Análises do proteoma de raízes de cana-de-açúcar e da expressão de uma peroxidase apoplástica responsiva à micorriza arbuscular / Analysis of the sugarcane roots proteome and expression of an arbuscular mycorrhizaresponsive apoplastic peroxidase

Simão Lindoso de Souza

14 December 2006

Micorrizas arbusculares (MAs) são associações simbióticas entre os fungos do filo Glomeromycota e a maioria das plantas. Os mecanismos moleculares que controlam o processo de colonização e desenvolvimento das MAs são ainda pouco conhecidos, mas proteínas com acúmulo diferencial em MAs podem ter papel regulatório importante. O presente trabalho teve como objetivo detectar, por meio de eletroforese bi-dimensional (2D-PAGE) e espectrometria de massas, proteínas com acúmulo diferencial no fluido intercelular (FI), membrana plasmática ou tecido radicular de cana-de-açúcar colonizada por Glomus clarum. Plântulas de cana-de-açúcar micropropagadas foram inoculadas com G. clarum e cultivadas com 20 ou 200 mg de P kg-1 de substrato. Raízes micorrizadas e não-micorrizadas, 8 semanas após a inoculação, foram utilizadas para a extração de proteínas do FI, membrana plasmática e tecido radicular (solúveis totais). As proteínas foram separadas por 2D-PAGE e analisadas por espectrometria de massas. Os perfis de proteínas solúveis totais e de membrana plasmática não revelaram proteínas relacionadas à simbiose. No entanto, três proteínas do FI, uma hidrolase aspártica putativa, uma histidina quinase putativa e uma peroxidase putativa apresentaram acúmulo induzido em raízes micorrizadas. As atividades de peroxidases nas raízes e apoplasto das raízes foram determinadas. A atividade de peroxidase apoplástica foi maior em raízes colonizadas e cultivadas em baixo teor de P, quando comparado com controles não-inoculados. Com base na seqüência parcial de aminoácidos dessa peroxidase, um fragmento de seu gene (POX1) foi amplificado e clonado a partir de cDNA de raízes de cana-de-açúcar. A sequência obtida mostrou 90% e 91% de identidade com peroxidase de milho (NCBI) e cana-de-açúcar (TIGR), respectivamente. A análise de expressão de POX1 foi feita por PCR quantitativo a partir de transcritos extraídos de raízes micorrizadas e não-micorrizadas, em condições de baixo e alto P. O acúmulo de transcritos de POX1 em raízes micorrizadas em condições de baixo P foi 6,8 vezes maior do que em raízes micorrizadas cultivadas em condições de alto P. Raízes micorrizadas e cultivadas em condições de alto P apresentaram acúmulo de transcritos 3,9 vezes menor do que em raízes nãomicorrizadas cultivadas nas mesmas condições de P. Os dados obtidos sugerem que o controle do metabolismo de espécies ativas de oxigênio é um dos fatores que contribuem para a regulação do desenvolvimento de MAs. Estudos com plantas alteradas para a expressão de POX1 são, no entanto, necessários para elucidar a essencialidade dessa peroxidase nas MAs. / Arbuscular mycorrhizae (AM) are symbiotic associations between fungi of the phylum Glomeromycota and most of the plant species. Even though the molecular mechanisms controlling the colonization process and AM development are largely unknown, proteins with differential accumulation in AM may have important regulatory roles. The aim of this work was to detect, by bi-dimensional electrophoresis (2D-PAGE) and mass spectrometry, proteins with differential accumulation in the intercellular fluid (IF), plasma membrane or radicular tissue of sugarcane colonized by Glomus clarum Micropropagated sugarcane plantlets were inoculated with G. clarum and growth under low or high P conditions, 20 or 200 mg P kg-1 substrate, respectively. Mycorrhizal and non-mycorrhizal roots, eight weeks after inoculation, were used to extract proteins from the IF, plasma membrane and root tissue (total soluble proteins). Protein separation and analyses were performed using 2D-PAGE and mass spectrometry. The total soluble and plasma membrane protein profiles did not reveled symbiosis-related proteins. However, three proteins from the IF, a putative aspartic hydrolase, a putative histidine kinase and a putative peroxidase showed induced accumulation in mycorrhizal roots. Peroxidase activities in roots and apoplastic fluid were determined, and shown to be higher in mycorrhizal roots at low P than in non-mycorrhizal control roots. Based on the partial amino acid sequence of this peroxidase, a partial cDNA sequence of its gene (POX1) was cloned from PCR-amplified cDNA from sugarcane roots. The POX1 sequence showed 90% and 91% identity to maize (NCBI) and sugarcane (TIGR) peroxidase, respectively. Expression analyses of POX1 were perfomed using quantitative PCR of reverse transcripts from mycorrhizal and non-mycorrhizal roots at low and high P conditions. The steady state level of POX1 transcripts in mycorrhizal roots at low P condition was 6.8-fold higher than in mycorrhizal roots at high P conditions. In mycorrhizal roots at high P conditions the steady state level of POX1 transcripts was 3.9-fold lower than in nonmycorrhizal control roots. These data suggest that the metabolism of reactive oxygen species may be an important factor controlling the development of AM. Studies with plants altered in POX1 expression are, however, required to elucidate the essentiality of this peroxidase in AM.

