RESUMO
El cultivo de banano en el Urabá Antioqueño viene presentando disminución en los rendimientos, lo que exige la búsqueda de alternativas para incrementar o mantener la producción actual, entre las cuales, se encuentra el aumento en la proporción de fertilizantes inorgánicos, conllevando a sobrecostos y problemas ambientales. En vista de esta situación, se ha generado un interés por el uso de biofertilizantes, como el caso de las micorrizas (HFM), con las que se han demostrado beneficios al sistema suelo-planta. El objetivo de esta investigación fue evaluar el efecto de los HFM con la disminución de la dosis fosforada en el clon de banano Valery, en un sistema de alta densidad, bajo condiciones edafoclimáticas de Apartadó-Antioquia. Para ello, en los tratamientos, al momento de la siembra, se realizaron inoculaciones de 100 g de HFM comercial con 5 dosis de fósforo, que correspondieron a: 0, 25, 50, 75 y 100 kg*ha-1. Se midieron variables morfológicas, rendimiento y simbiosis micorrízica. El diseño experimental fue completamente al azar, con 3 repeticiones; cada unidad experimental estuvo constituida por 10 plantas contenidas en 5 sitios. La información se procesó con el programa estadístico SAS 9.1, se obtuvo el análisis de varianza y una prueba de comparación de medias (Tukey), con un nivel de significancia del 95 %. No se encontraron diferencias significativas en las variables morfológicas, pero sí en las variables productivas, siendo el tratamiento HFM + 50 kg P2O5*ha-1 el de mejor resultado y, además, presentó el mayor porcentaje de colonización micorrízica, con 59,5 %.
The banana crop in Uraba Antioqueño has been presenting a decrease in the yields, which requires the search for alternatives to increase or maintain current production, among which is the increase in the proportion of inorganic fertilizers leading to cost overruns and environmental problems. In view of this situation, there has been a growing interest in the use of biofertilizers such as mycorrhiza (HFM) with which multiple benefits to the soil-plant system have been demonstrated. The objective of this research was to evaluate the effect of HFM with the reduction of phosphorus dose in the Valery banana clone under a high-density system under edaphoclimatic conditions of Apartado-Antioquia. For this purpose, 100 g of commercial HFM were inoculated with 5 doses of phosphorus at time of sowing, corresponding to: 0, 25, 50, 75 and 100 kg*ha-1. Morphological variables, performance and mycorrhizal symbiosis were measured. The experimental design was completely random with 3 repetitions, each experimental unit was made up of 10 plants contained in 5 sites. The information was processed with the statistical program SAS 9.1, variance analysis was obtained and a mean comparison test (Tukey) with a significance level of 95 %. No significant differences were found in the morphological variables, but in the productive variables, the HFM + 50 Kg P2O5*ha-1 treatment was the best and also presented the highest percentage of mycorrhizal colonization with 59.5 %.
RESUMO
Botrytis cinerea, the causal agent of grey mold disease, is one of the most destructive pathogens of strawberry crops, both in vegetative development and postharvest. The control of this pathogen is complex due to its aggressiveness and ability to attack and infect various plant tissues and is mainly based on chemical control; however, the incorrect use of pesticides, mainly due to overdosing, causes the presence of traces of these agrochemicals in the fruits, as well as the selection of pathogen resistance to fungicides, making it a risk to human health and the environment. The objective of the study was to use biological regulation strategies, with the application of microbial consortia made up of mycorrhizal fungi, antagonistic bacteria and Trichoderma harzianum, as an alternative for the management of grey mold in strawberry crops (Monterey variety) under field conditions. Treatments T4 (mycorrhizal fungi), T8 (mycorrhizal fungi, antagonistic bacteria and T. harzianum) and T2 (T. harzianum) presented the lowest incidence of the pathogen with 2.6, 3.1 and 3.6 %, respectively, compared to control plants with 16.6%. The influence of all biological treatments on the regulation of B. cinerea was greater than the control.
Botrytis cinerea, el agente causal de la enfermedad del moho gris, es uno de los patógenos más destructivos del cultivo de fresa, tanto en el desarrollo vegetativo como en poscosecha. El control de este patógeno es complejo, debido a su agresividad y capacidad de atacar e infectar diversos tejidos de la planta y se basa, principalmente, en el control químico; sin embargo, el uso incorrecto de plaguicidas, principalmente por sobredosificación, provoca la presencia de trazas de estos agroquímicos en los frutos, así como la selección de resistencia del patógeno a los fungicidas, convirtiéndolo en un riesgo para la salud humana y el ambiente. El objetivo del estudio fue utilizar estrategias de regulación biológica, con la aplicación de consorcios microbianos, conformados por hongos micorrícicos, bacterias antagonistas y Trichoderma harzianum, como alternativa para el manejo del moho gris, en cultivos de fresa (variedad Monterey), en condiciones de campo. Los tratamientos T4 (hongos micorrízicos), T8 (hongos micorrízicos, bacterias antagonistas y T. harzianum) y T2 (T. harzianum) presentaron la menor incidencia del patógeno, con 2,6, 3,1 y 3,6 %, respectivamente, en comparación con las plantas control, con 16,6 %. La influencia de todos los tratamientos biológicos en la regulación de B. cinerea fue mayor respecto al control.
