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Interactions between arbuscular mycorrhizal fungi and other root-infecting fungi / Rina Sri Kasiamdari.Kasiamdari, Rina Sri January 2001 (has links)
Bibliography: leaves 172-197. / xvii, 197 leaves : ill. (chiefly col.) ; 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 Soil and Water, 2002?
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The development of a wall-less plug for planting stock of forest trees.Schuermans, Jean. 14 November 2013 (has links)
High output commercial nurseries that cater for the forestry industry are continuously
challenged to efficiently and cost effectively produce good quality planting stock to establish
large plantations. Currently, South African commercial nurseries produce planting stock in
solid compartmentalized trays. One of the major drawbacks of these containers is the
susceptibility of trees to root deformation following outplanting, combined with the need for
the return of empty containers to the nursery. A potential solution to these challenges is the
introduction of wall-less plugs for the production of planting stock. Wall-less plugs are
volumes of growing medium, usually cylindrical in shape, devoid of an impenetrable wall in
which a plant can grow and establish itself. Such plugs may enable the production of planting
stock with improved root systems, without the need for the return of empty containers after
outplanting. In this research four prototypes of wall-less plugs were developed, produced on a
small scale and tested. These were: 1) Paper-maché plugs made using the original WRIBLOK
protocol whereby composted pine bark was bound together with repulped newspaper, 2)
Sponge blocks, 3) Hessian bags and 4) Covetan bags. The performance of these prototype
wall-less plugs was compared with the performance of four tray types used commercially by
the forestry industry: 1) Poly 128 shallow, 2) Poly 98 deep, 3) Unigro 128 and 4) Sappi 49.
These are polystyrene and polypropylene-based containers. Of these containers the Unigro
128 and Sappi 49 containers were of similar performance. Performance in terms of height and
root collar diameter increase over ten weeks from the time of sowing of the paper-maché
plugs was similar to that of the Unigro and Sappi 49 containers. The sponge block, Hessian
bags and Covetan bags produced inferior quality planting stock compared to the other
treatments tested.
Although little progress was made in the ability to describe how one root system differs from
another in terms of their branching patterns, a technique was developed to determine root
surface area by image analysis software that is freely available. This method may prove useful
for further research and for determining seedling quality in commercial nurseries. / Thesis (M.Sc.Agric.)-University of KwaZulu-Natal, Pietermaritzburg, 2011.
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Processes and effects of root-induced changes to soil hydraulic propertiesScanlan, Craig Anthony January 2009 (has links)
[Truncated abstract] Root-induced changes to soil hydraulic properties (SHP) are an essential component in understanding the hydrology of an ecosystem, and the resilience of these to climate change. However, at present our capacity to predict how roots will modify SHP and the consequences of this is limited because our knowledge of the processes and effects are highly fragmented. Also, current models used to investigate the relationship between plants and root-induced changes to SHP are based on empirical relationships which have limited applicability to the various and often contrasting ecosystems that occur. This thesis focuses specifically on the quantifying the processes by which roots modify SHP and developing models that can predict changes to these and the water balance. Both increase and decreases in saturated hydraulic conductivity have been attributed to the presence of roots. In general, decreases occur when the root system is relatively young, and increases occur when the roots senesce and begin to decay, creating voids for water flow. The evidence available suggests that the change in pore geometry created by roots is the dominant process by which roots modify SHP because they are more permanent and of a greater magnitude than changes to fluid properties or soil structure. We first quantified the effects of wheat roots on SHP of a coarse sand with a laboratory experiment where we measured changes in both SHP and the root system at 3, 5, 7 and 9 weeks after sowing (weeks). ... The main message that can be drawn from this thesis is that root-induced changes to SHP are dynamic, and dependent upon the combination of soil texture, connectivity of root-modified pores and the ratio of root radius to pore radius. Consequently, root-induced changes to the water balance have the same dependencies. The work in this thesis provides a significant first step towards improving our capacity to predict how roots modify soil hydraulic properties. By defining the range for the parameters used to predict how the soil is modified by roots, we are able to make quantitative assessments of how a property such as hydraulic conductivity will change for a realistic circumstance. Also , for the first time we have measured changes in soil hydraulic properties and roots and have been able to establish why a rapid change from a root-induced decrease to increase in Ks occurred. The link between physiological stage of the root system, and the changes that are likely to occur has implications for understanding how roots modify SHP: it may provide an effective tool for predicting when the switch from a decrease to increase occurs. Further work is required to test the validity of the assumptions we have made in our models that predict changes to SHP. While we have endeavoured to define the parameter space for those parameters that we have introduced, there is still some uncertainty about the connectivity of root-modified pores. Also, the parameterisation of the soil domain with roots is based upon work that measures 'fine' roots only which may not provide a true representation of the effect trees and perennial shrubs have on SHP. It is inevitable that root-induced changes to SHP will affect the fate of solutes in the soil, and temporal dynamics of root-induced changes to these may be particularly important for the timing of nutrient and pesticide leaching.