Cana-de-açúcar

Células

Micorriza

Peroxidase

Proteínas

Apoplast

Arbuscular mycorrhiza

Peroxidase

Proteome

Sugarcane

Análise da comunidade de fungos em áreas de monoculturas e consórcio de Eucalyptus grandis e Acacia mangium / Analysis of the fungal community in monoculture and consortium areas of Eucalyptus grandis and Acacia mangium

Santana, Maiele Cintra

19 January 2018

Os fungos representam cerca de 75% da biomassa microbiana em áreas florestais, desempenhando funções importantes, desde a mineralização dos resíduos orgânicos até a disponibilização de nutrientes para plantas por meio das associações micorrízicas, o que influencia a ciclagem de nutrientes e, consequentemente, o crescimento das árvores. O objetivo desse trabalho foi avaliar a comunidade de fungos do solo, da rizosfera e do sistema radicular de Eucalyptus grandis e Acacia mangium plantados em monocultivos e em consórcio, e encontrar respostas para os padrões observados por meio da correlação com os atributos físicos, químicos, biológicos e a profundidade do solo. A coleta das amostras foi realizada na Estação Experimental de Ciências Florestais de Itatinga, em 2016, quando as plantas estavam com 2 anos de idade. Foram coletadas amostras em quatro tratamentos: monoculturas de E. grandis e de A. mangium e consórcios de E. grandis e de A. mangium, nos quais foram construídas trincheiras para coleta das amostras nas camadas de 0-10, 10-20, 20-50 e 50-100 cm de profundidade. Foram caracterizados os atributos físicos e biológicos do solo e os atributos químicos do solo, da rizosfera e das raízes. Para a avaliação micorrízica, foi quantificado o número de esporos de fungos micorrízicos arbusculares (FMA) e as taxas de colonização radicular por FMA e por fungos ectomicorrízicos. Foi avaliada a morfologia das estruturas das micorrizas arbusculares e ectomicorriza (ECM). A estrutura da comunidade de fungos do solo e da rizosfera foi avaliada por meio da técnica de Terminal restriction fragment length polymorphism (T-RFLP). Para isso, o DNA foi amplificado utilizando os primers ITS1f-FAM e ITS4 e a restrição dos fragmentos foi realizada com a enzima HaeIII. A abundância de cópias do gene ITS do solo e da rizosfera foi quantificada por PCR quantitativo (qPCR), utilizando os primers ITS1f e 5.8s. Os atributos físicos, químicos e biológicos tiveram poucas variações entre os tratamentos avaliados, sendo as maiores diferenças encontradas entre as profundidades. O número de esporos (<29) e as taxas de colonização micorrízica (<48%) foram baixos em todos os tratamentos, e se reduziram com o aumento da profundidade. As plantas de A. mangium não formaram micorrizas arbusculares. Nas raízes de E. grandis, não houve a formação de arbúsculos, mas foi verificada a presença de hifas enroladas (hyphal coils), estrutura de micorriza do tipo Paris. A anatomia das ECM confirmou a colonização destes fungos nas raízes das plantas estudadas. O qPCR mostrou maior abundância de genes ITS na rizosfera em relação ao solo, assim como nas camadas superficiais (0-10 cm) em relação às mais profundas (10 cm abaixo). A Análise de Coordenadas Principais revelou diferenças na estrutura das comunidades de fungos nos tratamentos estudados, principalmente para a região da rizosfera, diferenciando o perfil de fungos do monocultivo de E. grandis dos demais tratamentos, assim como a influência da A. mangium na estruturação da comunidade. A análise de redundância mostrou a influência de alguns atributos químicos nas taxas de colonização e estruturação da comunidade. Dessa forma, conclui-se que em sistema de consórcio, uma espécie de planta parece ser mais influente do que a outra na estruturação da comunidade de fungos e essa influência é mais evidente na rizosfera. Além disso, os atributos químicos são fatores importantes na organização da comunidade fúngica. / The fungi represent about 75% of the microbial biomass in forest areas, performing important functions, from the mineralization of the organic residues to the availability of nutrients to plants through mycorrhizal associations, which influences the nutrient cycling and, consequently, the growth of trees. The objective of this work was to evaluate the community of fungi of the soil, rhizosphere and root system of Eucalyptus grandis and Acacia mangium planted in monocultures and consortium, and to find explanations for the observed patterns through the correlation with physical and chemical soil attributes and soil depth. The samples were collected at the Experimental Station of Forest Sciences of Itatinga in 2016, when the plants were 2 years old. Samples were collected in four treatments: monocultures of E. grandis and A. mangium and consortia of E. grandis and A. mangium, in which trenches were constructed to collect samples in the 0-10, 10-20, 20 -50 and 50-100 cm deep. The physical and biological attributes of the soil and the chemical attributes of soil, rhizosphere and roots were characterized. For the mycorrhizal evaluation, the number of spores of arbuscular mycorrhizal fungi (AMF) and the rates of root colonization by AMF and ectomycorrhizal fungi were quantified. The morphology of arbuscular mycorrhizal and ectomycorrhizal (ECM) structures was evaluated. The structure of the soil and rhizosphere fungi community by was evaluated by the technique of Terminal restriction fragment length polymorphism (T-RFLP). For this, the DNA was amplified using primers ITS1f-FAM and ITS4 and restriction of the fragments was performed with the enzyme HaeIII. The abundance of ITS gene copies of soil and rhizosphere was quantified by quantitative PCR (qPCR), using primers ITS1f and 5.8s. The physical, chemical and biological attributes had few variations among the evaluated treatments, being the greatest differences found between the depths. The number of spores (<29) and mycorrhizal colonization rates (<48%) were low in all treatments, and reduced with increasing depth. A. mangium plants did not form FMA. In the roots of E. grandis, there was no formation of arbuscules, but we found the presence of hyphal coils, mycorrhizal structures of the Paris type. The anatomy of the ECM confirmed the colonization of these fungi in the roots of the studied plants. The qPCR showed higher abundance of ITS genes in the rhizosphere in relation to the soil, as well as in the superficial layers (0-10 cm) in relation to the deeper ones (10 cm below). The Principal Coordinates Analysis revealed differences in the structure of the fungal communities in the treatments studied, especially for the rhizosphere region, differentiating the fungal profile of the E. grandis monoculture from the other treatments, as well as the influence of A. mangium on the structure of the community. The redundancy analysis showed the influence of some chemical soil attributes on the rates of colonization and community structuring. Thus, it is concluded that in a consortium system, one plant species seems to be more influential than the other in structuring the fungal community, and this influence is more evident in the rhizosphere. In addition, chemical attributes are important factors in the organization of the fungal community.