RESUMO
ABSTRACT In vitro root cultivation techniques based on modified root systems are often used in studies on Arbuscular Mycorrhizal Fungi (AMF). It is a simplified but powerful tool to investigate AMF root colonization and development of the extraradical mycelium. The aim of this study was to establish and characterize the in vitro culture of a Cuban strain of Rhizophagus irregularis (INCAM 11) by using transformed chicory roots. For that, superficially disinfected propagules of R. irregularis were co-culture with the hairy transformed chicory roots on Modified Strullu and Romand (MSR) medium during five months. Spore germination was observed 3-5 days after surface disinfection. The first contact between AMF hyphae and roots occurred 1 - 3 days after germination and a significant production of extensive extraradical mycelium was observed. New spore formation started within 21 - 25 days. After 5 months, 2000 spores could be observed per plate which were able to germinate, colonize, establish and reproduce again spores when associated to young transformed roots of chicory. The most frequent associated microorganism to the in vitro culture of INCAM 11 was isolated and identified as Paenibacillus sp.
RESUMEN Las técnicas de cultivo de raíces in vitro basadas en sistemas de raíces modificadas se utilizan a menudo en los estudios sobre hongos micorrízicos arbusculares (HMA). Es una herramienta simplificada pero poderosa para investigar la colonización de las raíces de los HMA y el desarrollo del micelio extrarradical. El objetivo de este estudio fue establecer y caracterizar el cultivo in vitro de una cepa cubana de Rhizophagus irregularis (INCAM 11) utilizando raíces transformadas de achicoria. Para ello, propágulos de R. irregularis desinfectados superficialmente fueron co-cultivados con las raíces transformadas de achicoria en medio Strullu y Romand modificado (SRM) durante cinco meses. La germinación de las esporas se observó 3-5 días después de la desinfección superficial. El primer contacto entre las hifas y las raíces se produjo entre 1 y 3 días después de la germinación y se observó una producción significativa de micelio extrarradical. La formación de nuevas esporas comenzó entre 21 - 25 días. Después de 5 meses, se pudieron observar 2000 esporas por placa que fueron capaces de germinar, colonizar, establecer y reproducir nuevas esporas cuando se asociaron a raíces jóvenes transformadas de achicoria. El microorganismo asociado frecuentemente al cultivo in vitro de INCAM 11 fue aislado e identificado como Paenibacillus sp.
RESUMO
ABSTRACT: Arbuscular mycorrhizal fungi (AMF) play an important role in plant growth. However, there are no reports of legally commercialized AMF-based inoculants for agricultural crops in Brazil. The objective of this research was to evaluate the agronomic efficiency of a Rhizophagus intraradices inoculant in combination with phosphate fertilization in grain yield of corn under different edaphoclimatic conditions in Brazil. Experiments were conducted in five Brazilian states (Goiás, Mato Grosso, Minas Gerais, Rio Grande do Sul and Santa Catarina) in a 2 x 3 factorial scheme, with two inoculation treatments (inoculated and non-inoculated seeds) and three doses of phosphate fertilization (0, 50 and 100% of the recommended P). At the end of the crop cycle (stages R4-R5), inoculation provided increases in biomass (average of 48%) regardless of the applied dose of P, higher P absorption, and 54% average increase in grain yield. In conclusion, the mycorrhizal inoculant increases biomass yield, P uptake and corn grain yield under different edaphoclimatic conditions in Brazil, especially in soils that originally had low or medium levels of available P.
RESUMO: Os fungos micorrízicos arbusculares (FMA) desempenham um papel importante no crescimento das plantas, no entanto, não há relatos de inoculantes legais baseados em AMF para culturas agrícolas no Brasil. O objetivo deste trabalho foi avaliar a eficiência agronômica de um inoculante a base de Rhizophagus intraradices em combinação com a adubação fosfatada no rendimento de grãos de milho sob diferentes condições edafoclimáticas no Brasil. Os experimentos foram conduzidos em cinco estados brasileiros (Goiás, Mato Grosso, Minas Gerais, Rio Grande do Sul e Santa Catarina) em esquema fatorial 2 x 3, com dois tratamentos de inoculação (sementes inoculadas e não inoculadas) e três doses de adubação fosfatada (0, 50 e 100% do P recomendado). No final do ciclo da cultura (estágios R4-R5), a inoculação proporcionou aumentos na biomassa (média de 48%), independentemente da dose aplicada de P, maior absorção de P e aumento médio de 54% no rendimento de grãos. Conclui-se que o inoculante micorrízico arbuscular aumenta a produção de biomassa, a absorção de P e a produtividade de grãos de milho em diferentes condições edafoclimáticas no Brasil, especialmente em solos que originalmente apresentavam níveis baixos ou médios de P.
