RESUMEN
Introducción: Las investigaciones sobre ontogenia de los soros, esporangios, paráfisis receptaculares y esporogénesis de los helechos leptosporangiados son escasas en la literatura científica. Objectivos: Describiry analizar la ontogenia de los soros, esporangios, paráfisis receptaculares y esporogénesis de Phymatosorus scolopendria. Métodos: Entre marzo y mayo 2017 (época lluviosa del año) se recolectaron frondas fértiles de P. scolopendria en el campus de la Universidad de Antioquia, Medellín-Colombia.Las frondas fértiles, en diferentes etapas del desarrollo se fijaron y procesaron de acuerdo a protocolos estándar para la inclusión y corte en parafina y resina. Las secciones de 0.5 µm obtenidas en resina se tiñeron con azul de Toluidina que tiñe diferencialmente paredes primarias y secundarias, resalta núcleos celulares, y esporopolenina y de manera secundaria tiñe polifenoles. Para descripciones detalladas, otros cortes se tiñeron con Safranina-azul de alciano que discrimina entre componentes de pared primaria, secundaria, núcleos, cutícula y polifenoles; Hematoxilina-azul de alciano para resaltar núcleos y paredes primarias y Fluoroglucinol ácido para detectar lignina. Las observaciones y registro fotográfico se efectuaron con microscopio fotónico. Para la observación y descripción con microscopía electrónica de barrido (MEB), los soros se deshidrataron con 2,2 dimetoxipropano, se desecaron a punto crítico y se metalizaron con oro. Resultados: Los soros son exindusiados, superficiales, vascularizados y de desarrollo mixto, se encuentran asociados a paráfisis receptaculares multicelulares uniseriadas. Durante el desarrollo del soro primero se diferencian las células epidérmicas receptaculares que darán origen a los esporangios y posteriormente las células que originarán a las paráfisis receptaculares. El esporangio es de tipo leptosporangio de pedicelos largos de una o dos filas de células. Los anillos de los esporangios muestran paredes secundarias con engrosamientos en forma de "U" ricos en lignina. La meiosis es simultánea y las tétradas de esporas se disponen de forma decusada o tetragonal. El tapete celular es inicialmente uniestratificado pero por una división mitótica de tipo periclinal, se torna biestratificado. Las células del estrato interno del tapete pierden la integridad estructural dando origen a un tapete plasmodial que invade los esporocitos en meiosis, el estrato externo persiste hasta la etapa de esporas maduras. En las diferentes etapas de desarrollo del esporodermo, primero se forma el exosporio, compuesto por esporopolenina, seguida del endosporio, conformado por celulosa, pectina y polisacáridos carboxilados y finalmente el perisporio. Los polifenoles fueron detectados, principalmente, en las vacuolas de las células de los esporangios, paráfisis y células receptaculares. Para el momento de la liberación de las esporas, tanto la capa externa del tapete celular como el plasmodial han degenerado por completo. En la cavidad esporangial se aprecian orbículas adyacentes a las esporas. Conclusiones: la ontogenia de los esporangios y esporogénesis de P. scolopendria es similar al descrito previamente para helechos leptosporangiados. Adicionalmente, se indica que las paráfisis receptaculares presentes en los soros de P. scolopendria tienen la función de protección de los esporangios durante las primeras etapas del desarrollo.