Arbuscular mycorrhiza

Ectomicorriza

Ectomycorrhiza

Micorriza arbuscular

Raiz

Rhizosphere

Rizosfera

Root

Solo

T-RFLP

T-RFLP

Comunidades de fungos micorrízicos arbusculares no solo e raízes de cana-de-açúcar / Arbuscular mycorrhizal fungi communities in soil and sugarcane roots

Azevedo, Lucas Carvalho Basilio de

13 February 2009

Os fungos micorrízicos arbusculares (FMAs, filo Glomeromycota) formam associações simbióticas com a maioria das plantas vasculares. Normalmente, as hifas dos FMAs crescem no solo e colonizam o interior das raízes. No entanto, não se sabe se as espécies mais abundantes detectadas no solo, por meio da identificação com base na morfologia dos esporos assexuais, são também as mais abundantes no interior das raízes, devido às dificuldades para a identificação dos FMAs com base nas estruturas intrarradiculares. Assim, o objetivo do presente trabalho foi avaliar a estrutura da comunidade de FMAs em cana-de-açúcar sob dois manejos de colheita por meio da identificação das espécies que estão no solo na forma de esporos assexuais e aquelas que estão nas raízes usando o sequenciamento de clones do gene rRNA 18S. Amostras de solo e raízes de cana-de-açúcar de três variedades e dois manejos de colheita: SEM QUEIMA prévia e COM QUEIMA prévia à colheita, foram coletadas em um experimento localizado no município de Novo Horizonte, SP. Foram utilizadas três abordagens para a identificação dos FMAs no interior das raízes: emprego de (1) iniciador específico para fungos em geral, (2) iniciador específico para FMAs e (3) iniciadores específicos para grupos de FMAs. O número de esporos por 50 g de solo, a riqueza de espécies observada e estimada e a diversidade de esporos não diferiram significativamente entre os manejos SEM QUEIMA e COM QUEIMA. Efeitos significativos de variedades de cana-de-açúcar ou na interação dos fatores manejo e variedade não foram observados. A análise de ordenação com base nos esporos identificados também não indicou separação das amostras em função dos tratamentos. Entretanto, plantas do tratamento sob manejo SEM QUEIMA apresentaram as maiores taxas de colonização micorrízica arbuscular, quando comparadas às plantas do tratamento sob manejo COM QUEIMA. Esses dados indicam que a taxa de colonização micorrízica arbuscular é um indicador mais sensível à mudança de manejo de colheita da cana-de-açúcar do que os outros indicadores avaliados. Após a extração de DNA das raízes, o uso dos iniciadores específicos para fungos em geral, para FMAs e iniciadores específicos para grupo de FMAs não resultou em sequências de Glomeromycota. Mesmo assim, a comunidade de fungos associados às raízes detectada por sequenciamento do gene rRNA 18S foi avaliada. Os resultados indicam que a estrutra da comunidade fúngica associada às raízes de cana-de-açúcar diferiu significativamente entre os manejos de colheita SEM QUEIMA e COM QUEIMA prévia, apesar de não haver diferenças na riqueza e índices de diversidade de unidades taxonômicas operacionais observadas. Em geral, estudos adicionais devem ser feitos para otimizar as condições para amplificação do gene rRNA 18S de FMAs para melhor entender a ecologia dos mesmos. / Arbuscular mycorrhizal fungi (AMF, Glomeromycota) form mutualistic symbioses with most land plants. AMF hypha generally grow through the soil and colonize the cortical tissue of the plant roots. However, it is not known whether the most abundant species in the soil, determined based on the morphology of asexual spores are the most abundant inside the roots, due the difficulties in identifying AMF based on intraradical structures. Therefore, the aim of this study was to evaluate the AMF community structure in sugarcane rhizosphere and roots under two harvesting managements, based on spores in the soil and sequencing of 18S rRNA gene clones, respectively. Sugarcane rhizosphere soil and roots were sampled from three varieties, under two harvesting managements: without pre-harvesting burning and with pre-harvesting burning, at an experimental field located in Novo Horizonte (São Paulo, Brazil). Three approaches were used to identify AMF inside the roots: (1) using fungi-specific primers, (2) using AMF-specific primers and (3) using AMF group-specific primers. The number of spores in the soil, the observed and estimated species richness and the diversity of AMF spores in the treatments without and with pre-harvesting burning were not statistically different. Statistically significant effects of sugarcane varieties or the interaction of the factors Harvesting Management and Varieties were not observed. Ordination analysis based on the identified spores did not show clustering by treatments. However, intraradical root colonization rates were higher in the treatment without pre-harvesting burning, as compared to the treatment with pre-harvesting burning. These data indicate that intraradical colonization rate may be used as a more sensitive indicator of environmental changes due to harvesting management, as compared to the other indicators evaluated. The use of fungi-specific, AMF-specific and AMF group-specific primers did not allow the detection of Glomeromycota in the sugarcane roots sampled from the field experiment. Nonetheless, the fungal communities associated with sugarcane roots detected by 18S rRNA gene clone sequencing were evaluated. The results indicate that the fungal communities associated with sugarcane roots from the treatments without and with pre-harvesting burning were statistically different, even though no differences in operational taxonomic unit richness and diversity indices were observed. In general, additional studies are necessary to optimize AMF 18S rRNA gene amplification for a better understanding of their ecology.

18S rRNA

Arbuscular mycorrhiza

Cana-de açúcar

Ecologia do solo

Ecology

Fungi.

Micorriza

Raízes

Sequenciamento genético.