RESUMO
El estudio de los procesos biogeoquímicos implica entender cómo los macro y micro nutrientes que componen los seres vivos se mueven de un componente a otro del ecosistema (incluyendo la atmósfera, organismos, suelo, cuerpos de agua, etc.). Usualmente, una mayor diversidad biótica y una mayor complejidad de las interacciones bióticas y abióticas, resultan en una mayor estabilidad ecosistémica. El rol de los hongos en los ciclos biogeoquímicos se suele estudiar superficialmente, no mucho más allá de sus funciones ecosistémicas generales: descomposición, simbiosis mutualista, y parasitismo. Esta revisión tiene por objetivo ilustrar los conceptos base de los roles ecológicos de los hongos del suelo, que debieran enseñarse en tres públicos objetivo: universitario, tomadores de decisiones, y estudiantes de educación secundaria/público general. En estos públicos, se propone abordar cuatro áreas temáticas: introducción al suelo, ecología de comunidades, interacciones de hongos con otros organismos, y biogeoquímica. Aunque los roles ecosistémicos de los hongos del suelo están bien documentados, su estudio debería partir de la base de que estos afectan y son afectados tanto por variables climáticas, como por características físico-químicas del suelo, y por flujos biogeoquímicos. Los roles ecológicos de los hongos del suelo debieran entenderse en un contexto holístico de integración multidisciplinar, y el nivel de especialización del conocimiento debiera darse hacia niveles superiores de la jerarquía biológica, es decir, conocer más en detalle la ecología de ecosistemas y comunidades de hongos que la de poblaciones y organismos, o que sus procesos bioquímicos y edáficos específicos.
The study of biogeochemical processes involves understanding how the macro and micro nutrients that make up living things move from one ecosystem component to another (including the atmosphere, organisms, soil, waterbodies, etc.). Usually, a greater diversity of biotic diversity and a greater complexity of biotic and abiotic interactions, result in a greater ecosystemic stability. The role of fungi in biogeochemical cycles is usually studied superficially, not much beyond their general ecosystem functions: decomposition, mutualistic symbiosis, and parasitism. The objective of this review is to illustrate the basic concepts of the ecological roles of soil fungi, which should be taught in three target audiences: university students, decision makers, and secondary school students / general public. In these audiences, it is proposed to address four thematic areas: introduction to soil, community ecology, interactions of fungi with other organisms, and biogeochemistry. Although the ecosystemic roles of soil fungi are well documented, their study should be based on the fact that they affect and are affected by climatic variables, physical-chemical soil characteristics, and biogeochemical flows. The ecological roles of soil fungi should be understood in an holistic context of multidisciplinary integration, and the level of specialization of knowledge should be given to higher levels of the biological hierarchy, that is, to know more in detail the ecology of ecosystems and communities of fungi than that of populations and organisms, or than that of their specific biochemical and edaphic processes.
Assuntos
Ecologia/educação , Fungos , Micorrizas , Biologia de Sistemas/classificação , Ecossistema , Química do SoloRESUMO
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.
Assuntos
Microbiologia do Solo , Glycine max/crescimento & desenvolvimento , Micorrizas/isolamento & purificação , Micorrizas/classificação , Plântula/crescimento & desenvolvimento , Biodiversidade , Rizosfera , Fatores de Tempo , Análise por Conglomerados , Reação em Cadeia da Polimerase , Micorrizas/genética , Eletroforese em Gel de Gradiente DesnaturanteRESUMO
Resumen El cultivo del café, en la economía mexicana y en la región del Soconusco en Chiapas, aporta importantes divisas; sin embargo es susceptible a plagas y enfermedades, por lo que se requiere reforzar su producción a través de un manejo más sustentable. Este estudio analizó la abundancia, riqueza y composición de hongos micorrizógenos arbusculares (HMA) nativos que pudieran emplearse en un futuro como biofertilizantes en el cultivo del café. En 21 muestras de suelo recolectadas en noviembre 2015 de siete sitios en la región del Soconusco, Chiapas, México, cultivados con café "robusta" (Coffea canephora), se cuantificó la abundancia de esporas, la riqueza y composición de morfoespecies de HMA y se exploró su relación con las propiedades del suelo. Se obtuvo un total de 20 morfoespecies y cinco nuevos registros de HMA para Chiapas, las morfoespecies más frecuentes pertenecen a los géneros Acaulospora y Glomus. Los sitios Toluca y Victoria tuvieron mayor riqueza de especies (17 spp. c/u) que San Agustín, 20 de noviembre y San Luis Nexapa (4 - 7 spp. c/u); mientras que Providencia y Platanar registraron una riqueza intermedia y los mayores valores de abundancia de esporas. Los sitios Victoria y Toluca presentaron un 97 % de disimilitud en la composición de especies de HMA con respecto a los demás sitios; la cual fue explicada por la baja concentración de PO4 -3en el suelo de Victoria y Toluca. La disponibilidad de P, ligada a la acidez del suelo, fueron los factores que podrían estar regulando las comunidades de HMA en el suelo de la rizosfera de los cafetos en la región del Soconusco. Se propone que podrían haber consorcios de HMA específicos para los niveles de P y acidez presentes en diferentes sitios con cafetos, o bien consorcios de especies de Acaulospora y Glomusacordes con las condiciones ambientales en las que se desarrolla el café, cuya compatibilidad y funcionalidad debe examinarse antes de emplearlos como biofertilizantes nativos en los cafetos de esta región tropical de México.
