Antioxidant Activity and Phytopathogenic Control of Extracts and Fraction from Struthanthus calophyllus A.C.Sm. (Loranthaceae).

Phytopathogenic microorganisms cause oxidative stress in host plants, thus affecting agricultural crops. Such stress could be controlled by antioxidant compounds from parasitic plants, given their antioxidant power. This article reports an evaluation of Struthanthus calophyllus antimicrobial activity and antioxidant mechanism by testing different polarity extracts. Antimicrobial activity was evaluated against phytopathogens bacteria (e. g., Erwinia, Pectobacterium, Xanthomonas) using the agar diffusion method. Pectobacterium and Xanthomonas presented growth inhibition zones similar to streptomycin control. Antioxidant activity was determined by measuring total phenol content, DPPH⋅, and ABTS⋅+ radicals-scavenging inhibition percentage (IP). Most polar extracts presented 76,9-95,9 % IP, which correlates with its phenolic content. Besides, Nuclear Magnetic Resonance in a V14-1 sub-fraction from stem ethanolic extract, chose one for highest yield percentage, highest metabolites presence, and antimicrobial activity, showed triterpenic compounds mixture (α-amyrin, ß-amyrin and 24-methylenecycloartanol). Findings in this study are among the first reports for S. calophyllus, even the chemical characterization, that confirm its strong antioxidant and antibacterial activities. Further molecular composition research about parasitic plants could show how unknown compounds may combat pathogenic microorganisms.

Potencial nematicida de hongos aislados de cultivos de plátano dominico hartón (Musa AAB Simmonds) del suroeste antioqueño / Nematicidal potential of fungi isolated of Plantain crops (Musa AAB Simmonds) from southwest Antioquia

RESUMEN El objetivo de este trabajo fue evaluar el potencial nematicida de aislados fúngicos provenientes de cultivos de plátano de los municipios de Andes y Jardín (Suroeste antioqueño). Se analizaron in vitro diez aislados fúngicos frente a los nematodos fitoparásitos de los géneros Meloidogyne y Radopholus. Los hongos pertenecían a los géneros Paecilomyces, Pochonia, Arthrobotrys, Lecanicillium y Metarhizium. Se realizaron pruebas metabólicas cualitativas con diversos sustratos con el fin de observar la capacidad de degradación de diferentes compuestos característicos en la estructura de huevos o juveniles de nematodos. También, se evaluó la capacidad de colonizar huevos o juveniles de Meloidogyne sp. y, la mortalidad de los aislados frente a los géneros Meloidogyne y Radopholus. Se encontró que la mayoría de los aislados fueron capaces de degradar Tween 80 (90% de los aislados), seguido de caseína (80%), gelatina (80%), Tween 20 (60%), y en menor medida quitina (40% de los aislados); además, el 30% de los aislados presentaron formación de cristales en los medios de Tween. El 70% de los aislados podían infectar huevos, mientras que el 30% restante infectaban juveniles (J2) de Meloidogyne sp., después 24 horas de incubación. En cuanto al porcentaje de mortalidad del hongo y el filtrado, se encontró que todos los aislados difieren del control (p<0.05), siendo aislados de los géneros Pochonia y Paecilomyces quienes presentaron porcentajes de mortalidad superiores al 90%.

ABSTRACT The aim of this work was to evaluate the nematicidal potential of fungal isolates from plantain crops in the municipalities of Andes and Jardín (Southwest Antioquia). Ten fungal isolates were analyzed in vitro against phytoparasitic nematodes of the genera Meloidogyne and Radopholus. The fungi belonged to the genera Paecilomyces, Pochonia, Arthrobotrys, Lecanicillium, and Metarhizium. Qualitative metabolic tests were carried out with various substrates to observe the degradation capacity of different characteristic compounds in the structure of nematode eggs or juveniles. Also, the ability to colonize eggs or juveniles of Meloidogyne sp. and, the mortality of the isolates against the genera Meloidogyne and Radopholus were evaluated. It was found that most isolates were capable of degrading Tween 80 (90% of isolates), followed by casein (80%), gelatin (80%), Tween 20 (60%), and to a lesser extent chitin (40 % of isolates); in addition, 30% of the isolates presented crystal formation in the Tween media. 70% of the isolates could infect eggs, while the remaining 30% infected juveniles (J2) of Meloidogyne sp., after 24 hours of incubation. Regarding the percentage of mortality of the fungus and the filtrate, it was found that all the isolates differ from the control (p<0.05), and some isolates of the genera Pochonia and Paecilomyces who presented mortality percentages higher than 90%.

Arbuscular mycorrhizal fungi enhance fruit growth and quality of chile ancho (Capsicum annuum L. cv San Luis) plants exposed to drought.

The effect of arbuscular mycorrhizal fungi (AMF) and drought on fruit quality was evaluated in chile ancho (Capsicum annuum L. cv San Luis). AMF treatments were (1) Glomus fasciculatum (AMFG), (2) a fungal species consortium from the forest "Los Tuxtla" in Mexico (AMFT), (3) a fungal species consortium from the Sonorian desert in Mexico (AMFD), and (4) a noninoculated control (NAMF). Plants were exposed to a 26-day drought cycle. Fruit quality was determined by measuring size (length, width, and pedicel length), color, chlorophyll, and carotenoid concentration. Under nondrought conditions, AMFG produced fruits that were 13% wider and 15% longer than the NAMF treatment. Under nondrought conditions, fruit fresh weight was 25% greater in the AMFG treatment compared to the NAMF. Under drought, fruits in the AMFT and AMFD treatments showed fresh weights similar to those in the NAMF treatment not subjected to drought. Fruits of the AMFG treatment subjected to drought showed the same color intensity and chlorophyll content as those of the nondroughted NAMF treatment and carotenoid content increased 1.4 times compared to that in the NAMF not exposed to drought. It is interesting to note that fruits in the AMFD treatment subjected to drought and the NAMF treatment not exposed to drought reached the same size. AMFD treatment increased the concentration of carotenes (1.4 times) under nondrought conditions and the concentration of xanthophylls (1.5 times) under drought when compared to the nondroughted NAMF treatment.