ABSTRACT
Abstract Arbuscular mycorrhizae (AM) fungi play a crucial role in the growth of soybean; however, the planting system employed is thought to have an effect on AM fungal communities in the rhizosphere. This study was performed to explore the influence of continuous soybean cropping on the diversity of Arbuscular mycorrhizal (AM) fungi, and to identify the dominant AM fungus during the seedling stage. Three soybean cultivars were planted under two and three years continuous cropping, respectively. The diversity of AM fungi in the rhizosphere soil at the seedling stage was subsequently analyzed using polymerase chain reaction (PCR)-denaturing gradient gel electrophoresis (DGGE). The results showed that an increase in cropping years improved the colonization rate of AM in all three soybean cultivars. Moreover, the dominant species were found to be Funneliformis mosseae and Glomus species. The results of cluster analysis further confirmed that the number of years of continuous cropping significantly affected the composition of rhizospheric AM fungal communities in different soybean cultivars.
Subject(s)
Soil Microbiology , Glycine max/growth & development , Mycorrhizae/isolation & purification , Mycorrhizae/classification , Seedlings/growth & development , Biodiversity , Rhizosphere , Time Factors , Cluster Analysis , Polymerase Chain Reaction , Mycorrhizae/genetics , Denaturing Gradient Gel ElectrophoresisABSTRACT
ABSTRACT Arbuscular mycorrhizal fungi provide several ecosystem services, including increase in plant growth and nutrition. The occurrence, richness, and structure of arbuscular mycorrhizal fungi communities are influenced by human activities, which may affect the functional benefits of these components of the soil biota. In this study, 13 arbuscular mycorrhizal fungi isolates originating from soils with different land uses in the Alto Solimões-Amazon region were evaluated regarding their effect on growth, nutrition, and cowpea yield in controlled conditions using two soils. Comparisons with reference isolates and a mixture of isolates were also performed. Fungal isolates exhibited a wide variability associated with colonization, sporulation, production of aboveground biomass, nitrogen and phosphorus uptake, and grain yield, indicating high functional diversity within and among fungal species. A generalized effect of isolates in promoting phosphorus uptake, increase in biomass, and cowpea yield was observed in both soils. The isolates of Glomus were the most efficient and are promising isolates for practical inoculation programs. No relationship was found between the origin of fungal isolate (i.e. land use) and their symbiotic performance in cowpea.
Subject(s)
Soil/chemistry , Soil Microbiology , Symbiosis/physiology , Mycorrhizae/isolation & purification , Mycorrhizae/physiology , Vigna/growth & development , Phosphorus/analysis , Time Factors , Brazil , Plant Roots/microbiology , Biodiversity , Vigna/microbiology , Nitrogen/analysisABSTRACT
ABSTRACT Plants response to symbiosis with arbuscular mycorrhizal fungi (AMF) under water stress is important to agriculture. Under abiotic stress conditions native fungi are more effective than exotics in improving plant growth and water status. Mycorrhization efficiency is related to soil fungi development and energy cost-benefit ratio. In this study, we assessed the effect on growth, water status and energy metabolism of Cucurbita pepo var. pepo when inoculated with native AMF from the Sonoran desert Mexico (mixed isolate and field consortium), and compared with an exotic species from a temperate region, under drought, low and high salinity conditions. Dry weights, leaf water content, water and osmotic potentials, construction costs, photochemistry and mycorrhization features were quantified. Under drought and low salinity conditions, the mixed isolate increased plant growth and leaf water content. Leaf water potential was increased only by the field consortium under drought conditions (0.5-0.9 MPa). Under high salinity, the field consortium increased aerial dry weight (more than 1 g) and osmotic potential (0.54 MPa), as compared to non-mycorrhized controls. Plants inoculated with native AMF, which supposedly diminish the effects of stress, exhibited low construction costs, increased photochemical capacity, and grew larger external mycelia in comparison to the exotic inoculum.