Abstract In the Mexican economy, and especially in the Soconusco region of Chiapas, coffee is economically important, and sustainable management most cover pests and diseases. In this study, we searched for native arbuscular mycorrhizal fungi (AMF) that could be used as biofertilizers in coffee cultivation. We collected 21 soil samples from seven coffee plantations (Coffea canephora) in November 2015. We used wet sieving and decanting to quantify abundance, richness and composition of morphospecies, as well as their relationships with soil properties. A total of 20 morphospecies and five new records of AMF were obtained, and the most frequent genera were Acaulospora and Glomus. The Toluca and Victoria sites had more morphospecies richness (17 spp. each) than San Agustín, November 20 and San Luis Nexapa (4-7 spp. each). Providencia and Platanar were intermediate but had the highest spore abundance. The dissimilarity of Victoria and Toluca may reflect a low concentration of PO4 -3in the soil. P availability, linked to soil acidity, sems to be regulating these mycorrhizae communities at Soconusco. AMF consortia specific for soil P-levels and acidity, i.e. Acaulospora and Glomusconsortia, may occur and be common in the environmental conditions of Mexican coffee plantations, Strains should be tested for compatibility and functionality before using them as native biofertilizers. Rev. Biol. Trop. 66(1): 91-105. Epub 2018 March 01.
RESUMO
In this study, we collected rhizosphere soils and root samples from a post-mining area and a natural forest area in Jecheon, Korea. We extracted spores of arbuscular mycorrhizal fungi (AMF) from rhizospheres, and then examined the sequences of 18S rDNA genes of the AMF from the collected roots of plants. We compared the AMF communities in the post-mining area and the natural forest area by sequence analysis of the AMF spores from soils and of the AMF clones from roots. Consequently, we confirmed that the structure of AMF communities varied between the post-mining area and the natural forest area and showed significant relationship with heavy metal contents in soils. These results suggest that heavy metal contamination by mining activity significantly affects the AMF community structure.
Assuntos
Células Clonais , DNA Ribossômico , Florestas , Fungos , Coreia (Geográfico) , Mineração , Micorrizas , Raízes de Plantas , Plantas , Rizosfera , Análise de Sequência , Solo , EsporosRESUMO
Abstract High copper (Cu) levels in uprooted old vineyard soils may cause toxicity in transplanted young vines, although such toxicity may be reduced by inoculating plants with arbuscular mycorrhizal fungi (AMF). The objective of this study was to evaluate the effects of AMF on the plant growth, chlorophyll contents, mycorrhizal colonization, and Cu and phosphorus (P) absorption in young vines cultivated in a vineyard soil contaminated by Cu. Commercial vineyard soil with high Cu levels was placed in plastic tubes and transplanted with young vines, which were inoculated with six AMF species (Dentiscutata heterogama, Gigaspora gigantea, Acaulospora morrowiae, A. colombiana, Rhizophagus clarus, R. irregularis) and a control treatment on randomized blocks with 12 replicates. After 130 days, the mycorrhizal colonization, root and shoot dry matter (DM), height increment, P and Cu absorption, and chlorophyll contents were evaluated. The height increment, shoot DM and chlorophyll contents were not promoted by AMF, although the root DM was increased by R. clarus and R. irregularis, which had the greatest mycorrhizal colonization and P uptake. AMF increased Cu absorption but decreased its transport to shoots. Thus, AMF species, particularly R. clarus and R. irregularis, contribute to the establishment of young vines exposed to high Cu levels.
Assuntos
Cobre/crescimento & desenvolvimento , Cobre/metabolismo , Cobre/microbiologia , Fungos/crescimento & desenvolvimento , Fungos/metabolismo , Fungos/microbiologia , Micorrizas/crescimento & desenvolvimento , Micorrizas/metabolismo , Micorrizas/microbiologia , Fósforo/crescimento & desenvolvimento , Fósforo/metabolismo , Fósforo/microbiologia , Raízes de Plantas/crescimento & desenvolvimento , Raízes de Plantas/metabolismo , Raízes de Plantas/microbiologia , Brotos de Planta/crescimento & desenvolvimento , Brotos de Planta/metabolismo , Brotos de Planta/microbiologia , Poluentes do Solo/crescimento & desenvolvimento , Poluentes do Solo/metabolismo , Poluentes do Solo/microbiologia , Vitis/crescimento & desenvolvimento , Vitis/metabolismo , Vitis/microbiologiaRESUMO
Despite the ubiquity and importance of indigenous arbuscular mycorrhizal fungi (AMF) for plant ecosystems; functioning of indigenus mycorrhizal symbiosis (IMS) and related environmental factors at coastal Caribbean ecosystems remains still scarce. In order to determine functionality of IMS under contrasting land uses and wet seasons from Cuba, the influence of the water stress on some AMF functionality parameters from a semi-natural savannah (NS), a recovered savannah (RS) and an agro-ecosystem (AG) from the Managed Floristic Reserve San Ubaldo-Sabanalamar, Pinar del Rio, Cuba were assessed during two-years. Soil and root samples were collected in April and October, during the dry and wet seasons, respectively, in 2008 and 2010. Four plots in each ecosystem were selected, and five soil sub-samples were randomly collected, bulked, mixed homogeneously and used as the composite sample per plot. The host plant root biomass, arbuscular mycorrhizal colonization of the host plant, density of the intraradical and extraradical AMF mycelia, fungal endophyte biomass and AMF spore density were assessed. The host plant root biomass increased in the NS environment during the dry season, and approximately 12.85g root/dm³ dry soil was recorded. The colonization degree were significantly higher in all environments during the wet season of the second year, with means ranging from 79% to 89%. The extraradical mycelia were significantly more abundant in the dry season of the second year in all environments, with a maximum of 279mg/dm³ in the RS ecosystem. The density of AMF spores was highest in the dry season of the second year for the three studied ecosystems. The RS ecosystem hosted 5 670 spores/100g dry soil. In general, the influence of rainfall seasonality on the function of AMF was stronger than the influence of ecosystem management. The root biomass and extraradical mycelia were high in the dry seasons, suggesting strategies to increase the volume of soil for the mutual benefit of the symbionts. The increase in spore density during the dry seasons appears as an adaptation allowing AMF to survive period of water shortage. This study improves our understanding of the adaptative responses of arbuscular mycorrhizal symbiosis to seasonal variations in soil water availability. Rev. Biol. Trop. 63 (2): 341-356. Epub 2015 June 01.