Introduction: Research about the ontogeny of sori, sporangia, receptacular paraphyses and sporogenesis of leptosporangiate ferns are scarce in the scientific literature. Objectives: To describe and analyze the ontogeny of sori, sporangia, receptacular paraphyses and sporogenesis of Phymatosorus scolopendria. Methods: Fertile fronds of P. scolopendria were collected in the campus of the Universidad de Antioquia, Medellín, Colombia, during the months March and May (annual rain season) of 2017. The fertile fronds of the samples at different developmental stages were fixed and processed according to the standard protocols for embedding and sectioning in paraffin and resin. Sections of 0.5 µm obtained in resin were stained with Toluidine blue, which differentially stains primary and secondary walls, highlights the cell nucleus and sporopolenin and secondarily stains polyphenols. For detailed descriptions, additional sections were processed with Safranin-Alcian blue, allowing the distinction of components of primary and secondary walls, nuclei, cuticle and polyphenols; Hematoxylin-Alcian blue to enhance nuclei and primary walls and Phloroglucinol-HCl for lignin. Observations and photographic records were done with a photonic microscope. For the observations and descriptions with scanning electron microscopy (SEM), the sori were dehydrated with 2,2-dimethoxypropane, critical point dried and coated with gold. Results: The sori are exindusiate, superficial, vascularized and have mixed development; they are associated with uniseriate and multicellular receptacle paraphyses. During the development of the sori, the epidermal cells of the receptacle that will form the sporangia are the first differentiated followed by those forming the receptacle paraphyses. The sporangium is leptosporangiate, with long stalks formed by one or two cell rows. The annulus of the sporangia displays secondary walls with U-shaped thickenings rich in lignin. The meiosis is simultaneous and the spore tetrads are arranged in a decussate or tetragonal shape. The cellular tapetum is initially unistratified but becomes bistratified after a periclinal division. The cells of the internal strata of the cellular tapetum loose structural integrity giving rise to a plasmodial tapetum that invades the meiotic sporocytes. During the sporoderm development, the sporopollenin-composed exospore is the first formed followed by the endospore, composed by cellulose, pectin and carboxylated polysaccharides; the process ends with the perispore. Polyphenols were mainly detected on vacuoles in cells of the sporangium, paraphysis and receptacle. When the time comes for the spore maturation, the remnants of cellular and the plasmodial tapeta have fully degenerated. Abundant orbicles are seen near the spores in the sporangial cavity. Conclusions: The ontogeny of the sporangia and sporogenesis of P. scolopendria are similar to the previously described for leptosporangiate ferns. Furthermore, in P. scolopendria, the receptacle paraphyses of the sori have a role protecting the sporangium during the early development stages.
Asunto(s)
Polypodiaceae/crecimiento & desarrollo , Esporangios/crecimiento & desarrollo , Colombia , Helechos/clasificaciónRESUMEN
Abstract During the last years Phytophthora infestans sensu lato (Mont. De Bary) has caused epidemics in Colombia in Andean fruit crops such as Solanum quitoense and Solanum betaceum. Establishment of new or modified experimental procedures to study this pathogen is a mandatory subject for scientists. Twelve isolates of Phytophthora spp. obtained from six different Solanum hosts in Colombia were used to evaluate the effect of five different solid media for growth and ability to produce sporangia and liberate zoospores. Determination of the best media culture and optimal growth temperature were necessary to perform measurements and correlate the provenance of isolates with phenotypic traits. Modifications were made to use ingredients available in local markets on the following media: lime bean agar (LBA), Tree tomato or tree tomato agar (TA), carrot agar (AZ), Rye A modified agar and 32% non-clarified V8 agar. Cardinal temperature determination was performed at 10, 15, 20, and 25 °C. Morphometric traits were measured once the optimal media culture and temperature were defined. Correlation analysis showed that there is a relationship between the host and isolate's preferences for media culture and optimal growth temperature. In addition, the production of characteristic sporangia, sporangiophore and mycelia was related with the media type used and host from which the isolate was collected. In this work useful information was provided to make studies about the biology and development of isolates gathered from cultivated and wild non-traditional hosts.
Resumo Durante os últimos anos Phytophthora infestans sensu lato causou epidemias na Colômbia em lavouras de frutos andinos, como Solanum quitoense e Solanum betaceum. Estabelecimento de procedimentos experimentais novos ou modificados para estudar este patógeno é um assunto obrigatório para os cientistas. Doze isolados de Phytophthora spp. obtidos de seis diferentes hosts Solanum na Colômbia foram usados para avaliar o efeito de cinco diferentes mídias sólidas para o crescimento e a capacidade de produzir esporângios e libertar zoósporos. Determinação da melhor cultura de mídia e temperatura de crescimento ideal foram necessárias para realizar medições e correlacionar a proveniência de isolados com traços fenotípica. Foram feitas modificações para usar os ingredientes disponíveis nos mercados locais nos seguintes meios: ágar do feijão de cal (LBA), tomate da árvore ou ágar do tomate da árvore (TA), ágar da cenoura (AZ), centeio um ágar modificado e 32% de ágar-V8 não-esclarecido. A determinação da temperatura Cardeal foi realizada em 10, 15, 20 e 25 °C. Traços morfométricos foram medidos uma vez que a cultura de mídia ideal e temperatura foram definidos. Análise de correlação mostrou que há uma relação entre o hospedeiro e isolar as preferências para a cultura de mídia e temperatura de crescimento ideal. Além disso, a produção de esporângios característica, esporangióforo e mycelia foi relacionada com o tipo de mídia utilizado e hospedeiros a partir do qual o isolado foi coletado. Neste trabalho foram fornecidas informações úteis para fazer estudos sobre a biologia e o desenvolvimento de isolados recolhidos de hospedeiros não-tradicionais cultivados e selvagens.
