Global ETD Search

81	Assessment of arbuscular mycorrhizal fungi in flax production 2015 October 1900 (has links) Arbuscular mycorrhizal fungi (AMF) play an important role in nutrient cycling and growth of flax (Linum usitatissimum L.). However, limited information is available regarding the symbiotic association between flax and AMF in field environments. A study was conducted to survey AMF communities colonizing flax grown in Saskatchewan. Additionally, field and growth chamber studies investigated the impact of AMF inoculation on nutrient uptake and growth of flax. Eighteen commercial flax fields were surveyed to assess mycorrhizal colonization of flax and to assess the impact of agricultural practices and soil abiotic factors on AMF activity. The flax root-associated AMF communities were explored using a 454 sequencing method, together with microscopic-based measurements of root AMF colonization and soil spore density. High levels of root colonization were detected in most flax fields. Of the 222 AMF operational taxonomic units (OTUs) identified in flax roots, 181 OTUs clustered as Funneliformis-Rhizophagus, 19 as Claroideoglomus, 14 as Paraglomus, six as Diversisporales and two as Archaeospora. Results suggest that tillage influenced the composition of AMF communities colonizing flax, and reduced relative AMF abundance and species richness. Additionally, AMF community characteristics were related to soil abiotic factors such as pH, EC, available phosphorus and nitrogen. Field experiments were conducted over two years (two sites per year) using a commercial AMF inoculant applied at three rates (0, 1X, and 2X the recommended rate) with or without P fertilizer (16.8 kg ha-1). The response of flax cultivars to AMF inoculation was examined in a growth chamber experiment. In addition, 454 sequencing was employed to examine the impact of AMF inoculation on root-associated AMF communities. Under field conditions, only one site showed increased root colonization with AMF inoculation. Flax responded to AMF inoculation differently under different field conditions. At the two sites with intermediate initial soil P level, evidence of increased above-ground biomass and plant nutrient uptake with AMF inoculation was observed. However, such an effect was not detected when P fertilizer was combined with the inoculation. At a low P site and an irrigated site, P application accounted for all of the increases in plant nutrient uptake and biomass of flax, whereas no responses to AMF inoculation were detected. The 454 sequencing revealed different inoculation-induced changes in the diversity and composition of root-associated AMF communities between sites, which was possibly related to different field environments and native AMF communities. In the growth chamber, AMF inoculation resulted in general increases of plant nutrient uptake among cultivars, but only one cultivar showed enhanced biomass with inoculation. The diversity of AMF communities colonizing different flax cultivars was generally reduced by AMF inoculation. Community composition shifted under AMF inoculation, and the shifts appeared to be cultivar specific. These results suggested that benefits of AMF inoculation in flax production are limited and currently not predictable, and the degree of response is likely dependent on a myriad of soil and environmental conditions.
82	Physiological effects of indigenous arbuscular mycorrhizal associations on the sclerophyll Agathosma betulina (Berg.) Pillans Cloete, Karen Jacqueline 10 1900 (has links) Thesis (MSc)--University of Stellenbosch, 2005. / ENGLISH ABSTRACT: The Mountain Fynbos biome, a division of the Cape Floristic Region (CFR), is home to round-leafed Buchu [Agathosma betulina (Berg.) Pillans], one of South Africa’s best-known endangered herbal medicinal plants. Agathosma betulina is renowned as a traditional additive to brandy or tea, which is used for the treatment of a myriad of ailments. In its natural habitat, A. betulina thrives on mountain slopes in acid and highly leached gravelly soils, with a low base saturation and low concentrations of organic matter. To adapt to such adverse conditions, these plants have formed mutualistic symbioses with arbuscular mycorrhizal (AM) fungi. In this study, the effect of indigenous AM taxa on the physiology of A. betulina is investigated. In addition, the AM taxa responsible for these physiological responses in the plant were identified using morphological and molecular techniques. Agathosma betulina was grown under glasshouse conditions in its