En el presente estudio se evaluó, durante dos años, la influencia de los períodos seco y lluvioso sobre el funcionamiento de hongos formadores de micorrizas arbusculares (HFMA) simbiontes de plantas nativas de una sabana semi natural, una sabana recuperada de la actividad agrícola y un agroecosistema, ubicados en la Reserva Florística Manejada San Ubaldo-Sabanalamar, Pinar del Río, Cuba. Se recolectaron muestras de suelo en abril y octubre (período seco y húmedo de 2008 y 2010, respectivamente). Dentro de cada ecosistema se seleccionaron cuatro parcelas y se recolectaron cinco submuestras al azar, las que fueron homogeneizadas para formar una muestra compuesta por parcela. Se cuantificó la biomasa de raicillas, la colonización micorrízica de las plantas hospedadoras en el campo, el micelio extrarradical, el micelio endófito y la densidad de esporas. La biomasa de raicillas en la sabana semi natural incrementó durante los períodos secos, la cual alcanzó hasta 12.85 g/dm3 de suelo. En todos los ecosistemas, la mayor colonización micorrízica ocurrió en la época lluviosa del segundo año con valores que oscilaron entre 79 y 89 %. Las mayores biomasas de micelio externo fueron registradas en los tres ecosistemas durante el período seco del segundo año, con un valor máximo de 279 mg/dm3 de suelo en la sabana recuperada. La mayor densidad de esporas de HFMA fue determinada en el periodo seco del segundo año para los tres ecosistemas estudiados, con el valor más alto en la sabana recuperada con 5 670 esporas/100 g de suelo seco. De manera general, se evidenció un efecto de la estacionalidad de la lluvia más que del manejo de ecosistema sobre el funcionamiento de los HFMA. La mayor actividad colonizadora se evidenció en períodos húmedos, mientras que mayor biomasa de raicillas y micelio externo durante los períodos secos, lo que sugiere estrategias de incremento del volumen del suelo explorado por parte de los HFMA como de las plantas hospedadoras. La proliferación de esporas evidenció la formación de estructuras de resistencia de los HFMA ante condiciones adversas. Los resultados obtenidos pondrían en evidencia la plasticidad de la simbiosis micorrízica ante variaciones en la disponibilidad de agua.
Assuntos
Micorrizas/crescimento & desenvolvimento , Fungos/classificação , Cuba , Adaptação ao HospedeiroRESUMO
A fungal internal transcribed spacer region was used to identify the mycorrhizae of Cymbidium kanran. The family Russulaceae was found to be the most frequently occurring group in both root and soil samples. In phylogenetic analyses, the majority of the Russulaceae clones were clustered with Russula brevipes and R. cyanoxantha. Therefore, C. kanran may form symbiotic relationships with the genus Russula.