Asunto(s)
Solanum tuberosum , Solanum , Phytophthora infestans , Temperatura , ColombiaRESUMEN
Introducción: Las investigaciones sobre la ontogenia de los esporangios y más aún, de la estructura y función de las escamas receptaculares presentes en los soros de algunas especies de helechos, son escasos en la literatura científica. Objetivos: Describir y analizar la ontogenia de los esporangios y las escamas receptaculares de Pleopeltis macrocarpa. Metodología: Durante marzo y mayo de 2017 se recolectaron frondas fértiles de esta especie en los troncos de árboles en el vivero El Edén de las Flores en el municipio de Rionegro, Antioquia-Colombia. Las muestras se fijaron y procesaron de acuerdo a protocolos estándar para la inclusión y corte en parafina y resina. Las secciones obtenidas en resina (0.5 µm) se tiñeron con azul de Toluidina. Para descripciones adicionales sobre la anatomía e histoquímica se aplicaron reactivos específicos para determinar paredes primarias, secundarias, núcleos, lignina, polifenoles, polisacáridos, sustancias pécticas y celulosa. Las observaciones y registro fotográfico se efectuaron con microscopio fotónico y microscopía de epifluorescencia. Para observaciones con microscopía electrónica de barrido (MEB), los soros se deshidrataron con 2,2 dimetoxipropano, se desecaron a punto crítico y se metalizaron con oro. Resultados: Los soros son superficiales, vascularizados y de desarrollo mixto y están cubiertos por escamas receptaculares que se desprenden con la maduración de los esporangios. El esporangio de tipo leptosporangio tiene pedicelos largos de paredes primarias, anillos de los esporangios muestran paredes secundarias con engrosamientos en forma de "U" ricos en lignina. Las células epidérmicas de los receptáculos originan a los esporangios y las escamas receptaculares. Los eventos de división mitótica de estas dos estructuras son inicialmente similares, pero luego divergen para la diferenciación reproductiva y vegetativa de estos dos órganos. La meiosis es simultánea y las tétradas de esporas se disponen de forma decusada o tetragonal. El tapete celular es inicialmente uniestratificado pero por una división mitótica se torna biestratificado. Las células del estrato interno del tapete se rompen dando origen a un tapete plasmodial. En el desarrollo del esporodermo, primero se forma el exosporio, compuesto por esporopolenina, luego el endosporio compuesto de celulosa, pectina y polisacáridos carboxilados y finalmente el perisporio. Los resultados histoquímicos y de epifluorescencia indican que las paredes celulares tanto de los esporangios como las escamas receptaculares inmaduras son de naturaleza celulósica. Al madurar, estas estructuras, así como las células de la pared del esporangio mantienen esta composición. En tanto que las células epidérmicas de los escudos de las escamas receptaculares maduras se caracterizan por mostrar cutícula engrosada. Los polifenoles están presentes durante todas las etapas de desarrollo de los esporangios y escamas receptaculares. Los almidones son abundantes en etapas tempranas del desarrollo en las células del receptáculo y primordios de los esporangios. Conclusiones: La ontogenia de los esporangios de P. macrocarpa es similar al descrito para helechos leptosporangidos. Las escamas receptaculares son estructuras principalmente de protección, su morfología y composición de las paredes celulares evitan la desecación o perdida de humedad en los esporangios durante las etapas lábiles de su desarrollo. Estos resultados concuerdan con la función de protección atribuida a las escamas peltadas pluricelulares presentes en las estructuras vegetativas de algunas especies de helechos y angiospermas tolerantes a la sequía.
