Efecto de cultivos hospederos y no hospederos sobre propágulos micorrícicos arbusculares

Recent field studies have shown that fungal spores decrease when non host plants are used as a pre-culture. The objective of this study was to evaluate how host plant like oats (Avena sativa L.), and non host, as lupine (Lupinus albus L.), and rapeseed (Brassica napus L.) can influence on arbuscular mycorrhizal fungi (AMF) propagules diversity and phosphatase activity when growing in an Andisol and an Inceptisol. The trial was conducted from September 2006 through March 2007 in greenhouse conditions using 5 kg pots with in a completely randomized design with four replicates. The number of AMF spores was higher in the Andisol than the Inceptisol and highest when using oats than lupine or raps as plant host. Oats also showed a large enrichment of morphotypes, whereas lupine and raps were poor. The phosphatase activity (P-ase) in Inceptisol was lower than in Andisol and between crops increased in the order oats < rapeseed < lupine; while significant differences between lupines with other crops were registred. Again, our results reinforce the hypothesis that the mycorrhizae and phosphatase activity are complementary mechanisms developed by plants for a better P acquisition.Estudios recientes en campo han demostrado que las esporas fúngicas disminuyen cuando se utilizan como pre-cultivo no hospederos. El objetivo de este trabajo fue estudiar la influencia de un cultivo hospedero, avena (Avena sativa L.) y cultivos no hospederos, como lupino (Lupinus albus L.) y raps (Brassica napus L.) sobre los propágulos de hongos micorrícicos arbusculares (HMA) y diversidad fúngica junto con la actividad fosfatásica en un Andisol serie Temuco e Inceptisol serie Lumaco. El ensayo se realizó en condiciones de invernadero, desde septiembre de 2006 hasta marzo de 2007, utilizándose macetas de 5 kg con un diseño experimental completamente al azar con cuatro repeticiones. El número de esporas HMA fue mayor en el Andisol que en el Inceptisol y mayor cuando se usó avena como planta hospedera que lupino y raps. La avena también mostró una gran riqueza de morfotipos mientras que, en lupino y raps fue baja. La actividad fosfatásica en el Inceptisol fue menor que en el Andisol y entre cultivos aumentó en orden avena < raps < lupino; mientras que, se encontraron diferencias significativas entre lupino con los otros cultivos. Nuevamente, nuestros resultados refuerzan la hipótesis que las micorrizas y actividad fosfatásica son mecanismos complementarios que utiliza la planta para una mejor captación de fósfor

Interacción Rhizobium leguminosarum bv trifolii y hongos micorrícicos en un Andisol con diferentes niveles de saturación de aluminio