Assuntos
Humanos , Células Clonais , Coreia (Geográfico) , Micorrizas , SoloRESUMO
Como consecuencia de la alimentación de Radopholus similis, se generan daños en las raíces y el cormo que conllevan a un crecimiento deficiente de las plantas y reducción en rendimiento hasta 80%. Por tal motivo, el objetivo de esta investigación fue determinar el efecto de la integración de prácticas de manejo como limpieza sanitaria de cormos y biológicas como Micorrizas Arbusculares (MA), Purpureocillium lilacinum y Bacillus subtilis sobre el crecimiento de las plántulas de Dominico Hartón y la población de nematodos fitoparásitos. El experimento se realizó en la granja Montelindo de la Universidad de Caldas, a 1010 msnm, 23ºC de temperatura promedio y 1800 mm de precipitación. Los tratamientos fueron asignados en un diseño experimental completamente aleatorio, cada uno conformado por 20 cormos (unidades experimentales) sembrados en bolsas negras de 5 kg de capacidad, así: cormos con limpieza sanitaria sin aplicación de productos (T1), cormos con limpieza sanitaria + MA (T2), cormos con limpieza sanitaria + P. lilacinum (T3), cormos con limpieza sanitaria + B. subtilis (T4), y cormos con limpieza sanitaria + MA + P. lilacinum + B. subtilis (T5). El anterior procedimiento también se realizó a cormos tradicionales sembrados en suelo sin esterilizar (T6 a T10, respectivamente). En los tratamientos que fueron establecidos en suelo esterilizado y cormos con limpieza sanitaria, no hubo presencia de individuos de los principales géneros de nematodos fitoparásitos del plátano como Radopholus, Meloidogyne y Helicotylenchus. Los tratamientos en los cuales se utilizó suelo infestado y cormos con limpieza sanitaria, presentaron una disminución de hasta un 64% en la población de nematodos fitoparásitos en comparación con la inicial, aunque mostraron también una cantidad de nematodos menor al testigo. De estos tratamientos el que menor población presentó fue el T10 (Suelo infestado + cormos con limpieza sanitaria + MA + P. lilacinum + B. subtilis) con una población promedio de 472 nematodos fitoparásitos en 100 g de suelo. La integración de todas las medidas de manejo resultó más eficiente en el control de los nematodos fitoparásitos en plátano, con o sin la esterilización del suelo; y la limpieza sanitaria de cormos no afectó negativamente el desarrollo de las raíces ni de la parte aérea de las plantas, pues no se presentaron diferencias significativas respecto a los tratamientos donde se usaron cormos tradicionales.
As a result of feeding of Radopholus similis, both roots and corms are damaged and this results in plant growth deficiency and yield losses up to 80%. Therefore, the objective of this study was to determine the effect of the integration of management practices such as corms sanitary cleaning and biological cleaning such as Arbuscular mycorrhizae (AM), Purpureocillium lilacinum and Bacillus subtilis on the development of Dominico Hartón plantain seedlings and phytoparasitic nematods populations. The experiment was conducted at the Universidad de Caldas Montelindo farm located at 1,010 m.a.s.l.., average temperature 23ºC and 1,800 mm rainfall. The treatments were assigned in a completely randomized block design, each one with 20 corms (experimental units) planted in 5 kg black plastic bags as follows: corms with sanitary seed cleaning without application of products (T1); corms with sanitary cleaning + AM (T2); corms with sanitary cleaning + P. lilacinum (T3); corms with sanitary cleaning + B. subtilis (T4); and corms with sanitary cleaning + AM + P. lilacinum + B. subtilis (T5). The described procedure was also applied to traditional corms planted in soil without sterilization (T6 to T10, respectively). In the treatments established in sterilized soil and cleaned corms, there was not presence of individuals of the main plant parasitic nematodes of plantain, such as, Radopholus, Meloidogyne and Helicotylenchus. Treatments with infested soil with nematodes and cleaned corms, showed a reduction in plant parasitic nematodes up to 64% compared with the initial population, although they also showed lower amount of nematodes than the control population. From these treatments, the one that had the lowest population of nematodes was the T10 (Infested soil + cleaned corms + AM + P. lilacinum + B. subtilis) with an average population of 472 phytoparasitic nematodes/100 g of soil). The integration of all management practices resulted in the most efficient way to control the plant phytoparasitic nematodes of plantain, with or without soil sterilization, and the corms sanitary cleanness did not affect either the root development or the aerial parts of the seedlings, since there were not significant differences with respect to the treatments using traditional corms.
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Humanos , Bacillus subtilis , Parasitos , Musa , MicorrizasRESUMO
The potential of the forage peanut crop associated with arbuscular mycorrhizal fungi (AMF) has been the subject of some studies, but the influence of the genotype on this association is poorly understood. The objective of this study was to determine the spore density, species richness, relative frequency and occurrence of AMF associated with forage peanut genotypes. Simple soil samples were collected from 45 genotypes of Active Germplasm Bank at Embrapa Acre. Soil samples were collected at 5 cm depth, with three replicates in a completely randomized design. Soil samples were taken to the Mycorrhizae Laboratory of Embrapa Agrobiologia for determination of spore density and identification of AMF species. Analysis of variance and Scott-Knott test were performed. Four genotypes of A. pintoi and two interspecific hybrids, which showed higher spore density, stood out. It was found the occurrence of 21 AMF species in the soil samples. The richness ranged between three and ten species. Three AMF species showed high relative frequency: Glomus macrocarpum (100.0%), Acaulospora tuberculata (97.8%) and Racocetra verrucosa (88.9%). It was concluded that: (i) Regarding inducement of AMF sporulation and species richness, there is genetic variability among forage peanut genotypes, (ii) Glomus macrocarpum, Acaulospora tuberculata, Racocetra verrucosa are often present in the rhizosphere of forage peanut genotypes and should be studied aiming its introduction in the culture.