Comunidades de fungos micorrízicos arbusculares no solo e raízes de cana-de-açúcar / Arbuscular mycorrhizal fungi communities in soil and sugarcane roots

Lucas Carvalho Basilio de Azevedo

13 February 2009

Os fungos micorrízicos arbusculares (FMAs, filo Glomeromycota) formam associações simbióticas com a maioria das plantas vasculares. Normalmente, as hifas dos FMAs crescem no solo e colonizam o interior das raízes. No entanto, não se sabe se as espécies mais abundantes detectadas no solo, por meio da identificação com base na morfologia dos esporos assexuais, são também as mais abundantes no interior das raízes, devido às dificuldades para a identificação dos FMAs com base nas estruturas intrarradiculares. Assim, o objetivo do presente trabalho foi avaliar a estrutura da comunidade de FMAs em cana-de-açúcar sob dois manejos de colheita por meio da identificação das espécies que estão no solo na forma de esporos assexuais e aquelas que estão nas raízes usando o sequenciamento de clones do gene rRNA 18S. Amostras de solo e raízes de cana-de-açúcar de três variedades e dois manejos de colheita: SEM QUEIMA prévia e COM QUEIMA prévia à colheita, foram coletadas em um experimento localizado no município de Novo Horizonte, SP. Foram utilizadas três abordagens para a identificação dos FMAs no interior das raízes: emprego de (1) iniciador específico para fungos em geral, (2) iniciador específico para FMAs e (3) iniciadores específicos para grupos de FMAs. O número de esporos por 50 g de solo, a riqueza de espécies observada e estimada e a diversidade de esporos não diferiram significativamente entre os manejos SEM QUEIMA e COM QUEIMA. Efeitos significativos de variedades de cana-de-açúcar ou na interação dos fatores manejo e variedade não foram observados. A análise de ordenação com base nos esporos identificados também não indicou separação das amostras em função dos tratamentos. Entretanto, plantas do tratamento sob manejo SEM QUEIMA apresentaram as maiores taxas de colonização micorrízica arbuscular, quando comparadas às plantas do tratamento sob manejo COM QUEIMA. Esses dados indicam que a taxa de colonização micorrízica arbuscular é um indicador mais sensível à mudança de manejo de colheita da cana-de-açúcar do que os outros indicadores avaliados. Após a extração de DNA das raízes, o uso dos iniciadores específicos para fungos em geral, para FMAs e iniciadores específicos para grupo de FMAs não resultou em sequências de Glomeromycota. Mesmo assim, a comunidade de fungos associados às raízes detectada por sequenciamento do gene rRNA 18S foi avaliada. Os resultados indicam que a estrutra da comunidade fúngica associada às raízes de cana-de-açúcar diferiu significativamente entre os manejos de colheita SEM QUEIMA e COM QUEIMA prévia, apesar de não haver diferenças na riqueza e índices de diversidade de unidades taxonômicas operacionais observadas. Em geral, estudos adicionais devem ser feitos para otimizar as condições para amplificação do gene rRNA 18S de FMAs para melhor entender a ecologia dos mesmos. / Arbuscular mycorrhizal fungi (AMF, Glomeromycota) form mutualistic symbioses with most land plants. AMF hypha generally grow through the soil and colonize the cortical tissue of the plant roots. However, it is not known whether the most abundant species in the soil, determined based on the morphology of asexual spores are the most abundant inside the roots, due the difficulties in identifying AMF based on intraradical structures. Therefore, the aim of this study was to evaluate the AMF community structure in sugarcane rhizosphere and roots under two harvesting managements, based on spores in the soil and sequencing of 18S rRNA gene clones, respectively. Sugarcane rhizosphere soil and roots were sampled from three varieties, under two harvesting managements: without pre-harvesting burning and with pre-harvesting burning, at an experimental field located in Novo Horizonte (São Paulo, Brazil). Three approaches were used to identify AMF inside the roots: (1) using fungi-specific primers, (2) using AMF-specific primers and (3) using AMF group-specific primers. The number of spores in the soil, the observed and estimated species richness and the diversity of AMF spores in the treatments without and with pre-harvesting burning were not statistically different. Statistically significant effects of sugarcane varieties or the interaction of the factors Harvesting Management and Varieties were not observed. Ordination analysis based on the identified spores did not show clustering by treatments. However, intraradical root colonization rates were higher in the treatment without pre-harvesting burning, as compared to the treatment with pre-harvesting burning. These data indicate that intraradical colonization rate may be used as a more sensitive indicator of environmental changes due to harvesting management, as compared to the other indicators evaluated. The use of fungi-specific, AMF-specific and AMF group-specific primers did not allow the detection of Glomeromycota in the sugarcane roots sampled from the field experiment. Nonetheless, the fungal communities associated with sugarcane roots detected by 18S rRNA gene clone sequencing were evaluated. The results indicate that the fungal communities associated with sugarcane roots from the treatments without and with pre-harvesting burning were statistically different, even though no differences in operational taxonomic unit richness and diversity indices were observed. In general, additional studies are necessary to optimize AMF 18S rRNA gene amplification for a better understanding of their ecology.

Cana-de açúcar

Ecologia do solo

Micorriza

Raízes

Sequenciamento genético.

18S rRNA

Arbuscular mycorrhiza

Ecology

Fungi.

Effects of soil type, salinity and vesicula arbuscular mycorrhiza on growth and foliar elements in mimusops zeyheri (sond.) indigenour fruit trees