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Dynamique d'installation du système racinaire de la régénération pré-établie de l'épinette noire (Picea mariana B.S.P.) après coupe /Hardy, Sophie, January 1998 (has links)
Mémoire (M.Ress.Renouv.)--Université du Québec à Chicoutimi, 1998. / Document électronique également accessible en format PDF. CaQCU
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Effet d'une épidémie de la tordeuse des bourgeons de l'épinette sur la croissance de la tige et le développement racinaire des semis de sapin dans des sapinières boréales /Dubé, Marie-Christine, January 1999 (has links)
Maîtrise (M.Ress.Renouv.)--Université du Québec à Chicoutimi, 1999. / Document électronique également accessible en format PDF. CaQCU
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The distribution of vesicular-arbuscular mycorrhizal fungi in the Savanna regions of Nylsvley Nature Reserve in relation to soil fertility factorsDames, Joanna Felicity January 1991 (has links)
Thesis (M.Sc.)--University of the Witwatersrand, Faculty of Science, School of Botany, 1991 / The vegetation of the Nylsvley Nature Reserve situated in the Northern Transvaal, South Africa.
is a semi·arid savanna dominated by Burkea qfricana and Eragrostis paUensf interspersed with
patches of Acacia s_pp.and E, ie/t(lnumni(.ma. The Butkea savanna is established on soil which is
naturally low in phosphorus while the A,,;acia savanna is established on soU with higber phosphorus
levels. Spnres of vesictdar~arbusculat mycorrhizal (VAM) fungi Were extracted from soil samples
by wet 8i:¢ving and sucrose ("mttifugation after which they.· were enumerated .and identified.
Thirteen VAM species were isolated from the savanna regions. The population was composed of
three Gloltlus spp .• four .4cQulosp()ra spp., one .Gigaspora sp., three Scutel!ispora spp. and tWQ
species of uncertain identity. Root samples were cleated. and stained with acidic glycerol·tcypan
blue and assessed for mycoufMal colonization.
Significant positive correlations were indicated. between spore densities ar.d mycorrhizal root
infection. The total 81)01:'e popUlation was negntively correlated wiUlavailuble P, organic C, K. Ca.
Mg, and pH. ~'tldividual specles differed markedly from the population as a whole in their bltemctions with.,soil facrots, these wem. examined using linear regressions. The VA;M root
colonization as assessed b)! the mycorrhizal % WassigIlfijcant!y negativr1v: (forrelated with P white.
the frequency % was. negatively correlated. Wilh P and K. .The inter-relatidhs!;tips 'between the
d.ifferentVA1\i ,species and enviro~~eiita1 factors were further explored using prinCipal com'ponent
ana,lyt;ls. the population structure and the factors affecting the population ate discussed.
..bltemctions with.,soil facrots, these wem. examined using linear regressions. The VA;M root
colonization as assessed b)! the mycorrhizal % WassigIlfijcant!y negativr1v: (forrelated with P white.