Introduction: The ontogeny of sporangia and furthermore the structure and function of the receptacle scales showed by the sori of some fern species are topics scarcely represented in the scientific literature. Objectives: To describe and analyze the ontogeny of sporangia and receptacle scales of Pleopeltis macrocarpa. Methods: During March and April of 2017, fertile fronds of P. macrocarpa were collected from tree stems located in the plant nursery "El Edén de las flores", municipality of Rionegro, Antioquia, Colombia. The samples were fixed and processed according to the standard protocols for embedding and sectioning in paraffin and resin. Sections obtained in resin (0.5 µm) were stained with Toluidine blue. The additional descriptions of the anatomy and histochemistry required specific reagents, applied for the determination of primary walls, secondary walls, nuclei, lignin, polyphenols, polysaccharides, pectic substances and cellulose. The observations and photographic records were performed by photonic and epifluorescence microscopy. For the scanning electron microscopy (SEM) technique, the sori were dehydrated with 2,2- Dimethoxypropane, dried to critical point and coated with gold. Results: The sori are superficial, vascularized and have mixed development, covered by receptacle scales that detach as the sporangia reaches maturity. The leptosporangiate type sporangium have long stalks of primary walls, the annulus of the sporangia shows secondary walls with "U" shaped thickenings rich in lignin. The epidermal cells of the receptacle originate the sporangia and receptacle scales. The mitotic division events of these two structures are initially similar, but then diverge for the reproductive and vegetative differentiation of these two organs. Meiosis is simultaneous and the spore tetrads are arranged in a decussate or tetragonal shape. The cellular tapetum is initially unstratified but becomes bistratified by mitotic division. The inner layer of the tapetum cells break originating a plasmodial tapetum. During the sporoderm development, the first structure formed is the exospore, composed of sporopolenin, followed by the endospore composed of cellulose, pectin and carboxilated polysaccharides, and finally the perispore. The histochemistry and epifluorescence results indicate that both the sporangia and immature receptacle scales have cell walls of cellulosic. These structures as well as those of the sporangium wall cells maintain its composition during maturation. Whereas, the epidermal wall cells of the shields from the mature receptacle scales are characterized by thickened cuticle. The polyphenols are present during all the development stages of the sporangia and receptacle scales. Starch is abundant in the early stages of development of the receptacle cells and sporangial primordia. Conclusions: The ontogeny of the sporangia of P. macrocarpa is similar to the described for leptosporangiate ferns. The receptacle scales are mainly protective structures, its morphology and cell wall composition prevent desiccation or humidity loss of the sporangia during the labile stages of development. These results agree with the protective function attributed to the peltated pluricellular scales present in the vegetative structures of drought tolerant species of ferns and angiosperms.
Asunto(s)
Polypodiaceae/microbiología , Esporangios/microbiología , ColombiaRESUMEN
Abstract During the last years Phytophthora infestans sensu lato (Mont. De Bary) has caused epidemics in Colombia in Andean fruit crops such as Solanum quitoense and Solanum betaceum. Establishment of new or modified experimental procedures to study this pathogen is a mandatory subject for scientists. Twelve isolates of Phytophthora spp. obtained from six different Solanum hosts in Colombia were used to evaluate the effect of five different solid media for growth and ability to produce sporangia and liberate zoospores. Determination of the best media culture and optimal growth temperature were necessary to perform measurements and correlate the provenance of isolates with phenotypic traits. Modifications were made to use ingredients available in local markets on the following media: lime bean agar (LBA), Tree tomato or tree tomato agar (TA), carrot agar (AZ), Rye A modified agar and 32% non-clarified V8 agar. Cardinal temperature determination was performed at 10, 15, 20, and 25 °C. Morphometric traits were measured once the optimal media culture and temperature were defined. Correlation analysis showed that there is a relationship between the host and isolates preferences for media culture and optimal growth temperature. In addition, the production of characteristic sporangia, sporangiophore and mycelia was related with the media type used and host from which the isolate was collected. In this work useful information was provided to make studies about the biology and development of isolates gathered from cultivated and wild non-traditional hosts.