native rhizosphere soil containing a mixed population of AM fungi. Control plants, grown in the absence of AM fungi, were included in the experimentation. In a time-course study, relative growth rate (RGR), phosphorus (P)-uptake, P utilization cost, and carbon (C)-economy of the AM symbiosis were calculated. The data showed that the initial stages of growth were characterized by a progressive increase in AM colonization. This resulted in an enhanced P-uptake in relation to non-AM plants once the symbiosis was established. Consequently, the lower P utilization cost in AM plants indicated that these plants were more efficient in acquiring P than non-AM plants. When colonization levels peaked, AM plants had consistently higher growth respiration. This indicated that the symbiosis was resulting in a C-cost to the host plant, characterized by a lower RGR in AM plants compared to non-AM plants. Arbuscular mycorrhizal colonization decreased with increasing plant age that coincided with a decline in P-uptake and growth respiration, along with increases in RGR to a level equal to non-AM plants. Consequently, the AM benefit was only observed during the initial stages of growth. In order to identify the AM fungi in planta, morphological and molecular techniques were employed, which indicated colonization by AM fungi belonging to the genera Acaulospora and Glomus. Phylogenetic analyses of a dataset containing aligned 5.8S ribosomal RNA gene sequences from all families within the Glomeromycota, including sequences obtained during the study, supported the above mentioned identification. / AFRIKAANSE OPSOMMING: Die Fynbos bergbioom, ‘n onderafdeling van die Kaapse Floristiese Streek, huisves rondeblaar Boegoe [Agathosma betulina (Berg.) Pillans], een van Suid Afrika se bekendste bedreigde medisinale plante. Agathosma betulina is bekend vir sy gebruik as tinktuur vir die behandeling van verskeie kwale. Die plant kom voor in bergagtige streke, in suur en mineraal-arm grond, met ‘n lae organiese inhoud. Gevolglik, om aan te pas by hierdie ongunstige kondisies, vorm die plante simbiotiese assosiasies met blaasagtige, struikvormige mikorrisa (BSM). In die huidige studie is die effek van hierdie BSM op die fisiologie van A. betulina ondersoek. Die identiteit van die BSM is ook gevolglik met morfologiese en molekulêre identifikasie tegnieke bepaal. Agathosma betulina plante is onder glashuis kondisies in hul natuurlike grond gekweek, wat ‘n natuurlike populasie van BSM bevat het. Kontroles is ook in die eksperiment ingesluit en hierdie stel plante is met geen BSM geïnokuleer nie. Gevolglik is die relatiewe groeitempo, fosfor opname, fosfor verbuikerskoste asook die koolstof ekonomie van die plante bereken. Die data het getoon dat die eerste groeifase gekarakteriseer is deur toenames in BSM kolonisasie vlakke. Dit het tot ‘n hoër fosfor opname in BSM geïnokuleerde plante gelei. Die laer fosfor verbuikerskoste gedurende hierdie fase het aangedui dat die plante wat geïnokuleer is met BSM oor beter meganismes beskik het om fosfor uit die grond te bekom. Toe BSM kolonisasie vlakke gepiek het, was groei respirasie hoër in BSM geïnokuleerde plante as in die kontroles. Dit het aangedui dat die BSM kolonisasie van plante tot hoër koolstof kostes vir hierdie plante gelei het, wat weerspieël is in die laer groeitempo van die BSM geïnokuleerde plante. Die BSM kolonisasie vlakke het gedaal met toenemende ouderdom van hul gasheer plante, wat gekarakteriseer is deur ‘n laer opname van fosfor en laer groei respirasie, tesame met ‘n toename in relatiewe groeitempo tot vlakke soortgelyk aan die van die kontrole plante. Die BSM voordele vir die plant is dus net gedurende die eerste groeifase waargeneem. Die BSM wat verantwoordelik is vir hierdie fisiologiese veranderinge is gevolglik geïdentifiseer met behulp van morfologiese en molekulêre tegnieke en dit is gevind dat BSM wat behoort tot die genera Acaulospora en Glomus binne hierdie plante voorkom. Filogenetiese analise gegrond op opgelynde 5.8S ribosomale RNA geen volgordes afkomstig van al die families binne Glomeromycota asook volgordes gevind in die studie, het die bogenoemde identifikasie gestaaf. Mycorrhizal fungi Symbiosis Fynbos ecology Fynbos -- Effect of fires on Agathosma betulina Theses -- Microbiology Dissertations -- Microbiology