O potencial da cultura do amendoim forrageiro associada aos fungos micorrízicos arbusculares (FMA) tem sido objeto de alguns estudos, porém a influência do genótipo sobre essa associação é pouco relatada. O objetivo deste trabalho foi determinar a densidade de esporos, riqueza de espécies, a frequência e ocorrência relativa de FMAs associados a genótipos de amendoim forrageiro. Foram coletadas amostras simples de solo de 45 genótipos pertencentes ao Banco Ativo de Germoplasma na Embrapa Acre. As amostras de solo foram coletadas a 5 cm de profundidade, com três repetições em delineamento inteiramente casualizado. As amostras de solo foram levadas para o Laboratório de Micorrizas da Embrapa Agrobiologia, para determinação da densidade de esporos e identificação das espécies de FMAs. Foi realizada análise de variância e teste de Scott-Knott. Destacaram-se quatro genótipos de A. pintoi e dois híbridos interespecíficos, que apresentaram maior densidade de esporos. Foi verificada a ocorrência de 21 espécies de FMAs nas amostras de solo. A riqueza variou entre três e dez espécies. Três espécies de FMAs apresentaram elevada frequência relativa: Glomus macrocarpum (100,0%), Acaulospora tuberculata (97,8%) e Racocetra verrucosa (88,99%). Conclui-se, assim que: (i) Existe variabilidade genética entre os genótipos de amendoim forrageiro quanto à promoção da esporulação e riqueza de espécies de FMAs nas suas rizosferas; (ii) As espécies de FMAs Glomus macrocarpum, Acaulospora tuberculata, Racocetra verrucosa possuem alta presença na rizosfera dos genótipos de amendoim forrageiro, devendo serem estudadas visando sua introdução na cultura.
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Quercus humboldtii es una especie vegetal nativa de mucha importancia en Colombia por su uso en repoblamiento forestal y restauración de tierras altoandinas degradadas. La especie se encuentra fuertemente amenazada y es necesario establecer programas de propagación de la misma. Sin embargo, poco se conoce sobre sus exigencias nutricionales y lumínicas. El objetivo de este estudio fue determinar los efectos simples y combinados de la iluminación relativa (IR) y la fertilización sobre el crecimiento de plántulas de Q. humboldtii en vivero. Para esto se establecieron en combinación tres condiciones contrastantes de iluminación relativa (alta, media y baja IR) y nueve tratamientos de fertilización: completa (TC), con un elemento faltante (-N, -P, -K, -Ca, -Mg, -S, -B) y un testigo sin fertilización (T0). La condición de IR media presentó el mejor desarrollo de las plántulas. Todos los tratamientos con deficiencias nutricionales produjeron disminuciones en el desarrollo de las plántulas con respecto a TC, excepto en el tratamiento -B. El N fue el elemento más limitante, con rendimientos similares a los del tratamiento testigo. El orden de limitación que produjeron los tratamientos aplicados siguió la secuencia: T0,-N > -Ca, -K, - P > -Mg, -S > TC,-B. No se detectó interacción significativa IR x Fertilización sobre el desarrollo de las plántulas.
Quercus humboldtii is a native plant species of great importance in Colombia for use in reforestation and restoration of degraded Andean highlands. The species is highly threatened and it is necessary to establish programs of propagation and planting. However, little is known about their nutritional and light requirements. The aim of this study was to determine the effects of single and combined relative illumination (IR) and fertilization on the growth of seedlings of Q. humboldtii at nursery. For this purpose three contrasting IR regimes (high, medium, and low IR) and nine fertilization treatments were established: complete (TC), a missing nutrient (-N,-P,-K,-Ca,-Mg, -S,-B) and a control without fertilization (T0). The best development of seedlings was showed in the medium IR condition. All treatments with a lacking nutrient showed decreases in seedling development regarding TC, except in the -B treatment. Nitrogen was the most limiting nutrient yielding biomass similar to that of T0. The impact of nutrient limitation on seedling performance was in the following order:-N>-Ca,-K,-P>-Mg,-S>-B. No significant interaction IR x Fertilization was detected on seedling development.
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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.
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Passiflora/classificação , Compostos Fenólicos/efeitos adversos , Substratos para Tratamento Biológico/análise , Micorrizas/isolamento & purificaçãoRESUMO
The continued decline in soil fertility, high fertilizer costs and the need to implement environmental friendly agricultural systems are some of the world’s major strategic concerns. Soil microorganisms are part of the soil ecosystem and are reported to contribute in soil fertility improvement. This paper is aimed at highlighting their contributions in alleviating soil fertility decline. The Rhizobium/legume symbiosis, a well known association contributes substantial amounts of biologically fixed nitrogen to cropping systems and significant benefits on yields of crops that follow in rotation. Soil microorganisms such as bacteria and fungi contribute to plant phosphorus nutrition through solubilization of sparingly soluble Al, Fe and Ca phosphates, and mineralization of phosphorus from organic substances. Solubilization is mainly achieved through production of organic acids, chelation and ligand exchange, and other pH lowering mechanisms whereas mineralization is achieved through production of enzymes such as phytases and phosphatases. Mycorrhizal associations are reported to contribute to plant phosphorus nutrition through increasing root surface area for soil exploration, production of phosphorus solubilizing enzymes and acids. Mycorrhizal fungi and bacteria also solubilize other nutrients such zinc, copper, potassium and calcium from their precipitated or sparingly soluble forms. Microorganisms also contribute to soil fertility improvement through their roles in composting. They are currently isolated, studied and packaged as biofertilizers and used to supplement chemical fertilizers. It can be noted that thorough exploitation of microbial activities can contribute to balanced plant nutrition. However, poor soil management practices limit realization of potential benefits from soil microorganisms whereas biofertilizer technology development in developing countries such as Sub-Saharan African countries is derailed because of lack of awareness, infrastructure and human capacity. From this study it can be noted that intensifying soil management practices that maximize microbial activities can go a long way in improving soil fertility with minimal use of chemical fertilizers. On the other hand there is a need to improve both human and infrastructure capacity in poor countries such as those in Sub-Saharan Africa so as to manage research in biofertilizer technologies. Awareness and dissemination of information on the importance of biofertilizers, intensifying effective microbial inoculation where it deemed to give good response and systematic evaluation of economic viability of biofertilizer technologies are other areas that need to be addressed.