Subject(s)
Cucurbita/microbiology , Mycorrhizae/physiology , Fungi/physiology , Soil/chemistry , Water/analysis , Water/metabolism , Plant Leaves/growth & development , Plant Leaves/metabolism , Biomass , Cucurbita/growth & development , Cucurbita/physiology , Mycorrhizae/isolation & purification , Mycorrhizae/classification , Desert Climate , Salinity , Droughts , Fungi/isolation & purification , Fungi/classification , MexicoABSTRACT
ABSTRACT Sophora tomentosa is a pantropical legume species with potential for recovery of areas degraded by salinization, and for stabilization of sand dunes. However, few studies on this species have been carried out, and none regarding its symbiotic relationship with beneficial soil microorganisms. Therefore, this study aimed to evaluate the diversity of nitrogen-fixing bacteria isolated from nodules of Sophora tomentosa, and to analyze the occurrence of colonization of arbuscular mycorrhizal fungi on the roots of this legume in seafront soil. Thus, seeds, root nodules, and soil from the rhizosphere of Sophora tomentosa were collected. From the soil samples, trap cultures with this species were established to extract spores and to evaluate arbuscular mycorhizal fungi colonization in legume roots, as well as to capture rhizobia. Rhizobia strains were isolated from nodules collected in the field or from the trap cultures. Representative isolates of the groups obtained in the similarity dendrogram, based on phenotypic characteristics, had their 16S rRNA genes sequenced. The legume species showed nodules with indeterminate growth, and reddish color, distributed throughout the root. Fifty-one strains of these nodules were isolated, of which 21 were classified in the genus Bacillus, Brevibacillus, Paenibacillus, Rhizobium and especially Sinorhizobium. Strains closely related to Sinorhizobium adhaerens were the predominant bacteria in nodules. The other genera found, with the exception of Rhizobium, are probably endophytic bacteria in the nodules. Arbuscular mycorrhizal fungi was observed colonizing the roots, but arbuscular mycorhizal fungi spores were not found in the trap cultures. Therefore Sophora tomentosa is associated with both arbuscular mycorhizal fungi and nodulating nitrogen-fixing bacteria.
Subject(s)
Bacteria/isolation & purification , Fungi/isolation & purification , Mycorrhizae/isolation & purification , Sophora/microbiology , Symbiosis , Bacterial Physiological Phenomena , Bacteria/classification , Bacteria/genetics , Fungi/classification , Fungi/genetics , Fungi/physiology , Mycorrhizae/classification , Mycorrhizae/genetics , Mycorrhizae/physiology , Phylogeny , Plant Roots/microbiology , Soil Microbiology , Sophora/physiologyABSTRACT
Abstract Many plant species from Brazilian semi-arid present arbuscular mycorrhizal fungi (AMF) in their rhizosphere. These microorganisms play a key role in the establishment, growth, survival of plants and protection against drought, pathogenic fungi and nematodes. This study presents a quantitative analysis of the AMF species associated with Mimosa tenuiflora, an important native plant of the Caatinga flora. AMF diversity, spore abundance and root colonization were estimated in seven sampling locations in the Ceará and Paraíba States, during September of 2012. There were significant differences in soil properties, spore abundance, percentage of root colonization, and AMF diversity among sites. Altogether, 18 AMF species were identified, and spores of the genera Acaulospora, Claroideoglomus, Dentiscutata, Entrophospora, Funneliformis, Gigaspora, Glomus, Racocetra, Rhizoglomus and Scutellospora were observed. AMF species diversity and their spore abundance found in M. tenuiflora rhizosphere shown that this native plant species is an important host plant to AMF communities from Brazilian semi-arid region. We concluded that: (a) during the dry period and in semi-arid conditions, there is a high spore production in M. tenuiflora root zone; and (b) soil properties, as soil pH and available phosphorous, affect AMF species diversity, thus constituting key factors for the similarity/dissimilarity of AMF communities in the M. tenuiflora root zone among sites.
Subject(s)
Mycorrhizae/isolation & purification , Mimosa/microbiology , Fungi/isolation & purification , Seasons , Soil Microbiology , Spores, Fungal/isolation & purification , Spores, Fungal/classification , Spores, Fungal/growth & development , Spores, Fungal/genetics , Brazil , Plant Roots/microbiology , Mycorrhizae/classification , Mycorrhizae/growth & development , Mycorrhizae/genetics , Biodiversity , Fungi/classification , Fungi/growth & development , Fungi/geneticsABSTRACT
Sugarcane (Saccharum spp.) is grown on over 8 million ha in Brazil and is used to produce ethanol and sugar. Some sugarcane fields are burned to facilitate harvesting, which can affect the soil microbial community. However, whether sugarcane pre-harvest burning affects the community of arbuscular mycorrhizal fungi (AMF) and symbioses development is not known. In this study, we investigated the early impacts of harvest management on AMF spore communities and root colonization in three sugarcane varieties, under two harvest management systems (no-burning and pre-harvest burning). Soil and root samples were collected in the field after the first harvest of sugarcane varieties SP813250, SP801842, and RB72454, and AMF species were identified based on spore morphology. Diversity indices were determined based on spore populations and root colonization determined as an indicator of symbioses development. Based on the diversity indices, spore number and species occurrence in soil, no significant differences were observed among the AMF communities, regardless of harvest management type, sugarcane variety or interactions between harvest management type and sugarcane variety. However, mycorrhiza development was stimulated in sugarcane under the no-burning management system. Our data suggest that the sugarcane harvest management system may cause early changes in arbuscular mycorrhiza development.