83	On the Ecology and Restoration of Podocarpus cunninghamii in the Eastern South Island High Country Williams, Alwyn January 2010 (has links) Podocarpus cunninghamii is an endemic New Zealand conifer that, in pre-human times, formed extensive forest communities across the eastern South Island high country. Anthropogenic disturbances have reduced the distribution of Podocarpus cunninghamii communities such that they now exist mainly as small and isolated remnants within a highly modified, predominantly pastoral landscape. Very little is known of the ecology of high country Podocarpus cunninghamii communities, and without this information it is not possible to develop an ecological basis for their restoration. This thesis explores the ecology of Podocarpus cunninghamii in the eastern South Island high country, investigating factors that potentially affect the restoration of Podocarpus cunninghamii within this environment, with special attention paid to the role of arbuscular mycorrhizal fungi (AMF). Field investigations of Podocarpus cunninghamii communities showed that they contain a high degree of floristic and structural variation determined by soil and climatic variables. Analysis of age and size class distributions suggest that Podocarpus cunninghamii has more than one regeneration strategy, and can regenerate within intact forest following the opening of small canopy gaps or can undergo large-scale recruitment following catastrophic disturbance. Field and glasshouse experiments investigating growth and nutrient responses of Podocarpus cunninghamii to different AMF inoculants found that Podocarpus cunninghamii responses are dependent on both AMF type and grass competition. Finally, investigation of Podocarpus cunninghamii carbon stocks showed that they are less than that of other New Zealand forest types, but are greater than that of grazed pastures. Successful restoration of high country Podocarpus cunninghamii communities will require the incorporation of associated species based on local environmental conditions, and will also need to allow for disturbance processes. AMF may have an important role to play in restoration by reducing seedling production times and by increasing the competitiveness of Podocarpus cunninghamii when in competition with exotic grasses. arbuscular mycorrhizal fungi ecology forest high country mycorrhizae New Zealand Podocarpus cunninghamii restoration South Island totara
84	Phosphorus cycling in organic systems 2014 January 1900 (has links) Soil phosphorus (P) is often unavailable in SK soils due to immobilization by microbial biomass and complexation with cations. The prohibition of synthetic fertilizer use in organic systems means farmers rely on crop rotation or approved inputs to supply P for crops. Legumes in crop rotation add P to soil through decomposition and deposition, and approved fertilizers such as bone meal (BM), rock phosphate (RP), and composted manure add P to soil through dissolution. Arbuscular mycorrhizal fungi (AMF) improve crop access to soil P. The fungi colonize roots of host crops, allowing roots to reach immobile pockets of soil P. Colonization by AMF is usually decreased or delayed following partial fallow periods, non-host plants, and the addition of soluble P fertilizers. This thesis consists of two studies. For the first, the effects of crop rotation were tested on AMF colonization and soil P dynamics. Colonization by AMF of mycorrhizal crops was examined following a non-mycorrhizal crop, a partial fallow period, and mycorrhizal crops. All crops were colonized evenly (63-70%) at flowering despite non-mycorrhizal and partial fallow periods, and the sequence most depleted in soil N (wheat-barley) had the lowest colonization in August (36%). The second study evaluated soil P and plant N and P after applications of BM, hydroxyapatite (HAP), and sheep manure compost. Compost application increased plant P uptake compared to the control (1.26 vs. 0.71 mg pot-1), while applications of BM and HAP alone did not. Compost application did not affect AMF colonization of wheat (Triticum aestivum L.). Overall this research highlights the importance of legumes and composted manure use in organic systems. Legume use in crop rotation simultaneously increased soil P deposition and may have preserved AMF communities despite fallow periods and non-host crops in rotation. Conditions normally affecting AMF colonization in conventional systems did not apply. The use of composted manure in the greenhouse study resulted in the greatest P uptake and concentrations in wheat. Thus the use of legumes and composted manure may increase P availability to crops directly and indirectly: directly through soil P deposition and perhaps indirectly through the preservation of AMF communities.