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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.
Assuntos
Biomassa , Biotransformação , Microbiologia Ambiental , Fungos , Fosfatase Ácida/análise , Fosfatase Ácida/isolamento & purificação , Metais Pesados , Micorrizas/isolamento & purificação , Micorrizas/metabolismo , Zona Árida/análise , Chumbo , Métodos , Plantas , MétodosRESUMO
Nuclear distribution within the extra-radical fungal structures and during spore production in the arbuscular mycorrhizae fungus Glomus intraradices was examined using an in vitro monoxenic culture system. A di-compartmental monoxenic culture system was modified using a nitrocellulose membrane and a coverglass slip for detailed observations. Nuclear distribution was observed using the fluorescent DNA binding probes SYBR Green I and DAPI. Both septate and non-septate mycelial regions were observed, but cytoplasmic contents were only found within non-septate mycelia. Nuclear fluorescent staining revealed that the non-septate hyphal region contained nuclei only with cytoplasm, and that nuclear distribution was limited by septa. Swollen hyphal bodies were often associated with septate and empty-looking hyphae. Cytoplasmic contents filled the swollen hyphal body from the non-septate hyphal region following removal of the septa. As a consequence, the swollen body developed into a new spore. These observations provide understanding about the distribution of AM fungal nuclei within extra-radical mycelia and during spore formation. The results suggest a mechanism by which the development of a cytoplasm-containing mycelium is controlled by the formation or removal of septa to efficiently maintain and proliferate essential contents. This mechanism may provide a survival strategy to the fungus.
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Colódio , Citoplasma , DNA , Estruturas Fúngicas , Fungos , Hifas , Indóis , Membranas , Micélio , Micorrizas , Compostos Orgânicos , EsporosRESUMO
Cantharellus Adans. ex Fr., a member of the Cantharellaceae, Cantharellales, Homobasidiomycetes, Basidiomycota, is a widely distributed macro-fungal genus with an independent evolutionary lineage. It currently includes 65 species, of which 9 were recorded in China. In this article, research history of the genus was briefly reviewed and some controversial conclusions, especially the demarcation and naming of some taxa, discrimination among similar species, problems on C. cibarius Fr. and C. tubaeformis Fr.: Fr. complex, as well as their ecological conservation and bionic cultivation, are discussed based on the authors’ findings. Proposals for further research on biodiversities and sustainable utilizations were put forward at last.
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Inoculation with arbuscular mycorrhizal (AM) fungi has often promoted increased growth of plants but very little work has been done in the tropics to evaluate the effects of inoculation on the establishment and development of seedlings in forests. Desmoncus orthacanthos Martius is a scandent palm present both in early and late succession, and consequently can be used in restoration processes. A test was conducted to determine the effect of AM on the establishment of Desmoncus orthacanthos in tropical forest in the Yucatan Peninsula, Mexico. Thirty inoculated and 30 non-inoculated seedlings were introduced in two sites of different successional age, a mature forest and an eight-year old abandoned cornfield (acahual).Survival and growth parameters were evaluated after 12 months. Leaf area and phosphorus, but not height, were greater in inoculated than non-inoculated plants in the forest but not in the acahual. However, mycorrhizae had a clear effect on plant survival in both sites, with a threefold increase in survival of inoculated compared with non-inoculated plants bassed on an odds ratio. The results suggest that inoculation will be important to increase the establishment of this commercially important palm.
La inoculación con hongos micorrizógenos arbusculares (AM)promueve un incremento en el crecimiento de las plantas, sin embargo poco trabajo se ha realizado en los trópicos para evaluar el efecto de la inoculación en el proceso de establecimiento de plántulas. Desmoncus orthacanthos Martius es una palmera trepadora que se distribuye tanto en etapas tempranas y tardías de la sucesión, por lo tanto puede ser empleada en procesos de restauración. Se realizó una prueba de establecimiento de D. orthacanthos en una selva tropical de la península de Yucatán, México. Treinta plántulas inoculadas y 30 no inoculadas se establecieron en dos sitios con diferentes etapas sucesionales: selva madura y un campo abandonado de maíz (acahual). Después de 12 meses el valor de área foliar y contenido de fósforo fue mayor en el tratamiento con micorrizas en la selva pero no en el acahual, sin embargo, el tratamiento con micorrizas mostró un claro efecto en la supervivencia de las palmeras en ambos sitios con un incremento tres veces mayor en la probabilidad de supervivencia de palmeras inoculadas comparadas con las no inoculadas de acuerdo al análisis de razón de disparidad (odds ratio). La inoculación podría ser importante para incrementar el establecimiento de esta palmera.