Your search keyword '"Alicia M. Godeas"' showing total 7 results

1. LA INVESTIGACIÓN MICOLÓGICA EN LA ARGENTINA: PERIODO 1978-2016

Author

Irma J. Gamundí, Alicia M. Godeas, and Marta N. Cabello

Subjects

Science, Biology (General), QH301-705.5, Botany, QK1-989

Abstract

En este artículo se presenta el estado del arte de la micología en la Argentina con el propósito de reseñar los avances que permitieron posicionar esta disciplina a nivel mundial. Se presentan las principales áreas de investigación micológica, los laboratorios reconocidos y los investigadores para el país.

Published

2017

2. Interacciones microbianas: Efecto de hongos biocontroladores y solubilizadores de fósforo en los estadios pre-simbióticos de hongos micorrícico arbusculares

Author

Ivana F. Della Mónica,, Alicia M. Godeas, and Y José M. Scervino

Subjects

Gigaspora, hongos solubilizadores de fósforo, interacciones microbianas, micorrizas arbusculares, pre-infectivo, simbiosis, Science, Botany, QK1-989

Abstract

El fósforo (P) es un macronutriente poco biodisponible para las plantas y por lo tanto, limitante para su crecimiento. El uso de hongos solubilizadores de P (HS) es una alternativa prometedora en el aprovechamiento de la fertilización fosforada. Sin embargo, aún no se ha establecido si los HS tienen efectos sobre la micobiota benéfica del suelo, como los hongos micorrícico-arbusculares (HMA). Este trabajo estudia el efecto de HS con capacidad biocontroladora de fitopatógenos fúngicos sobre el desarrollo micorrícico preinfectivo de HMA, el primer paso en la colonización de la raíz, de los HMA. Se expusieron esporas del HMA Gigaspora rosea a distintas concentraciones de exudados (0; 0,01; 0,1; 1; 3%) de distintos HS: Talaromyces helicus cepa L7B, T. helicus cepa N24, T. diversus y Penicillium purpurogenum, en un sistema in vitro con medio semilíquido. Se evaluó la germinación de las esporas y la elongación, ramificación y morfología del micelio pre-infectivo. Se observó que solo T. diversus incrementó la germinación y que T. helicus L7B promovió la elongación, ramificación y modificó la morfología del micelio pre-infectivo del HMA sin afectar la germinación. Estos resultados demuestran que el desarrollo pre-infectivo de G. rosea (germinación, elongación, ramificación y morfología) puede ser modulado en función de la cepa de HS estudiada, sugiriendo que las interacciones microbianas podrían impactar positivamente sobre la nutrición fosforada vegetal mediante la modificación del estadio previo a la simbiosis micorrícica.

Published

2018

3. Mycorrhizal fungi isolated from native terrestrial orchids of pristine regions in Córdoba (Argentina)

Author

Agustina Fernández Di Pardo, Viviana M. Chiocchio, Viviana Barrera, Roxana P. Colombo, Alicia E. Martinez, Laura Gasoni, and Alicia M. Godeas

Subjects

Rhizoctonia, Epulorhiza, orquídeas terrestres, micorrizas, ITS-rDNA, Biology (General), QH301-705.5

Abstract

Orchidaceae is a highly dependent group on the Rhizoctonia complex that includes Ceratorhiza, Moniliopsis, Epulorhiza and Rhizoctonia, for seed germination and the development of new orchid plants. Thus, the isolation and identification of orchid mycorrhizal fungi are important to understand the orchid-fungus relationship, which can lead to the development of efficient conservation strategies by in vivo germination of seeds from endangered orchid plants. The aim of our work was to isolate and characterize the different mycorrhizal fungi found in roots of terrestrial orchids from Córdoba (Argentina), and, to learn about the natural habit and fungal associations in the Chaco Serrano woodland pristine region. In this study, bloomed orchid root and rhizosphere soil samples were obtained in two times from Valle de Punilla during spring of 2007; samples were kept in plastic bags until processed within 48 hours, and mycorrhizal condition confirmed assessing peloton presence. A total of 23 isolates of the orchideous mycorrhizal Rhizoctonia complex were obtained. The isolates were studied based on morphological characters and ITS-rDNA sequences. Morphological characteristics as color of colonies, texture, growth rate, hyphal diameter and length and presence of sclerotia were observed on culture media. To define the number of nuclei per cell, the isolates were grown in Petri dishes containing water-agar (WA) for three days at 25°C and stained with Safranine-O solution. The mycorrhizal fungi were grouped into binucleate (MSGib, 10 isolates) and multinucleate (MSGim, 13 isolates) based on morphological characteristics of the colonies. We obtained the ITS1-5.8s-ITS4 region that was amplified using primers ITS1 and ITS4. Based on DNA sequencing, isolates Q23 and Q29 were found to be related to species of Ceratobasidium. Isolates Q24 and Q4 were related to the binucleated anastomosis group AG-C of Rhizoctonia sp. The rest of the isolates grouped in the Ceratobasidium clade without grouping. From our knowledge this is the first report of the association of the AG-C testers with terrestrial orchids. A high specificity was observed in the symbiotic relationship. As the mycorrhizal fungal isolates were obtained from native orchids, they could be incorporated in conservation programes of endangered orchids in Argentina.