Subject(s)
Agriculture/methods , Biodiversity , Mycorrhizae/growth & development , Saccharum/microbiology , Brazil , Mycorrhizae/classification , Mycorrhizae/isolation & purification , Plant Roots/microbiology , Soil MicrobiologyABSTRACT
Arbuscular mycorrhizal fungi (AMF) colonize land plants in every ecosystem, even extreme conditions such as saline soils. In the present work we report for the first time the mycorrhizal status and the vertical fungal distribution of AMF spores present in the rhizospheric soil samples of four species of Chenopodiaceae (Allenrolfea patagonica, Atriplex argentina, Heterostachys ritteriana and Suaeda divaricata) at five different depths in two saline of central Argentina. Roots showed medium, low or no colonization (0-50%). Nineteen morphologically distinctive AMF species were recovered. The number of AMF spores ranged between 3 and 1162 per 100 g dry soil, and AMF spore number decreased as depth increased at both sites. The highest spore number was recorded in the upper soil depth (0-10 cm) and in S. divaricata. Depending of the host plant, some AMF species sporulated mainly in the deep soil layers (Glomus magnicaule in Allenrolfea patagonica, Septoglomus aff. constrictum in Atriplex argentina), others mainly in the top layers (G. brohultti in Atriplex argentina and Septoglomus aff. constrictum in Allenrolfea patagonica). Although the low percentages of colonization or lack of it, our results show a moderate diversity of AMF associated to the species of Chenopodiaceae investigated in this study. The taxonomical diversity reveals that AMF are adapted to extreme environmental conditions from saline soils of central Argentina.
Subject(s)
Biota , Mycorrhizae/isolation & purification , Soil Microbiology , Sodium Chloride/analysis , Soil/chemistry , Argentina , Colony Count, Microbial , Microscopy , Mycorrhizae/classification , Mycorrhizae/cytology , Plant Roots/microbiology , Spores, Fungal/isolation & purificationABSTRACT
Os compostos fenólicos encontrados no extrato das folhas de maracujazeiro doce (Passiflora alata Curtis) são os principais responsáveis pelos efeitos terapêuticos, incluindo a atividade ansiolítica. O presente trabalho avaliou o efeito de diferentes espécies de fungo micorrízicos arbusculares (FMAs) e doses de fósforo sobre a bioprodução de fenóis totais, bem como, o crescimento vegetal e os conteúdos de nitrogênio, fósforo e potássio na massa da matéria seca da parte aérea do maracujazeiro doce. O experimento, fatorial 4x2, foi conduzido em um telado com quatro tratamentos microbiológicos: Glomus etunicatum, Glomus intraradices, inóculo misto (Glomus clarum e Gigaspora margarita) e o controle sem fungo, e duas doses de fósforo: 0 e 50 mg kg-1 de solo. O delineamento experimental foi de blocos casualizados com quatro repetições. As plantas foram colhidas 90 dias após a semeadura. Na ausência da adubação fosfatada, o conteúdo de fenóis totais, a massa da matéria seca da parte aérea e o número de folhas foram maiores nos tratamentos inoculados com FMAs, quando comparados ao tratamento sem fungo. Plantas com inóculo misto apresentaram maior altura com ou sem adubação fosfatada. Os tratamentos inoculados com FMAs, tanto na dose 0 quanto na dose 50 mg kg-1 de P incrementaram os conteúdos de N, P e K na parte aérea do maracujazeiro doce, evidenciando a capacidade dos FMAs em promover o melhor estado nutricional das plantas.
The phenolic compounds found in extracts from leaves of sweet passion fruit (Passiflora alata) are mainly responsible for its therapeutic effects, such as the anxiolytic activity. This study evaluated the effects of different species of mycorrhizal fungi (AMF) and phosphorus levels on the bioproduction of total phenols, as well as plant growth and the contents of nitrogen, phosphorus and potassium in the dry mass of shoots of sweet passion fruit. The experiment was conducted in a greenhouse. The factors were arranged in a :[(microbiological treatments: Glomus etunicatum, Glomus intraradices, mixed inoculum (Glomus clarum and Gigaspora margarita) and without fungus] x 2 (doses of phosphorus: 0 and 50 mg kg-1 soil) factorial arrangement, in a randomized block experimental design with four replications. The plants were harvested 90 days after seeding. In the absence of phosphate fertilization, the total phenol content, dry mass of shoot and leaf number were greater in treatments inoculated with AMF compared to the treatments without fungus. Mixed inoculum plants had higher plant height with or without phosphate fertilization. Treatments inoculated with AMF in both the 0 and 50 mg kg-1 doses of P increased the content of N, P and K in the shoots of sweet passion fruit, demonstrating the ability of AMF to promote better nutritional statusfin plants.