85	Extent of intra-isolate genetic polymorphism in glomus etunicatum using a molecular genetic approach Zimmerman, Erin January 2009 (has links) Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal. Champignons mycorhiziens à arbuscules Hétérocaryose Polymorphismes de l'ADN Ségrégation des noyaux Arbuscular mycorrhizal fungi Heterokaryosis DNA polymorphism Nuclear segregation
86	Biodiversité des rhizobiums et interactions tripartite dans le groupe Piptadenia (tribu des Mimoseae) / Biodiversity of rhizobia and tripartite interactions in the Piptadenia group (tribe Mimoseae) Bournaud, Caroline 05 December 2012 (has links) Les espèces du groupe Piptadenia sont des légumineuses endémiques du Brésil, dont la plupart sont des arbres capables de se développer sur des sols peu fertiles faisant d'eux de bons candidats pour le reboisement des terres dégradées. Les Piptadenia établissent une symbiose à la fois avec des champignons mycorhiziens à arbuscules (CMA) et des rhizobiums. Ces espèces sont proches du genre Mimosa, connu pour son affinité pour les symbiotes du genre Burkholderia. Dans ce travail de thèse nous décrivons la biodiversité des symbiotes rhizobiums associés au groupe Piptadenia, et élargissons l'affinité des Burkholderia à ce groupe de légumineuses. Les études phylogénétiques sur des marqueurs neutres et symbiotiques montrent une origine stable et ancienne de la symbiose Burkholderia/Mimoseae. Les études de spécificité d'association entre espèces de Burkholderia et espèces de Piptadenia montrent que cette dernière est lâche, les patterns d'association étant davantage liées aux sites prospectés au Brésil plutôt qu'à une sélection par l'hôte. Dans un second temps, nous avons étudié l'association tripartite entre plusieurs génotypes de Burkholderia, un CMA (Glomus clarum), et l'espèce Piptadenia gonoacantha, décrite dans la littérature comme formant une nodulation mycorhize-dépendante. Nos travaux montrent que la nodulation n'est pas CMA-dépendante, mais par contre l'efficience symbiotique des nodules dépend de la mycorhization pour certains génotypes de Burkholderia. Nous décrivons également des interactions entre symbiose rhizobienne et mycorhizienne au sein des nodules (présence du CMA dans les nodules avec sporulation dans certaines combinaisons de symbiotes). Ces travaux soulèvent la nécessité de prendre en compte les interactions génotype-génotype entre symbiotes rhizobiens et mycorhiziens lors de la sélection des inoculums dans le cadre des programmes de revégétalisation au Brésil par des arbres du groupe Piptadenia. / The Piptadenia group comprise endemic species from Brazil of which many are trees able to develop on poorly fertile soils and are good candidates for revegetation programs. Piptadenia species establish symbioses with both arbuscular mycorrhizal fungi (AMF) and rhizobia. These species are phylogenetically close to the Mimosa genus, known for its affinity for Burkholderia rhizobial symbionts. In this thesis we describe the biodiversity of rhizobial symbionts associated to the Piptadenia group, and enlarge the affinity towards Burkholderia to this group of legumes. Phylogenetic studies on neutral and symbiotic markers show a stable and ancient symbiosis Burkholderia/Mimoseae. Specificity studies between Burkholderia and Piptadenia group species show that specificity is not strong, and that patterns of associations between partners are isolation site dependent rather than linked to the host legume. In the second part of this thesis we have studied the tripartite association between several Burkholderia genotypes, an AMF (Glomus clarum), and Piptadenia gonoacantha (Pg), a legume species described as making an AMF-dependent nodulation (Jesus et al., 2005). Our experiments show that nodulation in Pg is not AMF-dependent, but that symbiotic efficiency of nodules rely on AMF presence for specific Burkholderia genotypes. We also describe interactions between rhizobial and mycorrhizal symbiosis (AMF presence in nodules, with sporulation in several symbionts combinations). Our work underlines the necessity to consider genotype-genotype interactions between rhizobial and AMF symbionts for the selection of synergistic inoculums in revegetation programs using Piptadenia group species in Brazil. Symbiose Piptadenia Burkholderia Biodiversité Mycorhize Rhizobium Symbiosis Piptadenia Burkholderia Biodiversity Mycorrhizal fungi Rhizobium