Published

2015

4. Mycorrhizal association in gametophytes and sporophytes of the fern Pteris vittata (Pteridaceae) with Glomus intraradices

Author

Alicia E, Martinez, Viviana, Chiocchio, Lo Tai, Em, María A, Rodriguez, and Alicia M, Godeas

Subjects

Spores, Mycorrhizae, Pteris, Germ Cells, Plant, Glomeromycota

Abstract

A Ferns, which are usually colonizing different environments and their roots frequently present mycorrhization, have two adult stages in their life cycle, the sporophytic and the gametophytic phase. This paper describes the experimental mycorrhizal association between Pteris vittata leptosporangiate fern and a strain of Glomus intraradices during the life cycle of the fern, from spore germination to the development of a mature sporophyte. The aim of this study was to compare the colonization pattern of in vitro cultures of G. intraradices along the fern life cycle with those found in nature. For this, mature spores were obtained from fertile P. vittata fronds growing in walls of Buenos Aires city, Argentina. Roots were stained and observed under the light microscope for arbuscular mycorrhizal colonization. Approximately, 75 fern spores were cultured in each pot filled with a sterile substrate and G. intraradices (BAFC No 51.331) as inoculum on the surface. After germination took place, samples were taken every 15 days until the fern cycle was completed. In order to determine colonization dynamics each sample was observed under optical and confocal microscope after staining. Gametophyte was classified as Adiantum type. Male and female gametangia were limited to the lower face, mycorrhizal colonization started when they were differentiated and took place through the rhizoids. Spores and vesicles were not found in this cycle stage. Paris-type mycorrhizal colonization was established in the midrib and in the embrionary foot. It was colonized by external mycelium. When the first root was developed soil inoculum colonized de novo this structure and Arum-type colonization was observed. This study proves that the type of colonization is determined by the structure of the host, not by the fungus. Both the gametophyte and embryo foot have determined growth and Paris-type colonization, while, sporophyte roots have undetermined growth and Arum-type colonization. The structures found in vitro cultures were highly similar to those found under natural conditions.

Published

2013

5. Mycorrhizal association in gametophytes and sporophytes of the fern Pteris vittata (Pteridaceae) with Glomus intraradices

Author

Alicia E Martinez, Viviana Chiocchio, Lo Tai Em, María A Rodriguez, and Alicia M Godeas

Subjects

colonización tipo Paris, colonización tipo arum, Pteridophyta-gametofito, colonización tipo paris, fungi, Pteris vittata, glomus intraradices, teris vittata, esporofito, colonización tipo Arum, Pteridophyta-gametophyte sporophyte, pteris vittata, paris colonization, lcsh:Biology (General), Paris colonization, Glomus intraradices, arum colonization, lcsh:QH301-705.5, pteridophyta-gametofito, Arum colonization, pteridophyta-gametophyte-sporophyte