Subject(s)
Passiflora/classification , Phenolic Compounds/adverse effects , Substrates for Biological Treatment/analysis , Mycorrhizae/isolation & purificationABSTRACT
Stone pine (Pinus pinea L.), like other conifers, forms ectomycorrhizas (ECM), which have beneficial impact on plant growth in natural environments and forest ecosystems. An in vitro co-culture of stone pine microshoots with pure mycelia of isolated ECM sporocarps was used to overcome the root growth cessation not only in vitro but also to improve root development during acclimation phase. Pisolithus arhizus (Scop.) Rauschert and Lactarius deliciosus (L. ex Fr.) S.F. Gray fungi, were collected, pure cultured and used in in vitro co-culture with stone pine microshoots. Samples of P. arhizus and L. deliciosus for the in vitro co-cultures were collected from the pine stands southwest Portugal. The in situ characterization was based on their morphotypes. To confirm the identity of the collected material, ITS amplification was applied using the pure cultures derived from the sporocarps. Additionally, a molecular profile using PCR based genomic fingerprinting comparison was executed with other genera of Basidiomycetes and Ascomycetes. Our results showed the effectiveness of the techniques used to amplify DNA polymorphic sequences, which enhances the characterization of the genetic profile of ECM fungi and also provides an option to verify the fungus identity at any stage of plant mycorrhization.
Subject(s)
Mycorrhizae/classification , Mycorrhizae/isolation & purification , Pinus/microbiology , Cluster Analysis , DNA, Fungal/chemistry , DNA, Fungal/genetics , DNA, Plant/chemistry , DNA, Plant/genetics , DNA, Ribosomal Spacer/chemistry , DNA, Ribosomal Spacer/genetics , Molecular Sequence Data , Mycorrhizae/genetics , Mycorrhizae/growth & development , Phylogeny , Portugal , Sequence Analysis, DNAABSTRACT
Este trabalho foi realizado com o objetivo de verificar a ocorrência de fungos micorrízicos, identificar suas espécies, e avaliar a colonização em raízes de plantas de diferentes populações e variedades de Anemopaegma arvense, uma planta medicinal do Cerrado em risco de extinção. As avaliações da colonização micorrízica e identificação de espécies de fungos micorrízicos arbusculares (FMAs) foram realizadas no Laboratório de Microbiologia do Solo da Universidade Federal de Lavras (UFLA). Foram utilizadas raízes de 10 plantas coletadas em diferentes locais juntamente com as amostras de solo próximo ao sistema radicular de populações naturais das variedades: glabra, puberula e petiolata. Os esporos foram extraídos do solo por meio da metodologia de peneiramento úmido e, para a avaliação e observação da colonização radicular, as raízes coradas foram observadas em microscópio estereoscópico (ampliação 10 a 40x). Em todas as amostras analisadas foi possível identificar espécies de FMAs, exceto para a variedade puberula, coletada no município de Mogi Guaçu-SP. O número de esporos variou de maneira significativa entre as amostras e os locais amostrados, não havendo distribuição regular. Acaulospora scrubiculata, A. spinosa, A. longula, Escustelospora heterogama, Paraglomus occultum, Gigaspora margarita, Gigaspora sp., dentre outros, encontram-se entre as espécies identificadas. Quanto à avaliação da colonização micorrízica nas raízes, observou-se que todas as variedades foram colonizadas no sitema radicular, verificada por meio da presença de hifas. No entanto, a colonização não foi constatada em todas as amostras avaliadas e também não foi observada a formação de arbúsculos e/ou vesículas.
This work was carried out to verify the occurrence, identify species of mycorrhizal fungi and to evaluate the colonization in roots of plants of different varieties and populations of Anemopaegma arvense, a medicinal plant from the Savannah, in danger of extinction. Assessments of mycorrhizal infection and identification of species of mycorrhizal fungi (AMF) were conducted at the Laboratory of Soil Microbiology, Federal University of Lavras (UFLA). We used roots from 10 plants collected at different sites, along with samples of soil near the root system of natural populations of the varieties glabra, puberula and petiolata. Spores were extracted from soil by the wet sifting methodology and, for the assessment and observation of the root colonization, the stained roots were observed under a stereomicroscope (magnification 10 to 40x), respectively. In all samples it was possible to identify AMF species, except for the variety puberula, collected in the municipality of Mogi Guaçu - SP. The number of spores varied significantly between samples and sampling sites, with no regular distribution. Acaulospora scrubiculata, A. spinosa, A. longula, Escustelospora heterogama, Paraglomus occultum, Gigaspora margarita, Gigaspora sp. among others, are some of the species identified. Regarding the assessment of mycorrhizal infection in the roots, we observed that all the varieties analyzed showed colonization by hyphae. However, not all samples assessed presented colonization and the formation of arbuscules and/or vesicles was not observed.