Nkuna, Thabo Selby

January 2018

Thesis (M. Agric. (Plant Production)) -- University of Limpopo, 2018 / The evergreen Red Milkwood (Mimusops zeyheri Sond.) is being targeted as a rural and urban-greening tree in Limpopo Province, due to its excellent nutritional, pharmaceutical and aesthetic attributes. Slow growth of M. zeyheri seedlings is the main drawback in the potential domestication and commercialisation of this tree species. The objectives of this study were to determine (1) the influence of soil type on root growth and foliar nutrient elements in M. zeyheri seedlings, (2) the degree of salt tolerance in M. zeyheri seedlings and (3) the influence of vesicular arbuscular mycorrhiza (VAM) fungi on growth of M. zeyheri seedlings. Objective 1 was achieved in clay, calcareous, loam and sandy soils. At 60 days after the treatments, soil type effects were significant on plant height, leaf number, chlorophyll content of primary leaves (dicots), chlorophyll content of secondary leaves, root length, number of root branches and dry root mass, contributing 60, 72, 84, 85, 74, 80 and 40% in total treatment variation (TTV) of the respective variables. Objective 2 was achieved by exposing seedlings to 0, 2, 4, 8, 16, 32, 64 and 128 NaCl + CaCl2 mM/m3 at 3:1 ratio. At 90 days after the treatments, salinity effects were significant on leaf number, dry shoot mass, root length and leaf length, contributing 73, 60, 50 and 64% in TTV of the respective variables. Leaf number, dry shoot mass, root length and leaf length each against increasing concentration of salinity exhibited positive curvilinear quadratic relations, with 74, 91, 95 and 66% associations, respectively. Responses of essential nutrient accumulation in leaf tissues of M. zeyheri to salt treatments had significant effects on K and Na, contributing 28 and 19% in TTV of the respective variables. Potassium over increasing salt concentrations exhibited positive quadratic relations and Na over increasing salt concentrations, exhibited negative quadratic relations. The models for each relation were explained by 95 and 86%, respectively. Objective 3 was achieved by exposing seedlings to 0, 10, 20, 30, 40, 50, 60 and 70 g VAM per plant. At 90 days after the treatments, VAM effects were significant on plant height, leaf number, stem diameter and chlorophyll content contributing, 49, 65, 60 and 61% in TTV of the respective variables. Plant height, leaf number and chlorophyll content each against increasing VAM levels exhibited negative quadratic relations, with 97, 83 and 80% associates, respectively. In conclusion, the use of soil type to promote growth and accumulation of essential nutrient elements on M. zeyheri seedlings demonstrated that clay soil could be suitable for cultivation of M. zeyheri. Also chloride salt concentrations included all three phases of density-dependent growth (DDG) patterns, whereas VAM levels used in the study were already in the last two phases of DDG patterns. Vesicular arbuscular mycorrhiza treatment did not have significant effects on Ca, Fe, K, Na and Zn in leaf tissues of M. zeyheri seedlings. In conclusion, soil with high clay content could be ideal when raising M. zeyheri seedlings. However, salt concentration of 8.11 mM/m3 exhibited the stimulation of M. zeyheri seedlings growth, Therefore, lower concentration less than 8.11 mM/m3 shown to be toxic by reducing the plant growth. In contrast, 5.554 g per plant of VAM will supreme for growth and development of M. zeyheri seedlings.

Soil type

Salinity

Mycorrhiza

Indigenous fruit trees

Soil science

Salinity

Soils, Salts in

Arbuscular mycorrhizal fungi and Eucalyptus species with different levels of water stress tolerance / Fungos micorrízicos arbusculares e espécies de Eucalyptus com diferentes níveis de tolerância ao estresse hídrico

Lopes, Bruna Andréia de Bacco

08 August 2019

Eucalyptus species account for almost 80% of the forests planted in Brazil, which makes silviculture an activity of great importance in the national and international scenario. Despite its adaptability, Eucalyptus is subject to damages caused by climate change, especially the water deficit. Most plants have survival strategies in water deficit situations. Association with mycorrhizal fungi (FM) is one of them, since they increase water and nutrients uptake by the roots. Thus, the main objective of this study was to evaluate the colonization of mycorrhizal fungi in six Eucalyptus species with different levels of drought tolerance: E. brassiana, E. camaldulensis, E. citriodora, E. cloeziana, E. grandis and E. urophylla. Two trials were carried out, one in the field and another in a greenhouse. In the greenhouse, the substrate of the pots were submitted to different levels of water retention, 50, 75 and 100% of the field capacity, for three months. In the field, soil and roots were sampled at two different periods: after the dry period and after the rainy season. The soil samples and fine roots collected from the two experiments were submitted to microbiological and molecular analyses. AMF root colonization was evaluated. The ITS genes were analyzed by quantitative PCR (qPCR) and the fungal community structure by restriction fragment polymorphism (T-RFLP). Among the eucalypt species studied, E. urophylla presented higher colonization in both trials. Soil microbial activity was strongly affected by soil moisture. The fungal community structure did not differ clearly among the treatments. Age of plants and soil moisture seemed to affect the plant species more than levels of water stress tolerance. / As espécies de eucalipto respondem por quase 80% das florestas plantadas no Brasil, o que faz da silvicultura uma atividade de grande importância no cenário nacional e internacional. Apesar de sua adaptabilidade, o eucalipto está sujeito a danos que as alterações climáticas podem causar, especialmente o déficit hídrico. A maioria das plantas possui estratégias de sobrevivência em situações de déficit hídrico. A associação com fungos micorrízicos arbusculares (FMA) é uma delas, pois aumenta a absorção de água e nutrientes pelas raízes. Assim, o objetivo principal deste trabalho foi avaliar a colonização de fungos micorrízicos em seis espécies de Eucalyptus com diferentes níveis de tolerância à seca: E. brassiana, E. camaldulensis, E. citriodora, E. cloeziana, E. grandis e E. urophylla. Dois ensaios foram realizados: um no campo e outro em casa de vegetação. Em casa de vegetação, os vasos foram submetidos a diferentes níveis de água: 50, 75 e 100% da capacidade de campo, por três meses. No campo, as amostras foram coletadas em dois períodos diferentes: após o período seco e após a estação chuvosa. As amostras de solo e raízes finas coletadas nos dois experimentos foram submetidas à análise microbiológica e molecular. A colonização da raiz por FMA foi avaliada. Os genes ITS foram analisados por PCR quantitativo (qPCR) e a estrutura da comunidade fúngica por polimorfismo de fragmentos de restrição (T-RFLP). Dentre as espécies estudadas, E. urophylla apresentou maior colonização em ambos os ensaios. A atividade microbiana do solo foi fortemente afetada pela umidade do solo. A estrutura da comunidade fúngica não se diferenciou claramente entre os tratamentos. A idade das plantas e a umidade do solo parecem ter maior efeito no desempenho das espécies de eucalipto do que seu nível de tolerância ao estresse hídrico.