Aluminium phytotoxicity is a serious limitation of the productivity of prairies growing on volcanic soil by affecting nodulation and effectiveness of Rhizobium. The aim of this study was to select Rhizobium strains to determine the effect as inoculant on Trifolium repens cropped in an Andisol with different aluminium saturation levels. Acidity tolerance (pH 4.5 and 6.0) of twelve Rhizobium strains of collection at three Al levels (100, 200, 300 μM) was evaluated in mineral nutritive medium vitro. Simultaneously, in a greenhouse trial, strains effectivity were tested by inoculation of Trifolium pratense growing in an acidic Andisol and compared with dry matter accumulation produced by native strains. According to the results of this two trials, three Rhizobium strains (R-109, R-113 and R-115) were selected to study the effect of their inoculation on Trifolium repens growth cropped in an Andisol at four Al saturation levels (SAl1 to SAl4). In addition, the effect on arbuscular mycorrhizal propagules was also studied. Plants showed different capacity for association with the inoculated strains giving the best response R-113 at SAl1 level with positive synergism expressed by microbiological parameters such as high nodulation (16 nodules pot-1), AMF spore number (384 spores 100 g-1), root colonization percentage (45%), together with agronomical variables with an increase of aerial phytomass (93,5%) in comparison with the control. Higher Al levels had an deleterious effect on the inoculation of collection strains; therefore, with R-109 strain inoculation the smallest root growth and nodulation were observed in comparison with soil with native strains whereas R-113 was the more effective one.La fitotoxicidad por Al es una seria limitante de la productividad de praderas crecidas sobre suelos volcánicos afectando la nodulación y efectividad de los Rhizobium. El objetivo del estudio consistió en seleccionar cepas de Rhizobium de colección para estudiar su efectividad en Trifolium repens crecido en un Andisol con cepas nativas y distinta saturación de Al. Para ello se evaluó previamente en caldo nutritivo la tolerancia a la acidez y toxicidad por Al de 12 cepas de colección mediante control de curvas de crecimiento. Paralelamente, se inocularon los Rhizobium en un Andisol para evaluar su efectividad mediante rendimiento de Trifolium pratense. Se seleccionaron las cepas R-109, R-113 y R-115 para inocularlas en el Andisol utilizando cuatro tratamientos: suelo adicionado de 2 Mg CaCO3 ha-1 (SAl1), un testigo (SAl2) y suelo adicionado de dos niveles de saturación Al (SAl1, SAl4) utilizando Trifolium repens como hospedero. Las plantas mostraron capacidad para asociarse con las especies inoculadas presentando mayor efectividad R-113-SAl1 sinergismo positivo expresado en variables microbiológicas como nodulación (16 nódulos maceta-1), esporas de hongos micorrícicos arbusculares, HMA (384 esporas 100g-1), colonización HMA (45%) junto con variables agronómicas alcanzándose un incremento de biomasa foliar (93,5%) frente al testigo. Niveles más elevados de Al afectaron la inoculación con cepas de colección; así, con R-109 se obtuvo el menor crecimiento radical y nodulación respecto al suelo natural mientras que R-113 fue la cepa más efectiva

Respuesta de ají(Capsicum annuum L.) cv. "Cacho de Cabra" a la inoculación con hongos micorrícicos arbusculares

The aim of this work was to study, in glasshouse conditions, the effect of arbuscular mycorrhizal fungi (AMF) inoculation on plant growth and fruit quality of chili pepper cv. Cacho de Cabra when plants were transplanted to a sterile (SS) and unsterile substrate (NSS) composed by a mixture of soil-sand- vermiculite. Inocula were Glomus claroideum and a mixture of native HMA strains which were compared with a control. Twice a month, height and flower number and nutritional and chemical fruit characteristics were measured. In SS both HMA inocula increased shoot and root weight and diameter and weight of fruits. Maturation period was also reduced. Under the studied conditions the strains used showed compatibility with host plant which suggests that an effective inoculation of this vegetable could greatly improve its usefulness in industrial processes

Efecto de los hongos micorrícicos arbusculares en un cultivo ecológico de ají (Capsicum annuum L.) cacho de cabra

Mapuche farmers in southern Chile have been cultivating local ecotypes of chili pepper (Capsicum annuum L.), called locally "Cacho de cabra", for many decades. It is used to make "merkén", a condiment that is consumed locally and exported. This vegetable requires a nursery stage and can obtain nutritional benefits from symbiotic associations such as mycorrhizal fungi, achieving a better adaptation to transplanting. Arbuscular mycorrhizal fungi (AMF) are obligate biotrophes appearing in abundance in agroecosystems with conservation management. The aim of this study was to compare effectiveness of two AMF, a commercial mycorrhizal inoculant (IC, Glomus intraradices) and another native (IN, Glomus claroideum) with a control without inoculation (-I) on the production and quality of "Cacho de cabra". At 45 days after sowing (DAS) transplanting was carried out and at 90 and 216 DAS fruit quality, fungal and edaphic parameters were evaluated. The harvest was at four stages. With IN inoculation plants and with greater foliar area were obtained. Also, precocity of fruit production was observed. The harvest started 49 days earlier and fresh weight was 177% higher than that of the control. Root colonization was low, showing significant differences between IN and IC, while a large number of spores was produced in the substrate. It was concluded that inoculation with native fungi decreased transplanting stress thus accelerating the maturation stage of plants and resulting in higher and better yield quality