Subject(s)
Endangered Species/trends , Bignoniaceae/classification , Mycorrhizae/isolation & purification , Plant Roots/growth & developmentABSTRACT
The goals of this study were to evaluate the microbial activity, arbuscular mycorrhizal fungi and inoculation of woody plants (Caesalpinia ferrea, Mimosa tenuiflora and Erythrina velutina) in lead contaminated soil from the semi-arid region of northeastern of Brazil (Belo Jardim, Pernambuco). Dilutions were prepared by adding lead contaminated soil (270 mg Kg-1) to uncontaminated soil (37 mg Pb Kg soil-1) in the proportions of 7.5 percent, 15 percent, and 30 percent (v:v). The increase of lead contamination in the soil negatively influenced the amount of carbon in the microbial biomass of the samples from both the dry and rainy seasons and the metabolic quotient only differed between the collection seasons in the 30 percent contaminated soil. The average value of the acid phosphatase activity in the dry season was 2.3 times higher than observed during the rainy season. There was no significant difference in the number of glomerospores observed between soils and periods studied. The most probable number of infective propagules was reduced for both seasons due to the excess lead in soil. The mycorrhizal colonization rate was reduced for the three plant species assayed. The inoculation with arbuscular mycorrhizal fungi benefited the growth of Erythrina velutina in lead contaminated soil.
Subject(s)
Biomass , Biotransformation , Environmental Microbiology , Fungi , Acid Phosphatase/analysis , Acid Phosphatase/isolation & purification , Metals, Heavy , Mycorrhizae/isolation & purification , Mycorrhizae/metabolism , Arid Zone/analysis , Lead , Methods , Plants , MethodsABSTRACT
The use of microorganisms to improve the availability of nutrients to plants is of great importance to agriculture. This study aimed to evaluate the effect of triple inoculation of cowpea with arbuscular mycorrhizal fungi (AMF), plant growth-promoting bacteria (PGPB) and rhizobia to maximize biological nitrogen fixation (BNF) and promote plant growth. The experiment was conducted in a greenhouse using cowpea plants (Vigna unguiculata L. Walp cv. IPA 206). The treatments included inoculation with strains of Bradyrhizobium sp. (BR 3267 and EI - 6) individually and as a mixture, an absolute control (AC) and mineral nitrogen control (NC), all combined with the presence or absence of native AMF (Glomus etunicatum) and PGPB (Paenibacillus brasilensis - 24) in a 5x2x2 factorial design. All treatments were replicated three times. Contrasts were performed to study the treatment of variables. Inoculation with Bradyrhizobium sp. (BR 3267 and EI - 6) and G. etunicatum favored nitrogen acquisition and phosphorus availability for the cowpea plants. Inoculation with P. brasilensis - 24 increased colonization by Bradyrhizobium sp. and G. etunicatum and promoted cowpea growth, while the nitrogen from symbiosis was sufficient to supply the plants nutritional needs.
Subject(s)
Bradyrhizobium/growth & development , Fungi , Fabaceae/growth & development , Mycorrhizae/growth & development , Mycorrhizae/isolation & purification , Nitrogen Fixation , Nutritive Value , Food Samples , Methods , MethodsABSTRACT
The utilization of rocks as fertilizers is limited by their low solubility. However, solubilization may be achieved by some micro-organisms, such as ectomycorrhizal fungi (ECMf). The aim of this study was to evaluate the potential of seven isolates of ECMf to solubilize two rocks, alkaline breccia and granite, and to liberate potassium and phosphorus for Eucalyptus dunnii seedlings under greenhouse conditions. Fungal inoculants were produced in a peat-vermiculite-liquid medium mixture and added to the planting substrate at 10 percent. Rocks were ground up and added at 0.500 mg and 16.0 mg per plant, as a source of phosphorus and potassium, respectively. Other nutrients were added and E. dunnii seeds were sown. Control plants, non-inoculated, were fertilized with the same amount of phosphorus and potassium using soluble forms. After 90 days, the plant height, shoot dry weight, root length, phosphorus and potassium contents, and mycorrhizal colonization were evaluated. Alkaline breccia was more efficient than granite as a source of phosphorus and potassium for the plants, and may be an alternative to conventional fertilizers. Isolates UFSC-Pt22 (Pisolithus sp.) and UFSC-Pt186 (Pisolithus microcarpus) were the most efficient in promoting plant growth, mainly when combined with alkaline breccia to replace potassium and phosphorus fertilizers, respectively.