the frequency % was. negatively correlated. Wilh P and K. .The inter-relatidhs!;tips 'between the
d.ifferentVA1\i ,species and enviro~~eiita1 factors were further explored using prinCipal com'ponent
ana,lyt;ls. the population structure and the factors affecting the population ate discussed. / MN (2017)
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A Lateral Root Defect in the wag1-1/wag2-1 Double Mutant of ArabidopsisRowland, Steven D. 07 August 2012 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / The root system architecture of higher plants plays an essential role in the uptake of water and nutrients as well as the production of hormones. These root systems are highly branched with the formation of post-embryonic organs such as lateral roots. The initiation and development of lateral roots has been well defined. WAG1 and WAG2 are protein-serine/threonine kinases from Arabidopsis that are closely related to PINOID and suppress root waving. The wag1;wag2 double mutants exhibit a strong root waving phenotype on vertical hard agar plates only seen in wild-type roots when the seedlings are grown on inclined plates. Here an additional root phenotype in the wag1;wag2 mutant is reported. The wag1;wag2 double mutant displays both an increased total number and density of emerged lateral roots (approximately 1.5-fold). An increased LRP density of 1.5-fold over wild-type is observed. To ascertain the role of WAG1 and WAG2 in lateral root development we examined promoter activity in the WAG1::GUS and WAG2::GUS lines. The WAG1 promoter showed no detectable activity at any stage of development. The WAG2 promoter was active in stage IV onward,
however there was no detectable activity in the cell types associated with initiation events. The lateral root density and spatial patterning in wild-type, when grown on inclined hard agar plates, was similar to wag1;wag2 on vertical plates. Seedlings of both genotypes were treated with hormones such as auxin and MeJA, and inhibitors. Auxin response in wag1;wag2 was normal with a similar number of LR as the wild-type after treatment. Treatment with MeJA resulted in a similar induction of LRP in both genotypes, however the percent lateral root emergence in wag1;wag2 was reduced while Col-0 was increased compared to controls. Treatment with the calcium blocker tetracaine resulted in wag1;wag2 displaying a wild-type level of LR but had no significant effect on wild-type. Genetic analysis of the wag1;wag2 LR pathway revealed that WAG1 and WAG2 are acting in the same pathway as AUX1, AXR1and PGM1. pgm1-1 was not previously reported to have a LR defect but showed decreased LR formation here, while pgm1;wag1;wag2 had a similar LR density to wag1;wag2. TIR7 and ARG1 were both deduced to operate in separate pathways from WAG1 and WAG2. The data presented here shows that the wag1;wag2 double mutant has an increased number of LR compared to Col-0. This defect appears to be caused by increased pre-initiation events and seems to be tied to the root waving phenotype. However, the treatment with MeJA revealed a possible role for WAG1 or WAG2 in LRP development, potentially under stress conditions. Calcium also seems to play a significant role in the wag1;wag2 LR phenotype, possibly independent of the root waving phenotype.
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Estratégias de aquisição de nutrientes estequiometria ecológica em comunidades de campos rupestres, MG-Brasil / Strategies for the acquisition of nutrients and ecological stoichiometry in rupestrian fields communities, MG-BrazilCandido, Hugo Galvão, 1985 20 August 2018 (has links)
Orientador: Rafael Silva Oliveira / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-20T21:06:58Z (GMT). No. of bitstreams: 1
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Previous issue date: 2012 / Resumo: A disponibilidade de nutrientes tem um papel fundamental na estruturação de comunidades vegetais. Um modelo teórico recentemente proposto por Lambers et al. 2008 postula que em regiões com solos muito antigos e pobres em fósforo e nitrogênio, as espécies dominantes teriam maior proporção de especializações radiculares e menos associações com fungos micorrízicos. Estas regiões foram classificadas como OCBILs (do inglês: old, climatically buffered, infertile landscapes). Este estudo teve como objetivo testar tal modelo e avaliar se comunidades de campos rupestres podem ser categorizadas como OCBILs, avaliar se os campos rupestres podem ser considerados OCBILs mediante uma análise comparativa de um conjunto de caracteres morfofisiológicos das plantas e características físico-químicas do solo, através do estudo de seis comunidades na Cadeia do Espinhaço, Minas Gerais. Selecionamos as dez espécies mais abundantes em cada uma áreas distribuídas ao longo de um transecto de 190 km, totalizando 60 espécies. Avaliamos os atributos foliares (concentração de N, P, análise da massa foliar por unidade de área e razão N:P) e a colonização de raízes por micorrizas. Quimicamente, os solos dos campos rupestres têm baixa disponibilidade de P e N, comparáveis aos solos de outros OCBILs (oeste da Austrália e região do Cabo na África do Sul). A proporção de colonização das raízes das plantas por fungos foi positivamente correlacionada com a [P] do solo de cada comunidade, corroborando o modelo de Lambers em uma escala regional. Espécies de campos rupestres apresentam uma alta razão N:P foliar (média de 43 para todos os campos de estudo), maior que as