87	Análise de seqüências expressas em raízes de cana-de-açúcar colonizadas por Glomus clarum / Expressed sequences analisys from sugarcane roots colonized with Glomus clarum Takahashi, Daniele 12 December 2005 (has links) A formação de micorrizas arbusculares é um processo regulado geneticamente e envolve alterações da expressão gênica da planta e do fungo. Poucos genes essenciais para o desenvolvimento da simbiose foram identificados até o presente. Para identificar genes possivelmente envolvidos no controle da colonização fúngica intrarradicular, o perfil de seqüências expressas em raízes de cana-de-açúcar colonizadas por Glomus clarum, em condições de baixo e alto fósforo (P), foi avaliado através do seqüenciamento em larga escala de ESTs e hibridização em macroarranjos de cDNAs. Plântulas micropropagadas de cana-de-açúcar foram plantadas em vasos contendo substrato composto por areia:vermiculita (3:1, vol/vol) e adubado com 20 ou 200 mg P kg-1 de substrato e inoculadas com Glomus clarum. A biomassa seca da parte aérea e a taxa de colonização micorrízica das raízes foram avaliadas no momento da colheita que foi feita oito ou doze semanas após o plantio. O RNA poliA foi extraído das raízes e utilizado para a síntese de cDNAs. Neste trabalho, quatro bibliotecas de cDNA e uma biblioteca subtrativa supressiva foram preparadas a partir de cDNAs de raízes de cana-de-açúcar colonizadas por G. clarum. Esta abordagem resultou na identificação de 1,925 ESTs as quais foram agrupadas em 1615 genes supostamente regulados pela micorrização. Estes clones foram analisados por Northern blots eletrônico, e aqueles que foram diferencialmente expressos foram submetidos a hibridização em macroarranjos de cDNAs. Um total de 386 genes foram arranjados em membranas de náilon e sua expressão avaliada por sondas sintetizadas a partir de cDNA extraído de raízes em diferentes condições. Dentre os genes com expressão diferencial significativa estatística em raízes colonizadas por G. clarum, em condições de baixo e alto P, foram detectados genes codificando proteínas putativamente envolvidas na percepção de moléculas sinais (receptor tipo quinase de proteína), transporte de íons (canais de íons), transdução de sinais (quinases de proteína e calmodulina), regulação da transcrição (fatores de transcrição), alterações de parede celular e citoesqueleto (extensina, arabinogalactanas, tubulinas), respostas de defesa e estresse (síntese de fitoalexinas e metalotioneínas), síntese de fitohormônios (nitrilase). Os dados sugerem que a transdução de sinais em MAs se dá através da fosforilação de proteínas e que a indução de respostas anti-oxidantes pode ser importante para o desenvolvimento da simbiose. Da mesma forma, os dados sugerem que a atividade de aspartatoproteases podem ser essenciais para o controle do crescimento fúngico intrarradicular. A caracterização desses genes e seus padrões de expressão em MAs poderá elucidar os mecanismos genéticos envolvidos no controle da simbiose. / The formation of arbuscular mycorrhizae (AM) is a genetically regulated process and involves alteration in both plant and fungus gene expression. Few genes essential for the development of the symbioses have been identified so far. In order to identify genes possible involved in the intraradical fungal colonization control, the profiles of expressed sequences in sugarcane roots colonized roots with Glomus clarum at low or high phosphate (P) conditions were evaluated using large scale EST sequencing and cDNA macroarray hybridization. Sugarcane micropropagated seedlings were planted in pots containing sand:vermiculite (3:1, vol:vol), and fertilized with 20 or 200 mg P kg-1 substrate. Seedlings were inoculated with G. clarum and cultivated under greenhouse conditions for 8 or 12 weeks. After harvesting shoot dry weight and root colonization rates were evaluated. PolyA RNA was extracted from the root tissues and used for cDNA synthesis. In this work, one suppressive subtractive library and four cDNA libraries were synthesized using cDNA from sugarcane roots not-colonized or colonized by G. clarum, at low and high P conditions. This approach resulted in the identification of 1,925 ESTs which were clustered in 1,615 genes. The expression of these genes was evaluated using electronic Northern blots. A total of 386 genes with putative differential expression were spotted into nylon membranes in macroarrays and their expression profiles in roots under different conditions were evaluated using macroarray hybridization. Among the genes with statistically significant differential expression, in roots colonized by G. clarum grown at low or high P conditions, it was detected genes encoding proteins putatively involved in the perception of signal molecules (receptor-like protein kinase), ion transporte (channel-like protein precursor), signal transduction (protein kinases and calmodulin), transcriptional regulation (transcription factor), cell wall and cytoskeleton alterations (extensin, arabinogalactans, and tubulins), defense and stress responses (phythoalexins synthesis and metalothioneins), and phytohormone biosynthesis (nitrilases). Our data suggest that the signal transduction in AM occurs through protein phosphorylation, and that the induction of anti-oxidant responses may be important for the development of the symbioses. Additionally, the data suggest that aspartic-proteases might be essential for the control of intraradical fungal growth. Further characterization of these genes and their expression patterns in AM would contribute to elucidate the genetic mechanisms controlling the symbioses. cana-de-açúcar DNA sequency fungo micorrizico mycorrhizal fungi raiz root seqüênciamento genético sugarcane