Subject(s)
Complex Mixtures , Eucalyptus/genetics , Fungi , Mycorrhizae/isolation & purification , Plants , Soil/analysis , Methods , Serial Passage , Solubility , MethodsABSTRACT
Araucaria araucana (Molina) K. Koch is a conifer distributed in the Andean-Patagonian forests in the south of Argentina and Chile. The main objective of this work was to relate the different root classes appearing in A. araucana to mycorrhizal behavior. Samples were collected in three different sites in the Lanín National Park (NW Patagonia, Argentina). Two different root classes were present in A. araucana: longitudinal fine roots (LFR) and globular short roots (GSR). Both had extensive mycorrhizal arbuscular symbiosis (AM) and presented abundant hyphae and coils in root cells, a characteristic of the anatomical Paris-type. Dark septate fungal endophytes were also observed. Values of total AM colonization were high, with similar partial AM% values for each root class. Seasonal differences were found for total and partial colonization, with higher values in spring compared to autumn. Regarding the percentage of fungal structures between root classes, values were similar for vesicles and arbuscules, but higher coil percentages were observed in GSR compared to LFR. The percentages of vesicles increased in autumn, whereas the arbuscule percentages increased in spring, coinciding with the plant growth peak. Results show that both root classes of A. araucana in Andean-Patagonian forests are associated with AM fungi, which may have ecological relevance in terms of the importance of this symbiosis, in response to soil nutrient-deficiencies, especially high P-retention.
La conífera Araucaria araucana (Molina) K. Koch se encuentra distribuida en los bosques Andino-Patagónicos de Argentina y Chile. En este trabajo se relacionaron las diferentes clases morfológicas de raíces presentes en la especie con el comportamiento micorrícico. Las muestras fueron tomadas en tres sitios del Parque Nacional Lanín (NO de Patagonia, Argentina). Se observaron dos clases diferentes de raíces: raíces finas longitudinales (RFL) y raíces cortas globulares (RCG). Ambas clases presentaron una importante simbiosis micorrícico-arbuscular (MA), con abundante desarrollo de hifas intracelulares y rulos, característico del tipo anatómico Paris. También se observaron hifas marrones septadas. Los valores totales de colonización MA fueron altos, con porcentajes parciales similares en cada clase radicular. Se encontraron diferencias estacionales en los porcentajes de infección (totales y parciales), con valores mayores en primavera comparados con los de otoño. Los porcentajes de estructuras fúngicas presentes en cada clase radicular fueron similares para vesículas y arbúsculos, pero se observaron mayores valores de rulos en las RCG que en las RFL. Los porcentajes de vesículas aumentaron en otoño, mientras que los de arbúsculos lo hicieron en primavera, en coincidencia con el pico de crecimiento vegetativo de los árboles. Los resultados muestran una fuerte asociación simbiótica MA con A. araucana y su relevancia en términos ecológicos en respuesta a la deficiencia de nutrientes en el suelo, en especial, a la alta retención de fósforo.
Subject(s)
Tracheophyta/microbiology , Mycorrhizae/isolation & purification , Argentina , Climate , Plant Roots/microbiology , Plant Roots/ultrastructure , SeasonsABSTRACT
The viability and infectivity of an ectomycorrhizal inoculum (isolate UFSC-Rh90, Rhizopogon nigrescens), produced by submerged cultivation in an airlift bioreactor and immobilized in beads of calcium alginate gel, was studied. Inoculum remained 100 percent viable after 18 months in a 0.85 percent NaCl solution at 8 ± 1°C. Mycelium grew from the beads after 48 h when they were placed on a solid culture medium at 25 ± 1°C. Viability of pellets of non-immobilized mycelium stored under the same conditions decreased gradually after the third month of storage, reaching 0 percent by the 12th month. These pellets presented a gradual darkening, which was more intense in those located near the surface of the NaCl solution. In culture medium, these dark pellets showed no viability. Gel immobilization helps to maintain mycelium viability during storage and offers a physical protection when the inoculum is applied to the planting substrate. After eight months refrigeration, the immobilized inoculum was still able to infect Pinus taeda seedlings, colonizing an average of 37 percent of the root tips when inoculated in the plant growth substrate under greenhouse conditions. This inoculum presents a commercial potential to be produced and applied in forest nurseries.