Eucalyptus

Eucalipto

Micorrizas

Microbiologia do solo

Mycorrhiza

Soil microbiology

Tolerância ao estresse hídrico

Water stress tolerance

Borya mirabilis steps in the recovery of a critically endangered Australian native plant

Reiter, Noushka Hedy, noushka.reiter@dse.vic.gov.au

January 2009

Borya mirabilis is one of the world's most critically endangered plants. The research in this thesis has illuminated key aspects of: its reproductive biology; interspecies and intraspecies molecular relationships, mycorrhizal status, tissue culture potential and disease threats. Each of these aspects has fundamental management implications for the active management of B. mirabilis. Floral observations of B. mirabilis and related species affirmed the uniqueness of the Boryaceae amongst the Asparagales. B. mirabilis had an unusually high number of floral abnormalities compared with other species of Borya observed. B. mirabilis is fly-pollinated. Pollen of Borya species showed little difference in the characteristics of mature pollen between species, with viable pollen being prolate and unicolpate with a single colpa-style aperture and a unique patterning of the pila. The structural immaturity of B. mirabilis pollen correlated with evidence from pollen growth experiments, where B. mirabilis pollen had extremely low germination rates, with those grains that did germinate being slow to do so and with slow-growing pollen tubes compared to those of fertile Borya species. Examination of the ovules of B. mirabilis showed that morphologically they were viable compared to viable Borya species. The field population of B. mirabilis was crossed, with one seed produced (the first recorded seed for th is species). Cross-pollination using the pollen of the closely related B. constricta and B. sphaerocephala with B. mirabilis ovules proved unsuccessful. Examination of the chromosome number of B. mirabilis showed that it had approximately 66 chromosomes and is probably hexaploid, relative to the diploid number of 26 in B. constricta. This may explain its low fertility. Interspecies and intraspecies relationships of the Boryaceae and Borya mirabilis were investigated using sequences of chloroplast and nuclear DNA. The closest similarities to B. mirabilis were B. constricta and B. sphaerocephala. B. mirabilis may have emerged from alloploidy of these species in the past. Because of the consistent similarities of B. mirabilis and B. constricta chloroplast sequences, it is proposed that both shared a common ancestor with a chromosome number of 2n=22. A malfunction n meiosis may have resulted in ovules with 2n=44. The high similarity of the nuclear ribosomal ITS region DNA suggests that the nuclear DNA was derived from B. sphaerocephela. B. mirabilis may be an allopolyploid, from fertilisation of a diploid ovule of B. constricta with haploid pollen of B. sphaerocephala, resulting in a reproductively isolated polyploidy of low fertility. The wild population of B. mirabilis was determined to have a small amount of genetic variation. The genetic variation in the field population w as not fully reflected in the ex-situ population. An effective means of micro-propagation of B. nitida for use in B. mirabilis has been established, providing an effective means of mass production of the species. The research has determined: a suitable explant (shoot tips) for regeneration; an effective means of reducing contamination in tissue culture (PPM); what medium is required to micro-propagate the species (LMHM); an appropriate gelling agent (Phytagel); and a practical method for inducing roots on the shoots grown in tissue culture. B. mirabilis has been established as mycorrhizal. The predominant mycorrhizal association is a nodular arbuscular mycorrhiza, present in the form of coils in root nodules over wetter months and as spores in these nodules over dryer months. A significant increase in the health of the ex-situ population of B. mirabilis was recorded after addition of soil containing fine roots of the wild population. Of the plants associated with the wild population, Callitris rhomboidea had the most morphologically similar vesicular arbuscular mycorrhizal relationship. But molecular identification was not achieved due to recalcitrance of DNA in PCR attempts. Potential translocation sites for some of the ex-situ population of B. mirabilis were examined for Phytophthora infestation. Reid's Lookout and Mackey's Peak were infected with P. cinnamomi. Vegetation at Mackey's Peak displayed characteristic infection symptoms, resulted in isolates of P. cinnamomi from baiting and would directly receive runoff from both the walking track and the existing infested B .mirabilis site. At the Reid's Lookout site, both walking track and proposed translocation site were infested with P. cinnamomi, yet did not display the associated symptoms in the vegetation. The Pine Plantation translocation site was uninfected at the level of sampling undertaken. Its vegetation did not display any characteristic infection symptoms and was not isolated when soil samples were baited. It was therefore chosen for translocation and so far the plants are healthy and actively growing. This research has provided critical knowledge to aid the recovery team in its current and future endeavours to manage this species and bring it back from the brink of extinction.

Borya

mirabilis

Boryaceae

Phytophthora

chromosomes

phylogeny

molecular phylogeny

tissue culture

mycorrhiza associations

population genetics

floral biology

Der Einfluss unterschiedlich aggressiver Fusarium culmorum- und Fusarium graminearum-Isolate auf die Schadbildausprägung bei Winterweizen sowie die Möglichkeit der Befallskontrolle mit Mykorrhiza / Impact of aggressiveness of Fusarium culmorum and Fusarium graminearum isolates on the degree of symptoms as well as the possibility to control Fusarium spp. with mycorrhiza