Resumo Durante os últimos anos Phytophthora infestans sensu lato causou epidemias na Colômbia em lavouras de frutos andinos, como Solanum quitoense e Solanum betaceum. Estabelecimento de procedimentos experimentais novos ou modificados para estudar este patógeno é um assunto obrigatório para os cientistas. Doze isolados de Phytophthora spp. obtidos de seis diferentes hosts Solanum na Colômbia foram usados para avaliar o efeito de cinco diferentes mídias sólidas para o crescimento e a capacidade de produzir esporângios e libertar zoósporos. Determinação da melhor cultura de mídia e temperatura de crescimento ideal foram necessárias para realizar medições e correlacionar a proveniência de isolados com traços fenotípica. Foram feitas modificações para usar os ingredientes disponíveis nos mercados locais nos seguintes meios: ágar do feijão de cal (LBA), tomate da árvore ou ágar do tomate da árvore (TA), ágar da cenoura (AZ), centeio um ágar modificado e 32% de ágar-V8 não-esclarecido. A determinação da temperatura Cardeal foi realizada em 10, 15, 20 e 25 °C. Traços morfométricos foram medidos uma vez que a cultura de mídia ideal e temperatura foram definidos. Análise de correlação mostrou que há uma relação entre o hospedeiro e isolar as preferências para a cultura de mídia e temperatura de crescimento ideal. Além disso, a produção de esporângios característica, esporangióforo e mycelia foi relacionada com o tipo de mídia utilizado e hospedeiros a partir do qual o isolado foi coletado. Neste trabalho foram fornecidas informações úteis para fazer estudos sobre a biologia e o desenvolvimento de isolados recolhidos de hospedeiros não-tradicionais cultivados e selvagens.
RESUMEN
Phlegmariurus is the only genus of Lycopodiaceae with the species grouped in 22 informal groups. Species level relationships within Phlegmariurus are poorly understood and their circumscriptions require a thorough molecular and morphological review. A detailed study of morphology and anatomy of caulinar axes, lycophylls and sporangia of Phlegmariurus phylicifolius was carried out in order to contribute to the elucidation of species circumscription in the informal group Phlegmariurus phlegmaria. Small pieces of caulinar axes bearing trophophylls, sporophylls and sporangia were fixed, dehydrated, Histowax (paraffin) embedded, sectioned in a rotatory microtome, and stained using the common Safranin O-Fast Green technique; handmade cross sections were also made and stained with the same technique. P. phylicifolius includes slender, pendulous plants up to 40cm long. Shoots heterophyllous, in the basal divisions ca. 10-20(-25)mm in diameter including the trophophylls, then abruptly constricted to (l-) 1.5-2(-2.5)mm in diameter including the imbricate, reduced sporophylls. Trophophylls are borne in alternating whorls of three, or decussate, subdecussate, or alternate, widely spaced in alternate leaved caulinar axes portions, perpendicular to the caulinar axes to falcately ascending, lanceolate to linear-lanceolate, with flat to slightly revolute margins. Each lycophyll is supplied by a single central vascular bundle, connected to a protoxylem pole in the stele. At the site of leaf-trace departure, no leaf (lycophyll) gap is present. Caulinar axes excluding leaves 0.7-1.2mm thick at the base, upward tapering to ca. 0.5mm. Caulinar axes present unistratified epidermis and endodermis, the cortex is characterized by the presence of a trabecular structure of lisigenous origin formed in the parenchimatous tissue next to the endodermis. The vascular tissue occupies the central part of the caulinar axes, forming a plectostele of subradiate organization, with five poles of protoxylem. The epidermal cells present sinuous anticlinal walls; invaginations in the inner side of external periclinal wall of the epidermal cells could be probably adaptive morphological feature of a water deficient environment. Leaves of constricted terminal divisions are decussate, or subdecussate, continuously or discontinuously sporangiate, appressed, abaxially rounded to carinate, widely lanceolate to widely ovate or subcordate, acute to mucronate or cuspidate, shorter than the sporangia. Each sporangium originates from a group of epidermal cells, axilar to the sporophylls. The cell walls of epidermal cell of the sporangia are Huperzioideae type. The morphological studies of trophophylls contribute to confirm the differences between P. phylicifolius and P. subulatus. Rev. Biol. Trop. 62 (3): 1217-1227. Epub 2014 September 01.