Estudou-se a viabilidade e a infectividade de inoculante fúngico ectomicorrízico (isolado UFSC-Rh90, Rhizopogon nigrescens), produzido através de cultivo submerso em biorreator airlift e encapsulado em gel de alginato de cálcio. O inoculante permaneceu viável após 18 meses em solução de NaCl (0,85 por cento) a 8 ± 1°C. O micélio emergiu dessas cápsulas após 48 h de incubação a 25 ± 1°C em meio de cultura sólido. A viabilidade dos pellets de micélio não imobilizado, armazenados sob as mesmas condições, reduziu-se gradualmente após três meses de armazenamento e atingiu 0 por cento aos 12 meses. Esses pellets apresentaram um escurecimento gradual que foi mais intenso naqueles localizados próximos à superfície da solução de NaCl. Em meio de cultura, os pellets escurecidos mostraram-se inviáveis. A imobilização em gel mantém a viabilidade do micélio durante o armazenamento, além de oferecer uma barreira física quando aplicado ao substrato de plantio. Após oito meses de armazenamento sob refrigeração, o inoculante imobilizado colonizou uma média de 37 por cento das raízes curtas de mudas de Pinustaeda, quando aplicado ao substrato de plantio sob condições de casa-de-vegetação. Esse inoculante apresenta potencial para produção comercial e aplicação nos viveiros florestais.
Subject(s)
Bioreactors , In Vitro Techniques , Mycelium , Mycorrhizae/isolation & purification , Pinus , Rhizobium , Culture Media , Methods , Serial PassageABSTRACT
Se realizó el recuento de microorganismos cultivables (bacterias y hongos), microorganismos celulolíticos y endomicorrizas presentes en la hojarasca de bosque (finca Puente de Tierra) en el páramo Guerrero, Colombia. Los microorganismos aislados con mayor frecuencia pertenecían a los géneros Staphylococcus, Bacillus, Pseudomonas, Micrococcus, Penicillium, Rhodotorula y se aisló una cepa de Cladosporium sp. en un medio selectivo con carboximetil celulosa. Así mismo, se encontraron ocho morfotipos de endomicorrizas, entre los cuales predominaron especies de Glomus y Acaulospora. Este estudio contribuye con el conocimiento de la microbiota cultivable de hojarasca, que ha sido poco explorada en ecosistemas de páramo.
Subject(s)
Bacteria/classification , Bacteria/isolation & purification , Mycorrhizae/classification , Mycorrhizae/isolation & purificationABSTRACT
Avaliaram-se as comunidades de bactérias, fungos solubilizadores de fosfato e fungos micorrízicos arbusculares em dois diferentes ecossistemas. Foram feitas amostragens em duas áreas de Mata Atlântica, em Paraty - RJ, Brasil, uma de floresta secundária e outra de pastagem. Foram avaliados quatro meios de cultura: GL (glicose e extrato de levedura), GES (glicose, extrato de solo, KNO3, CaCl2, MgSO4, NaCl, FeEDTA solução de micronutrientes), GAGES (glicose, extrato de solo, arabinose, glicerol, CaCl2, MgSO4 e NaCl) e GELP (glicose, extrato de solo, extrato de levedura, peptona, CaCl2, MgSO4 e NaCl) para isolamento de microrganismos solubilizadores de fosfato. A identificação das bactérias solubilizadoras foi baseada na análise do 16 S rDNA, enquanto que os fungos solubilizadores e os micorrízicos arbusculares foram identificados pela sua morfologia. O maior número de bactérias solubilizadoras foi obtido usando os meios GL e GELP. O maior número de fungos solubilizadores foi obtido com os meios GAGES e GES. As bactérias solubilizadoras foram identificadas como Enterobacteriaceae e Bacillus sp., e os fungos como Aspergillus sp. Glomus macrocarpum e Glomus etunicatum foram as espécies de fungos micorrízicos dominantes nas áreas de floresta secundária e pastagem, respectivamente.
Subject(s)
Aspergillus/isolation & purification , Bacillus/isolation & purification , Enterobacteriaceae/isolation & purification , Mycorrhizae/isolation & purification , Poaceae/microbiology , Trees/microbiology , Aspergillus/classification , Aspergillus/genetics , Brazil , Bacillus/classification , Culture Media , DNA, Fungal/analysis , DNA, Ribosomal/analysis , Enterobacteriaceae/classification , Mycorrhizae/classification , Mycorrhizae/genetics , Phosphorus/metabolism , Seasons , Soil MicrobiologyABSTRACT
Se efectuó un ensayo en condiciones controladas utilizando hongos formadores de micorrizas arbusculares (HFMA) nativos, provenientes de un suelo rizosférico de Pennisetum clandestinum de la Universidad Nacional de Colombia (Bogotá), manteniéndolos en plantas de Brachiaria decumbens creciendo sobre sustrato arenoso suplementado con solución nutritiva. Se evaluaron diferentes tratamientos: plantas con inóculo de HFMA, plantas con Trichoderma harzianum, plantas con HFMA+T. harzianum y plantas control no inoculadas, con el fin de determinar las posibles interacciones entre dichos microorganismos, así como su efecto sobre el crecimiento de B. decumbens. La presencia de T. harzianum disminuyó la colonización radicular por HFMA, aunque no afectó la cantidad de esporas de HFMA/g suelo seco, en tanto que la población de T. harzianum (UFC/g suelo seco) disminuyó significativamente en presencia de HFMA. Estos resultados mostraron que existen interacciones entre HFMA y T. harzianum que afectan tanto el desarrollo de HFMA como la densidad poblacional de T. harzianum. Los valores obtenidos para los parámetros del crecimiento de la planta evaluados sugieren que el efecto de la interacción entre los microorganismos sobre la planta hospedera es de tipo neutral.