Korn, Ulrike

January 2012

Der Einfluss unterschiedlich aggressiver Fusarium culmorum- und F. graminearum-Isolate auf die Schadbildausprägung bei Winterweizen sowie die Möglichkeit der Befallskontrolle mit Mykorrhiza Die durch Pilzarten der Gattung Fusarium spp. hervorgerufene partielle Taubährigkeit ist ein ernstes Problem im weltweiten Weizenanbau. Eine für die Schaderreger günstige feuchte Witterung zum Zeitpunkt der Weizenblüte in Kombination mit befallsfördernden agrotechnischen Maßnahmen löst immer wieder Epidemien aus. Hauptsächlich verursacht durch F. culmorum und F. graminearum führt eine Erkrankung zu Ertrags- und Qualitätseinbußen sowie zu einer Belastung des Ernteguts mit Mykotoxinen, die bereits in niedrigen Konzentrationen toxisch auf den tierischen und menschlichen Organismus wirken. Die am häufigsten vorkommenden Fusarium-Toxine in Weizen sind Deoxynivalenol (DON) und Zearalenon (ZEA). Isolate von F. graminearum- und F. culmorum können in ihrem DON- und ZEA-Bildungsvermögen und ihrem Potential, Nekrosen zu verursachen, stark variieren. In Laborversuchen (in vitro) wurden F. graminearum- und F. culmorum-Isolate hinsichtlich dieser Eigenschaften (hier als Aggressivität bezeichnet) charakterisiert und anschließend wurde im Feldversuch überprüft, ob die in vitro-ermittelte Aggressivität die Schadbildausprägung bei Weizenpflanzen beeinflusst. Nur im ersten Versuchsjahr, das durch hohe Niederschläge gekennzeichnet war, konnte ein Einfluss der Aggressivität und einer zusätzlichen Beregnung im Feldversuch nachgewiesen werden. Die als hoch-aggressiv eingestuften Fusarium-Isolate reduzierten unter dem Einfluss der Beregnung den Ertrag und das Tausendkorngewicht. Die Beregnung führte zu einer Erhöhung des Pilzwachstums und der DON- und ZEA-Produktion. Ein extrem trockener Sommer verhinderte die Infektion der Weizenpflanzen durch die beimpften Fusarium-Isolate und ein anschließendes Pilzwachstum in den Ähren im zweiten Versuchsjahr. Um den Befall von Weizenpflanzen mit Fusarium spp. vorzubeugen, stehen verschiedene pflanzenbauliche Maßnahmen zur Verfügung. Eine Möglichkeit stellen in diesem Zusammenhang die symbiotischen Mykorrhizapilze (MP) dar. Die Pilze sind in der Lage, Pflanzen zu stärken und antagonistisch auf pilzliche Schaderreger zu wirken. Um zu überprüfen, ob MP dazu beitragen könnten, den Befall von Weizenpflanzen mit Fusarium spp. niedrig zu halten, wurden Weizenpflanzen mit MP und Fusarium spp. beimpft und die Auswirkungen der Interaktionen auf die Weizenpflanzen in einem Klimakammer- und einem Feldversuch getestet. In der Klimakammer wurde eine Reduzierung des Fusarium-Befalls nachgewiesen. Die mykorrhizierten Weizenpflanzen wiesen außerdem höhere Photosyntheseraten, höhere Sprosstrockenmassen und mehr Ähren im Vergleich zu den nicht-mykorrhizierten und mit Fusarium-beimpften Weizenpflanzen auf. Insgesamt wurde durch die Mykorrhizierung der negative Einfluss von Fusarium spp. kompensiert. Im Freiland konnte kein Einfluss der MP auf Fusarium spp. beobachtet werden. Im ersten Versuchsjahr führte das Beimpfen der Weizenpflanzen mit MP zu höheren Wurzel- und Sprosstrockenmassen sowie zu höheren Tausendkorngewichten im Vergleich zu den mit Fusarium spp.-beimpften Weizenpflanzen. Im zweiten Versuchsjahr konnte dieses Ergebnis nicht wiederholt werden. / Impact of aggressiveness of Fusarium culmorum and Fusarium graminearum isolates on the degree of symptoms as well as the possibility to control Fusarium spp. with mycorrhiza Fusarium Head Blight (FHB) is a serious problem worldwide and is mainly caused by Fusarium (F). culmorum and F. graminearum. Humid weather conditions, especially at anthesis and agricultural measures forcing pathogen attack cause epidemics repeatedly. FHB leads to yield and quality losses and also to contamination of harvest with mycotoxins that are toxic to humans and animals already in low concentrations. The most frequently occurring Fusarium toxins in wheat are deoxynivalenol (DON) and zearalenone (ZEA). F. culmorum and F. graminearum isolates can differ in their potential to produce mycotoxins and to cause necrosis. Isolates of these two species were assigned to three different groups of aggressiveness on the basis of mycotoxin production and necrotic activity. Afterwards these isolates were inoculated on wheat in fields to ascertain their aggressiveness on the degree of symptoms. Only in the first year of the trial that was characterized by high precipitation amounts an influence of the aggressiveness and of an additional irrigation could be determined. Influenced by irrigation isolates of high aggressiveness reduced yield and 1000-kernel-weight. Besides, irrigation led to an increase of fungal growth and DON and ZEA production. An extremely dry summer in the second year of the trial prevented wheat infection by Fusarium isolates and subsequent colonization of the ears. Various agricultural measures are available to prevent Fusarium infection. The release of mycorrhizal fungi is one possibility. These fungi are able to strengthen plants and affect fungal pathogens antagonistically. Mycorrhizal fungi and Fusarium isolates were inoculated on wheat plants in climate chamber and fields to determine their potential for pest management. The impact of the interactions of these two organisms on wheat plants was analyzed. In climate chamber a reduction of Fusarium colonization was observed. Furthermore a higher rate of photosynthesis, a higher shoot dry weight and a higher number of ears were detected for the mycorrhizal plants compared to the non-mycorrhizal Fusarium inoculated plants. Altogether the negative effects of Fusarium spp. on the wheat plants were compensated by mycorrhizal colonization. In fields no influence of mycorrhizal colonization on Fusarium spp. could be determined. In the first year of the trial inoculation of wheat plants with mycorrhiza led to higher root and shoot dry weight as well as to higher 1000-kernel-weight in comparison to the wheat plants inoculated with Fusarium spp. These results could not be reproduced in the second year of the trial.

Fusarium

Aggressivität

Mykotoxine

Arbuskuläre Mykorrhiza

Weizen

Fusarium

aggressiveness

mycotoxins

arbuscular mycorrhiza

wheat

Life sciences

Identifizierung und funktionelle Charakterisierung von für die arbuskuläre Mykorrhizasymbiose spezifischen Genen in Medicago truncatula / Identification and functional characterization of genes specific for the arbuscular mycorrhizal symbiosis in Medicago truncatula