encontradas nos outros OCBILs, o que sugere uma forte limitação por fósforo. Foram encontradas médias de 183 g m-2 para LMA, 12,46 mg g-1 para o N foliar e de 0,36 mg g-1 para o P foliar. Pelos resultados obtidos propomos que os campos rupestres devem ser classificados também como OCBILs, status que demandaria maior atenção para esses campos ainda pouco estudados e já ameaçados ecologicamente / Abstract: The availability of nutrients plays a key role in structuring plant communities. A theoretical model recently proposed by Lambers et al. (2008) postulates that in regions with very old and poor soils in P and N, the dominant species had a higher proportion of specializations and less root associations with mycorrhizal fungi. These regions were classified as OCBILs (ols, climatically buffered, infertile landscapes). This study aims to test this model and asses whether communities of rupestrian fields might be categorized as OCBILs by analyzing the chemical composition of soil, leaf stoichiometry and % mycorrhizal root colonization by the dominant species in six communities in the Espinhaço Range, Minas Gerais. We selected the ten most abundant species in each of areas distributed along a transect of 190 km, totaling 60 species. We evaluated the leaf attributes (concentration of N, P analysis of leaf mass per unit area and N:P ratio) and colonization of roots by micorrhiza. Chemucally, the soil of the rupestrian fields shows very low availability of P and N, comparable to other soils OCBILs (Western Australia and the Cape region in South Africa). The proportion of root colonization of plants by fungi was positively correlated with [P] soil of each community, supporting the Lambers model's on a regional scale. Species of rupestrian fields have a high N:P ratio leaf (average of 43 for all fields studied), higher than those found in other OCBILs, suggesting a strong limitation by phosphorus. We found average 183 gm.m-2 for LMA, 12,46 mg.g-1 and 0,36 mg.g-1 to P leaf. The results obtained suggests that rupestrian fields should also be classified as OCBILs, status wich would require greater attention to these fields still little studied and already threatened ecologicaly / Mestrado / Ecologia / Mestre em Ecologia
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Impacts of Rhizosphere CO₂ on Root Phosphoenolpyruvate Carboxylase Activity, Root Respiration Rate and Rhizodeposition in Populus spp.Matarese, Dawn Marie 01 January 2010 (has links)
Roots live in and have evolved in a high carbon dioxide (CO₂) environment, yet relatively little research has been conducted on the impacts of soil dissolved inorganic carbon (DIC) on root metabolism. In this thesis, I explore the impacts of root-zone DIC on whole plant biomass accumulation, water use efficiency, and above-ground gas exchange. In addition, I explore the impacts of root-zone DIC on root processes: root PEP-Carboxylase activity, root respiration rate and root exudation of Krebs cycle organic acids. Root-zone DIC did not impact biomass accumulation, leaf gas exchange parameters or water use efficiency under the growth conditions examined. Root-zone DIC did increase root PEP-Carboxylase activity, but decreased root respiration (both CO₂ production and O₂ consumption) and decreased organic acid exudation rates. Increase in measurement CO₂ partial pressure was found to cause an instantaneous decrease in root CO₂ production, and I provide evidence that changes in root metabolism (CO₂ uptake by roots) are part of the cause of this phenomenon. A hypothesized relationship between root respiration rate and Krebs cycle organic acid exudation was not supported by my data. I conclude that root-zone DIC has important impacts on critical functions of root metabolism, and should be considered as an important abiotic factor much in the same way atmospheric CO₂ is for leaves and whole plant biology.
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Effects of arbuscular mycorrhiza on plant growth of four ornamental annuals (Dianthus chinensis x barbatus, Impatiens wallerana, Petunia x hybrida and Viola x wittrockiana) commonly grown in South AfricaGouveia, Estevam Manuel Rodriques 07 1900 (has links)
Commercial AM fungi isolates, Rhizophagus clarus, Gigaspora gigantea, Funneliformis mosseae, Claroideoglomus etunicatum and Paraglomus occulum were tested on four seasonal ornamentals, Dianthus chinensis x barbatus, Impatiens wallerana, Petunia x hybrid and Viola x wittrockiana planted in peat-base medium. The experiment was conducted in a glasshouse with three replicates in a completely randomised design. Various vegetative (height, width, length, number of leaves, leaf area and dry biomass) and reproductive (number of flowers and buds) plant parts were measured in the course of three months. AM fungi was found to increase seedling growth and reduced seedling mortality rate of all the plants studied. Inoculated plants produced more leaves (16-33%) and grew taller (12-28%). Dry biomass of inoculated Dianthus, Impatiens and Viola plants were significantly increased by 25-53%. All plants under low colonisation rates displayed mycotrophic qualities and net growth output thereof were found to be similar to plants with equal or higher colonisation rate. Mortality were less frequent in inoculated plants and they were also less susceptible to transplant shock. / Agriculture, Animal Health and Human Ecology / M. Sc. (Ornamental Horticulture)
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