Abstract

Ferns, which are usually colonizing different environments and their roots frequently present mycorrhization, have two adult stages in their life cycle, the sporophytic and the gametophytic phase. This paper describes the experimental mycorrhizal association between Pteris vittata leptosporangiate fern and a strain of Glomus intraradices during the life cycle of the fern, from spore germination to the development of a mature sporophyte. The aim of this study was to compare the colonization pattern of in vitro cultures of G. intraradices along the fern life cycle with those found in nature. For this, mature spores were obtained from fertile P. vittata fronds growing in walls of Buenos Aires city, Argentina. Roots were stained and observed under the light microscope for arbuscular mycorrhizal colonization. Approximately, 75 fern spores were cultured in each pot filled with a sterile substrate and G. intraradices (BAFC N° 51.331) as inoculum on the surface. After germination took place, samples were taken every 15 days until the fern cycle was completed. In order to determine colonization dynamics each sample was observed under optical and confocal microscope after staining. Gametophyte was classified as Adiantum type. Male and female gametangia were limited to the lower face, mycorrhizal colonization started when they were differentiated and took place through the rhizoids. Spores and vesicles were not found in this cycle stage. Paris-type mycorrhizal colonization was established in the midrib and in the embrionary foot. It was colonized by external mycelium. When the first root was developed soil inoculum colonized de novo this structure and Arum-type colonization was observed. This study proves that the type of colonization is determined by the structure of the host, not by the fungus. Both the gametophyte and embryo foot have determined growth and Paris-type colonization, while, sporophyte roots have undetermined growth and Arum-type colonization. The structures found in vitro cultures were highly similar to those found under natural conditions. Rev. Biol. Trop. 60 (2): 857-865. Epub 2012 June 01.Los helechos presentan dos etapas en su ciclo de vida, una fase esporofítica y una gametofítica. Estos por lo general pueden colonizar diferentes ambientes y frecuentemente presentan raíces micorrizadas. Este estudio describe la asociación experimental entre Pteris vittata, un helecho leptosporangiado y una cepa de Glomus intraradices durante el ciclo de vida del helecho, desde la germinación de las esporas hasta el desarrollo del esporofito maduro. El objetivo de este estudio fue comparar los patrones de colonización de G. intraradices a lo largo de todo el ciclo de vida del helecho con los tipos encontrados en la naturaleza. Las esporas maduras fueron obtenidas de frondes fértiles de P. vittata que crecen sobre las paredes de la ciudad de Buenos Aires, Argentina. Las raíces se tiñeron y fueron observadas bajo microscopio óptico para el estudio de la colonización micorrízica. Aproximadamente 75 esporas de helecho se cultivaron en macetas con un sustrato estéril y con un inóculo de G. intraradices (N° 51.331 BAFC) en la superficie. Después de la germinación, se tomaron muestras cada 15 días hasta que se completó el ciclo de vida del helecho. Con el fin de determinar la dinámica de la colonización, cada muestra se observó con el microscopio óptico y el microscopio de confocal luego de la tinción correspondiente. El gametofito fue clasificado como del tipo “Adiantum”. Los gametangios femeninos y masculinos se desarrollaron en la cara inferior del mismo. La micorrización comenzó cuando los gametangios estaban ya diferenciados y la colonización se produjo a través de los rizoides. Las esporas y las vesículas no se encontraron en esta fase del ciclo. La micorrizacion tipo Paris se observó sobre la línea de la nervadura central. El pie del esporofito fue colonizado por el micelio externo. Cuando la raíz se desarrolló, se colonizó “de novo”, y se observó una colonización de tipo Arum. Este estudio demuestra que el tipo de colonización está determinado por la estructura del helecho y no por el hongo. Tanto el gametofito como el pie del embrión tienen crecimiento definido y colonización tipo Paris, mientras que las raíces del esporofito presentan un crecimiento indeterminado y una colonización tipo Arum. Las estructuras que se encontraron bajo cultivo coinciden con las que se encontraron en condiciones naturales.

Published

2012

6. Decomposition studies on Pinus taeda forest II. Decomposition of leaf litter

Author

ALICIA M. GODEAS

Subjects

Soil Science, Ecology, Evolution, Behavior and Systematics

Published

1987

7. Differential effects of two strains of Rhizophagus intraradices on dry biomass and essential oil yield and composition in Calamintha nepeta

Author

Roxana P Colombo, Alicia E Martínez, Agustina Fernández di Pardo, Laura Fernández Bidondo, Catalina van Baren, Paola di Leo Lira, and Alicia M Godeas

Subjects

Simbiosis micorrícica arbuscular, Calamintha nepeta, Rendimiento de aceites esenciales, Composición de aceites esenciales, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

The aim of this work was to determine the effects of two geographically different strains of Rhizophagus intraradices (M3 and GA5) on the total biomass and essential oil (EO) yield and composition of Calamintha nepeta, with or without phosphorus (P) fertilization, under greenhouse conditions.The plant biomass was not significantly affected by any of the treatments, showing higher values in control plants. Strains had a differential response in their root colonization rates: M3 reduced these parameters while GA5 did not modify them. Both strains affected EO yield in absence of P fertilization: M3 promoted EO yield in C. nepeta plants and GA5 resulted in negative effects. The percentage composition of EO was not significantly modified by either strain or P fertilization. M3 strain could be a potential fungal bioinoculant for production and commercialization of C. nepeta in the aromatic plant market.