Subject(s)
Mycorrhizae/classification , Mycorrhizae/growth & development , Mycorrhizae/physiology , Mycorrhizae/isolation & purification , Poaceae/growth & development , Poaceae/microbiologyABSTRACT
Estudios recientes señalan que algunas especies de Mimosa (Leguminosae-Mimosoideae) forman islas de recursos (IR), ricas en materia orgánica y nutrientes del suelo, así como con esporas de hongos micorrizógenos arbusculares (HMA), en el Valle semiárido de Tehuacán-Cuicatlán. La importancia de este hecho radica en que las zonas áridas y semiáridas se caracterizan por la baja fertilidad del suelo y por su escasa precipitación, lo que limita el crecimiento y desarrollo de las especies vegetales, de manera que la presencia de HMA puede ser una ventaja para las plantas desérticas que forman micorrizas. Las fluctuaciones en el número de esporas de HMA del suelo pueden estar relacionadas con factores ambientales, edáficos y estacionales que afectan la esporulación de estos hongos, así como la historia de vida de la planta hospedera. El objetivo de este estudio fue evaluar el impacto de la heterogeneidad espacial (IR vs áreas abiertas, AA) y estacional (estación de lluvias vs inicio de sequía vs sequía) del suelo sobre la distribución y abundancia del número de esporas de HMA, en cuatro sitios de estudio en el Valle de Tehuacán-Cuicatlán. Se registraron esporas de HMA en las 120 muestras de suelo analizadas. Se registraron diferencias significativas al comparar entre el número de esporas de HMA del suelo bajo el dosel de las especies de Mimosa (IR) y el de las AA (IR > AA), así como al comparar entre los tres puntos de muestreo de suelo de las IR (suelo cercano al tronco > suelo debajo de la parte media de la copa > suelo debajo del margen de la copa). Sin embargo, no se registró diferencia significativa entre el número de esporas del suelo cercano al tronco y el del medio, así como entre el suelo del margen y el del AA. Finalmente, se reportó un mayor número de esporas en el suelo durante la estación de lluvias que durante la estación de sequía (lluvias > inicio de sequía > sequía). Por tanto, la distribución de esporas de HMA...
Recent studies have shown that some species of Mimosa (Leguminosae-Mimosoideae) create resource islands (RI), rich in soil organic matter and nutrients, as well as in arbuscular mycorrhyzal fungal (AMF) spores, in the semi-arid Valley of Tehuacán-Cuicatlán. The relevance of this fact is that arid and semi-arid regions are characterized by low fertility soils and scarce precipitation, limiting plant species growth and development; this explains why the presence of AM fungi may be advantageous for mycorrhizal desert plants. Fluctuations in AMF spore numbers could be related to environmental, seasonal and soil factors which affect AMF sporulation, in addition to the life history of the host plant. The aim of this study was to asses the impact of spatial (resource islands vs open areas, OA) and seasonal (wet season vs start of dry season vs dry season) soil heterogeneity in the distribution and abundance of AMF spores in four different study sites within the Valley. We registered AMF spores in the 120 soil samples examined. Significant differences in the number of AMF spores were reported in the soil below the canopy of Mimosa species (RI) comparing with OA (RI > OA), and between Mimosa RI themselves when comparing along a soil gradient within the RI (soil near the trunk > soil below the middle of the canopy > soil in the margin of the canopy > OA); however, there were no significant differences between the soil closest to the trunk vs middle, and margin vs OA. Finally, more spores were reported in the soil collected during the wet season than during the dry season (wet > start of dry > dry). Therefore, the distribution of AMF spores is affected by spatial and seasonal soil heterogeneity. This study points out the relevance of Mimosa RI as AMF spore reservoirs and the potential importance of AM fungi for plant species survivorship and establishment in semi-arid regions. AM fungi have recently...