Phlegmariurus es el único género de Lycopodiaceae con las especies reunidas en 22 grupos informales. Las relaciones a nivel de especie dentro de Phlegmariurus están pobremente estudiadas y la circunscripción de las mismas requiere profundos exámenes moleculares y morfológicos. Se ha llevado a cabo un estudio detallado de la morfología y la anatomía de ejes caulinares, licofilos y esporangios de P. phylicifolius, con el fin de contribuir al esclarecimiento en la delimitación de las especies en el grupo Phlegmariurus phlegmaria. Segmentos de ejes caulinares con trofofilos, esporofilos y esporangios fueron fijados, deshidratados, incluidos en Histowax (parafina), cortados con un micrótomo rotatorio y coloreados usando la técnica tradicional Safranina O-Verde Rápido; además se hicieron cortes a mano alzada y se colorearon con la misma técnica. P. phylicifolius incluye plantas colgantes y péndulas de hasta 40cm de longitud. Los ejes son heterofilos, de aproximadamente 10-20(-25)mm de diámetro en las divisiones basales incluyendo los trofofilos, luego abruptamente reducidos a (l-) 1.5-2(-2.5)mm de diámetro incluyendo los esporofilos reducidos e imbricados. Los trofofilos están dispuestos en anillos alternantes de a tres, o decusados, subdecusados o alternos, dispuestos en forma espaciada en los ejes caulinares, perpendiculares al tallo hasta falcadamente ascendentes, lanceolados a lineal-lanceolados, con márgenes lisos o levemente revolutos. Cada licofilo está provisto de un haz vascular simple y central, conectado a un polo de protoxilema de la estela y sin laguna foliar. Los tallos poseen un ancho de 0.7-1.2mm en la base, excluyendo los licofilos, estrechándose hasta cerca de 0.5mm hacia el ápice. Los ejes caulinares presentan una epidermis uniestratificada y endodermis, la corteza se caracteriza por la presencia de una estructura trabecular de origen lisígeno formada en el tejido parenquimático próximo a la endodermis. El tejido vascular ocupa la parte central del eje caulinar, formando una plectostela de organización subradiada, con cinco polos de protoxilema. Las células epidérmicas presentan paredes anticlinales sinuosas; las invaginaciones en la cara interna de la pared periclinal externa podrían ser probablemente un característica morfológica adaptativa a un ambiente con períodos de sequía. Las hojas de las porciones apicales son decusadas o subdecusadas, con esporangio de disposición continua o discontinua, adpresas, abaxialmente redondeadas a carinadas, ampliamente lanceoladas a ovadas o subcordadas, ápice agudo a mucronado o cuspidado, más corto que el esporangio. Cada esporangio se origina de un grupo de células epidérmicas, en la axila de los esporofilos con el eje caulinar. Las paredes celulares de las células epidérmicas del esporangio son de tipo Huperzioideae. El estudio de la morfología de los trofofilos contribuye a confirmar las diferencias entre P. phylicifolius y P. subulatus.
Asunto(s)
Carotenoides/análisis , Lycopodiaceae/citología , Esporangios/citología , Esporas/citología , Lycopodiaceae/química , Lycopodiaceae/clasificación , Lycopodiaceae/crecimiento & desarrollo , Esporangios/química , Esporangios/clasificación , Esporangios/crecimiento & desarrollo , Esporas/química , Esporas/clasificación , Esporas/crecimiento & desarrolloRESUMEN
A simple method for in vitro production of sporangia by Phytophthora boehmeriae causing cotton boll blight in China was developed, and a method for dilution of zoospore suspensions was presented as well, Large amounts of sporangia were obtained when mycelial mats, produced from Potato extract-Dextrose Liquid (PDL) or Bean extract-Dextrose Liquid (BDL) at 24 ℃ for 48—72 hr ,were rinsed with Mineral Salt Solution (MSS) four times at 20—22℃ for 10—12 h with continuous fluorescent light (cool white), and incubated for additional 12 h after drained off MSS. Darkness favored oospore whereas suppressed sporangial production by P. boehmeriae. BDB is superior to PDB in the production of oospores and sporangia by P. boehmeriae as evidenced by the amount of sporangia or oospores and in particular the fact that the color change of mycelial mats from light orange to purple was synchronous with the sporulation of P. boehmeriae. Tris-succinate buffer(pH6.8, 5.0mmol/L, TSB) was the quantitatively excellent diluent for preserving motility of zoospores of P. boehmeriae in the dilution process.