88	Análise da expressão gênica diferencial causada pela interação de feijoeiros (Phaseolus vulgaris L.) e fungos micorrízicos arbusculares sob efeito de déficit hídrico / Differential gene expression analysis induced by the interaction between common beans (Phaseolus vulgaris L.) and arbuscular mycorrhizal fungi under drought Recchia, Gustavo Henrique 04 December 2015 (has links) A seca é um dos principais problemas que afetam a produção do feijoeiro. A despeito da importância de caracteres fenotípicos radiculares, muitos dos esforços de melhoramento genético da cultura tem focado na seleção de cultivares com maior produção de grãos. A simbiose estabelecida entre plantas e FMA aumentam o potencial de captação de água no solo através das extensas redes formadas pelas hifas e alteram vias metabólicas vitais para a manutenção das relações hídricas da planta. O modelo de interação feijoeiro (BAT 477) colonizado por uma mistura de FMA (Glomus clarum, Acaulospora scrobiculata e Gigaspora rosea) foi submetido a um déficit hídrico de 96 h durante o pré-florescimento. O transcritoma global de raízes inoculadas e não-inoculadas, sujeitas ou não à seca, foi comparado por RNA-Seq. Um conjunto de 71 transcritos foram induzidos por FMA durante a seca. Comparando-se os tratamentos estresse e controle, 12.086 unigenes foram regulados em plantas inoculadas e 11.938 em não-inoculadas, refletindo o alto potencial de tolerância da linhagem BAT 477 e indicando que a presença de FMA produz uma regulação fina no perfil de expressão de genes regularmente envolvidos na resposta da planta ao estresse. Foram selecionados 15 fatores de transcrição e seus perfis de expressão foram caracterizados por RT-qPCR tomando-se três períodos, 48, 72 e 96 h de déficit hídrico. Plantas inoculadas ativaram a expressão destes genes mais tardiamente (após 72 h), refletindo melhorias nas condições hídricas da planta que adiam a percepção do estresse. Adicionalmente, a expressão de 23 transcritos foi avaliada em três amostras teciduais diferentes obtidas por microscopia de microdissecção a laser. Glucan 1,3 ?-Glucosidase e PIP2,3, foram detectados somente em células do córtex radicular contendo arbúsculos indicando uma possível indução tecido específica dependente da presença dos fungos. Análises complementares apontaram a regulação de 171 unigenes envolvidos na resposta das FMA ao estresse. Estes resultados validam a hipótese inicial de que a inoculação com FMA altera os perfis de expressão de genes vitais para a resposta da planta ao déficit hídrico / Drought is one of the main problems that affect common bean\'s production. Despite the importance of root fenological characters, breeding efforts for the culture have focused on the selection of cultivars for grain yield. The symbiosis stablished between AMF and plants enhances the potential of water absorption from the soil through an extensive net formed by hyphae and alters vital metabolic pathways involved in the maintenance of the water relations in plants. The interaction model common bean (BAT 477) colonized by a mixture of AMF (Glomus clarum, Acaulospora scrobiculata and Gigaspora rosea) was exposed to a water deficit regime of 96 h during pre-flowering. Global transcriptome from inoculated and non-inoculated roots, exposed or not to drought, were compared through RNA-Seq. A set of 71 transcripts was induced by AMF during drought. Comparing both stress and control treatments, 12,086 unigenes were regulated in inoculated plants, and 11,938 in non-inoculated, reflecting the great tolerance potencial of the lineage BAT 477 and indicating that the presence of AMF produces a fine tune regulation on the expression of genes regularly involved on the drought response of the plant. It was selected 15 transcription factors and their expression profiles were characterized through RT-qPCR taking 3 periods, 48, 72 and 96 h of water deficit. AM plants activated earlier (after 72 h) the expression of these genes, reflecting improvements on the water conditions of the plant that delay the stress perception. Additionally, the expression of 23 transcripts was evaluated on three different tissue samples obtained through laser microdissection microscopy. Glucan 1,3 ?-Glucosidase and PIP2,3, were detected only in cortical cells containing arbuscules, pointing to a possible tissue specific induction dependent of the presence of the fungus. Additional analysis point to the regulation of 171 unigenes involved on the response of the AMF to drought. These results corroborate the initial hypothesis that the inoculation with AMF alters the gene expression profiles of genes that are vital for water deficit response in plants Arbuscular Mycorrhizal Fungi Drought Fungos micorrízicos arbuculares Phaseolus vulgaris Phaseolus vulgaris Seca Transcriptome Transcritoma