Glomalin-related soil protein in a Mediterranean ecosystem affected by a copper smelter and its contribution to Cu and Zn sequestration

The amount of glomalin-related soil protein (GRSP), a glycoprotein produced by arbuscular mycorrhizal fungi (AMF), its contribution to the sequestering of Cu and Zn in the soil, and the microsite variation of other soil traits (pH, water-stable aggregates-[WSA], soil organic carbon-[SOC]) was studied in a semi-arid Mediterranean ecosystem near a copper smelter and affected by deposit of metal-rich particles since 1964, Rhizospheric (R) and nonrhizospheric (NR) soil of four representative plants (Argemone subfusiformis, Baccharis linearis, Oenothera affinis and Polypoyon viridis) was analyzed. The results showed a strong variability in GRSP (6.6-36.8 mg g(-1)), Cu content (62-831 mg kg(-1) for the total Cu and 5.8-326 mg kg(-1) for the available Cu) and pH (4.2-5.5) in the different plant and rhizospheric zones analyzed. A strong relationship between the GRSP with the soil Cu and Zn contents was found (r=0.89 and 0.76 for Cu and Zn respectively, p<0.001). The GRSP-bound Cu ranged from 3.76 to 89.0 mg g(-1) soil and represents 1.44-27.5% of the total Cu content in soil. Moreover, the WSA reached 89% in P. viridis R. For this plant, the C contained in GRSP represented up to 89% of SOC, and this coincided with the most extreme conditions of soil degradation within the ecosystem (the highest content of heavy metals and low pH values). This study provides evidence on the role of the GRSP in Cu and Zn sequestration and suggests a highly efficient mechanism of AMF to mitigate stress leading to stabilization of soils highly polluted by mining activities.This work was supported by Fondecyt 3070052 and 1030702 Grants. The authors also acknowledge financial support given to Matthias Rillig for travel and expenses while staying in Chile through Fondecyt CI 7070333 Grant

EFFECT OF ARBUSCULAR MYCORRHIZAL FUNGI ON AN ECOLOGICAL CROP OF CHILI PEPPERS (Capsicum annuum L.)

Mapuche farmers in southern Chile have been cultivating local ecotypes of chili pepper (Capsicum annuum L.), called locally 'Cacho de cabra', for many decades. It is used to make 'merken', a condiment that is consumed locally and exported. This vegetable requires a nursery stage and can obtain nutritional benefits from symbiotic associations such as mycorrhizal fungi, achieving a better adaptation to transplanting. Arbuscular mycorrhizal fungi (AMF) are obligate biotrophes appearing in abundance in agroecosystems with conservation management. The aim of this study was to compare effectiveness of two AMF, a commercial mycorrhizal inoculant (IC, Glomus intraradices) and another native (IN, Glomus claroideum) with a control without inoculation (-I) on the production and quality of 'Cacho de cabra'. At 45 days after sowing (DAS) transplanting was carried out and at 90 and 216 DAS fruit quality, fungal and edaphic parameters were evaluated. The harvest was at four stages. With IN inoculation plants and with greater foliar area were obtained. Also, precocity of fruit production was observed. The harvest started 49 days earlier and fresh weight was 177% higher than that of the control. Root colonization was low, showing significant differences between IN and IC, while a large number of spores was produced in the substrate. It was concluded that inoculation with native fungi decreased transplanting stress thus accelerating the maturation stage of plants and resulting in higher and better yield quality

Efecto de los hongos micorrícicos arbusculares en un cultivo ecológico de ají ( Capsicum annuum L.) cacho de cabra.