Reinert, Armin

January 2012

Die Mykorrhiza (griechisch: mýkēs für „Pilz”; rhiza für „Wurzel”) stellt eine Symbiose zwischen Pilzen und einem Großteil der Landpflanzen dar. Der Pilz verbessert durch die Symbiose die Versorgung der Pflanze mit Nährstoffen, während die Pflanze den Pilz mit Kohlenhydraten versorgt. Die arbuskuläre Mykorrhiza (AM) stellt dabei einen beson-dere Form der Mykorrhiza dar. Der AM-Pilz bildet dabei während der Symbiose die namensgebenden Arbuskeln innerhalb der Wurzelzellen als Ort des primären Nährstoff- austausches aus. Die AM-Symbiose (AMS) ist der Forschungsschwerpunkt dieser Arbeit. Als Modellorganismen wurden Medicago truncatula und Glomus intraradices verwendet. Es wurden Transkriptionsanalysen durchgeführt um u.a. AMS regulierte Transkriptions- faktoren (TFs) zu identifizieren. Die Aktivität der Promotoren von drei der so identifizier-ten AMS-regulierten TFs (MtOFTN, MtNTS, MtDES) wurde mit Hilfe eine Reportergens visualisiert. Der Bereich der größten Promotoraktivität waren in einem Fall nur die ar- buskelhaltigen Zellen (MtOFTN). Im zweiten Fall war der Promotor auch aktiv in nicht arbuskelhaltigen Zellen, jedoch am stärksten aktiv in den arbuskelhaltigen Zellen (MtNTS). Ein weiterer Promotor war in arbuskelhaltigen Zellen und den diesen benach-barten Zellen gleich aktiv (MtDES). Zusätzlich wurden weitere Gene als AMS-reguliert identifiziert und es wurde für drei dieser Gene (MtPPK, MtAmT, MtMDRL) ebenfalls eine Promotor::Reporter-Aktivitäts- studie durchgeführt. Die Promotoren der Kinase (MtPPK) und des Ammoniumtrans-porters (MtAmt) waren dabei ausschließlich in arbuskelhaltigen Zellen aktiv, während die Aktivität des ABC-Transporters (MtMDRL) keinem bestimmten Zelltyp zuzuordnen war. Für zwei weitere identifizierte Gene, ein Kupfertransporter (MtCoT) und ein Zucker- bzw. Inositoltransporter (MtSuT), wurden RNA-Interferenz (RNAi)-Untersuchungen durchgeführt. Dabei stellte sich in beiden Fällen heraus, dass, sobald ein RNAi-Effekt in den transformierten Wurzeln vorlag, diese in einem deutlich geringerem Ausmaß wie in der Wurzelkontrolle von G. intraradices kolonisiert worden sind. Im Falle von MtCoT könnte das aus dem selben Grund geschehen, wie im Falle von MtPt4. Welche Rolle MtSuT genau in der Ausbildung der AMS spielt und welche Rolle Inositol in der Aus- bildung der AMS spielt müsste durch weitere Untersuchungen am Protein untersucht werden. Weitere Untersuchen an den in dieser Arbeit als spezifisch für arbuskelhaltige Zellen gezeigten Genen MtAmT, MtPPK und MtOFTN könnten ebenfalls aufschlussreich für das weitere Verständnis der AMS sein. Dies trifft auch auf die TFs MtNTS und MtDES zu, die zwar nicht ausschließlich arbuskelspezifisch transkribiert werden, aber auch eine Rolle in der Regulation der AMS innerhalb von M. truncatula Wurzeln zu spielen scheinen. / The mycorrhiza (Greek: mýkēs for "mushroom"; rhiza for "root") is a symbiosis between fungi and the vast majority of land plants. The fungus improves the nutrient supply of the plant, while the plant provides the fungus with carbohydrates. The arbuscular my-corrhiza (AM) represents a special type of mycorrhiza. The AM forms during the sym-biosis eponymous arbuscules within the root cells as the supposed site of the major nu-trient exchange. The AM symbiosis (AMS) is the research focus of this work. Medicago truncatula and Glomus intraradices were used as model organisms. During the project several transcription analysis were performed to identify AMS re-gulated transcription factors (TFs). The activity of the promoters of three of the identified AMS regulated TFs (MtOFTN, MtNTS, MtDES) were visualised using a reporter gene. Cells with promoter activity were in one case the arbuscle containing cells (MtOFTN). In the another case, the promoter was also weakly active in non arbuscle containing cells, however the major site of activity were the arbuscle containing cells (MtNTS). Another promoter was active in arbuscle containing and adjacent cells (MtDES). In addition, other genes were identified as AMS regulated and for three of these genes (MtPPK, MtAmT, MtMDRL) a promoter::reporter activity study was conducted, too. The promoters of the kinase (MtPPK) and the ammonium transporter (MtAmT) were active exclusively in arbuscle containing cells, whereas the activity of the ABC-transporter (MtMDRL) could not be assigned to a specific cell type. For two other identified genes (a copper transporter (MtCoT) and a sugar/ inositol transporter (MtSuT)) RNA-interference (RNAi) studies were carried out. The studies revealed in both cases that, once an RNAi effect was present in the transformed roots, the roots were colonised by G. intraradices in a much lesser extent as in the vector-control. In the case of MtCoT it maybe has the same basic principle as in the case of the phosphate transporter MtPt4. Which role MtSuT and inositol plays during the fo-rmation of the AMS has to be reviewed. Further examinations on the genes MtAmT, MtPPK and MtOFTN could also be reveal-ing for the understanding of the AMS, as their promotors, as shown in this thesis, are exclusively active in arbuscle containing cells The same can be said for the TFs MtNFTS and MtDES. They are not exclusively transcripted in arbuscle containing cells, but nevertheless seem to play a role in the formation of the AMS within M. truncatula roots.

Mykorrhiza

Medicago truncatula

Transkriptom

RNAi

Promotor

Mycorrhiza

Medicago truncatula

transcriptomics

RNAi

Promotor

Life sciences

Assessment of Arbuscular Mycorrhizal Fungi in a Green Roof System

John, Jesse

08 August 2013

Green roof design has proceeded without integration of arbuscular mycorrhizal fungi (AMF). A literature survey was therefore conducted in order to determine which aspects of green roof functioning might be enhanced by AMF, and subsequently levels of AMF and endophyte colonization were determined for seven plant species used in green roofs. Plants were sampled from an experimental green roof and from the field. A commercial growing medium was also tested for AMF inoculum potential. Colonization was poor in both field and rooftop samples of the commercially popular succulent, Sedum acre, but significantly higher in Solidago bicolor, a proposed green roof species. The commercial growing medium was found to contain extremely low levels of viable AMF propagules. Although the apparent lack of mycorrhizal dependency of S. acre helps to explain its popularity as a green roof plant, its overuse precludes the important ecosystem services potentially provided by AMF symbioses.

arbuscular mycorrhiza

urban ecology

green roof

endophyte

sustainable design

urban soil ecology