89	Biotic Filtering in Endophytic Fungal Communities Ricks, Kevin Daniel 01 June 2018 (has links) Plants can be colonized by complex communities of endophytic fungi. This thesis presents two studies, both of which investigate biotic filtering in endophytic fungal communities. Chapter 1. Endophytic fungi can be acquired horizontally via propagules produced in the environment such as in plant litters of various species. Given that litters from different plant species harbor distinct endophytic fungal communities and that endophytic fungi may be dispersal-limited, the structure of the endophytic fungal community of a given plant may be determined by proximity to particular inoculum sources. Community assembly may also be affected by biotic filtering by the plant. Therefore, a plant may be able to select particular fungal taxa from among the available pool. In that case, the structure of the endophytic fungal community in the plant could be somewhat independent of the structure of the inoculum community. We tested the hypothesis that biotic filtering of endophytic fungal communities occurs in Bromus tectorum by exposing it to a variety of inoculum sources including litters from several co-occurring plant species. The inoculum sources differed significantly from each other in the structures of the communities of endophytic fungi they harbored. We characterized the structures of the resulting leaf and root endophytic fungal communities in Bromus tectorum using high-throughput sequencing. All tested inoculum sources successfully produced complex communities of endophytic fungi in Bromus tectorum. There was significantly more variation in the structures of the communities of endophytic fungi among the inoculum sources than in the resultant endophytic fungal communities in the leaves and roots of Bromus tectorum. These results suggest that biotic filtering by Bromus tectorum played a significant role in the assembly of the endophytic fungal communities in tissues of Bromus tectorum. Because endophytic fungi influence plant fitness, it is reasonable to expect there to be selective pressure to develop a uniform, desirable endophytic fungal community even from disparate inoculum sources via a process known as biotic filtering. Chapter 2. Frequently one finds that different plant species harbor communities that are distinct. However, the nature of this interspecific variation is not clear. We characterized the endophytic fungal communities in six plant species from the eastern Great Basin in central Utah. Four of the species are arbuscular mycorrhizal (two in the Poaceae and two in the Asteraceae), while the other two species are nonmycorrhizal (one in the Brassicaceae and one in the Amaranthaceae). Our evidence suggests that both host mycorrhizal status and phylogenic relatedness independently influence endophytic fungal community structure. community assembly biotic filtering endophytic fungi mycorrhizal fungi natural selection phylogeny Biology
90	Role of the ericoid mycorrhizal fungus Hymenoscyphus ericae in arsenate resistance of Calluna vulgaris at contaminated mine sites Sharples, Jade, University of Western Sydney, Nepean, Faculty of Science and Technology, School of Science January 2000 (has links) Calluna vulgaris L.Hull readily colonises arsenate contaminated mine spoil soils in south-west(SW)England.At these sites, it forms mycorrhizal association with the ericoid ascomycete fungus Hymenoscyphus ericae. The initial aim of this study was to investigate the physiological response of H.ericae populations to arsenate.Mine site populations were found to have evolved arsenate resistance in comparison to the heathland population.This research demonstrates the evolution of arsenate resistance through an enhanced arsenite efflux in populations of H.ericae from As contaminated mine spoil soils. H.ericae also confers arsenate resistance to C.vulgaris. The ecological significance of these findings is discussed. / Doctor of Philosophy (PhD) molecular biology mycorrhizal fungi Hymenoscyphus ericae arsente resistance Calluna vulgaris contamination of mine sites (England)

Search results