Mapuche farmers in southern Chile have been cultivating local ecotypes of chilipepper (Capsicum annuum L.), called locally “Cacho de cabra” for many decades. It is used to make “merkén”, a condiment that is consumed locally and exported. This vegetable requires a nursery stage and can obtain nutritional benefits from symbiotic associations such as mycorrhizal fungi, achieving a better adaptation to transplanting. Arbuscular mycorrhizal fungi (AMF) are obligate biotrophes appearing in abundance in agroecosystems with conservation management. The aim of this study was to compare effectiveness of two AMF, a commercial mycorrhizal inoculant (IC, Glomus intraradices) and another native (IN, Glomus claroideum) with a control without inoculation (-I) on the production and quality of “Cacho de cabra”. At 45 days after sowing (DAS) transplanting was carried out and at 90 and 216 DAS fruit quality, fungal and edaphic parameters were evaluated. The harvest was at four stages. With IN inoculation plants and with greater foliar area were obtained. Also, precocity of fruit production was observed. The harvest started 49 days earlier and fresh weight was 177% higher than that of the control. Root colonization was low, showing significant differences between IN and IC, while a large number of spores was produced in the substrate. It was concluded that inoculation with native fungi decreased transplanting stress thus accelerating the maturation stage of plants and resulting in higher and better yield quality.En el sur de Chile, agricultores mapuches han cultivado durante décadas ecotipos locales de ají (Capsicum annuum L.)“Cacho de cabra” para elaborar “merkén”, producto con reconocidas ventajas en el mercado internacional. Esta hortaliza requiere etapa de almácigo, pudiendo beneficiarse nutricionalmente con la asociación simbiótica del tipo micorrizas,logrando una mejor adaptación al trasplante. Los hongos micorrícicos arbusculares son biótrofos obligados abundantes en agrosistemas con manejo conservacionista. El objetivo de este estudio fue comparar, en invernadero, el efecto de la inoculación de dos hongos, uno comercial, Glomus intraradices (IC),y otro nativo, Glomus claroideum (IN), con un testigo sin inoculación (-I) sobre la producción y calidad de ají “Cacho de cabra”. A los 45 días después de la siembra (DDS) se realizó el trasplante y a los 90 y 216 DAS se evaluaron parámetros de calidad del fruto, fúngicos y edáficos. La cosecha fue escalonada en cuatro etapas. Con la inoculación de IN se obtuvieron plantas de mayor altura y área foliar que mostraron mayor velocidad de desarrollo del fruto adelantándose la cosecha en 49 días y con aumentos en el peso fresco de 177% en relación al control. La colonización en las raíces de ají fue baja con diferencias significativas entre IN e IC, mientras que una gran cantidad de esporas permaneció en el sustrato. Se concluye que la inoculación con hongos nativos disminuyó el estrés del trasplante acelerando la maduración del ají con aumento de producción y calidad

Izvestiya mathematics

The proton is the primary building block of the visible Universe, but many of its properties—such as its charge radius and its anomalous magneticmoment—are not well understood. The root-meansquare charge radius, rp, has been determined with an accuracy of 2 per cent (at best) by electron–proton scattering experiments. The present most accurate value of rp (with an uncertainty of 1 per cent) is given by the CODATA compilation of physical constants. This value is based mainly on precision spectroscopy of atomic hydrogen and calculations of bound-state quantum electrodynamics. The accuracy of rp as deduced from electron–proton scattering limits the testing of bound-state QED in atomic hydrogen as well as the determination of the Rydberg constant (currently the most accurately measured fundamental physical constant). An attractive means to improve the accuracy in themeasurement of rp is provided bymuonic hydrogen (a proton orbited by a negative muon); its much smaller Bohr radius compared to ordinary atomic hydrogen causes enhancement of effects related to the finite size of the proton. In particular, theLamb shift (the energy difference between the 2S1/2 and 2P1/2 states) is affected by as much as 2 per cent. Here we use pulsed laser spectroscopy to measure a muonic Lamb shift of 49,881.88(76)GHz. On the basis of present calculations of fine and hyperfine splittings and QED terms, we find rp 50.84184(67) fm, which differs by 5.0 standard deviations from the CODATA value of 0.8768(69) fm. Our result implies that either the Rydberg constant has to be shifted by 2110 kHz/c (4.9 standard deviations), or the calculations of the QED effects in atomic hydrogen or muonic hydrogen atoms are insufficient