective of this project was to investigate the effects of the symbiotic association of plants with vesicular - arbuscular mycorrhizal fungi on the intensity of intraspecific competition and its consequences on population structure I performed four main glasshouse experiments using a non - cultivated species, Rhodanthe chlorocephala ssp rosea, or a cultivated species, Trifolium subterraneum. I grew the plants at different plant densities, under different levels of resources ( phosphorus and / or light ), in environments with homogeneous and / or patchy distribution of phosphorus ( P ). In pots with homogeneous distribution of P, the addition of P to R. chlorocephala and mycorrhizal infection in T. subterraneum increased plant biomass of single plants. However, these beneficial effects were reduced by increasing plant density. Shading of plants of T. subterraneum did not generally alter these effects. Mycorrhizal symbiosis and the addition of P always increased the intensity of plant intraspecific competition. In trays with patchy or homogeneous distribution of P, mycorrhizal infection and patchy distribution of P increased the total biomass and size inequality of populations of plants of T. subterraneum. Individual biomass was determined by the local soil P concentration in patchy environments and by mycorrhizal infection in low density treatments. Mycorrhizal infection, but not patchy P distribution, increased relative competition intensity. Asymmetric or symmetric distribution of resources between plants will change these size hierarchies. The distinction between these two types of distributions has lead to two different models explaining the interaction between competition and size inequality ( degree to which the biomass is concentrated within a small fraction of the population &# 40 Weiner and Thomas 1986 ) ) the resource depletion and resource pre - emption models ( Weiner and Thomas 1986, Weiner 1988b ). In the first model ( resource depletion ) competition reduces the relative growth rate of all the individuals by the same proportion, reduces variance of growth rates and reduces variation in sizes. Thus, in this model resource acquisition is proportional to plant size ( Weiner 1990 ). This model is also called symmetric or two - sided competition and applies when competition for nutrients predominates. It predicts that at high density, plants will be smaller but the population will have less inequality than at low density ( Weiner and Thomas 1986 ). In the second model ( resource pre - emption ), competition increases the variation in relative growth rates and increases variation in sizes. Large plants obtain a more than proportional share of the resources ( relative to sizes ) ( Weiner 1990 ) and this increases their competitive ability which results in a positive feedback on plant size. This phenomenon is also called snowball cumulation, asymmetric or one - sided competition and it was observed only when competition for light was predominant ( Wilson 1988a ). This second model predicts that at high density plant populations will have more inequality than at low density ( Weiner and Thomas 1986 ). Although these two models are generally accepted, alternative analyses and recent experiments show that the degree of asymmetry of the interaction depends on the spatial and temporal distribution of the resource, the spatial distribution of the individuals in the population, neighbourhood competition and the mobility of the resource ( Huston 1986 ; Miller and Weiner 1989, Weiner 1990, Bonan 1991 ). Weiner ( 1990 ) suggested that if nutrients are distributed homogeneously and the uptake is proportional to root size, the competitive interaction will be more symmetric, whereas if patches with more nutrients can be reached by large individuals, asymmetric competition will predominate. This hypothesis has not been tested yet. Turner and Rabinowitz ( 1983 ) found that populations with an initial random spatial distribution of individuals had an unexpected increase in size inequality. My results emphasise that the main effects of mycorrhizas at the individual level cannot be expected to be apparent at the population level, because of the influence of density - dependent processes. However, infected individuals with a strong response to the symbiosis would have an advantage in situations of competition. This scenario can explain the maintenance of the symbiotic ability even under conditions such as dense populations, where there is no obvious advantage of the symbiosis at the population level. / Thesis (Ph.D.)--Department of Soil and Water, 1998.

Development of molecular probes to distinguish vesicular-arbuscular mycorrhizal fungi /

Sulistyowati, Emy.

January 1995

Thesis (M. Ag.)--University of Adelaide, Depts. of Plant and Soil Sciences, 1995. / Includes bibliographical references (leaves 71-79).

Effects of soil compaction on growth and P uptake by Trifolium subterraneum colonised by VAM fungi /

Ghomsheh, Habib Nadian.

January 1997

Thesis (Ph. D.)--Dept. of Soil and Water, Waite Agricultural Research Institute, University of Adelaide, 1994. / Includes bibliographical references (leaves 146-170).

The role of mycorrhizal symbiosis in plant intraspecific competition and population structure /

Facelli, Evelina.

January 1998

Thesis (Ph.D.)--University of Adelaide, Dept. of Soil Science, 1999. / Bibliography: leaves 135-156.

Effects of arbuscular-mycorrhizal fungal colonization on management of saline lands

Asghari, Hamid Reza.

January 2004

Thesis (Ph.D.)--University of Adelaide, School of Earth and Environmental Sciences, Discipline of Soil and Land Systems, 2005? / "August, 2004" Title from t.p. on PDF file; viewed 29 June 2005. Includes bibliographical references. Also available in a print form.

Inoculum potential of vesicular-arbuscular mycorrhizal fungi in two Costa Rican soils with different vegetation covers /

Fischer, Christine R.

January 1992

Thesis (M.S.)--Oregon State University, 1992. / Includes mounted photographs. Typescript (photocopy). Includes bibliographical references (leaves 35-39). Also available on the World Wide Web.

The kinetics of neutralizing anti-viral antibodies and the production of a T cell-dependent antibody response during vesicular stomatitis virus infection

Pyle, Emily Claire,

January 2008

Thesis (M.S.)--Northern Michigan University, 2008. / Includes bibliographical references (leaves 75-81).

Diversity of arbuscular mycorrhizal fungi in the roots of perennial plants and their effect on plant performance /

Öpik, Maarja.

January 1900

Thesis (doctoral)--University of Tartu, 2004.