Sowing the wheat seeds of Afghanistan's future

Nigel Poole Rajiv Sharma Orzala Nemat Jason Donovan Alison Bentley (2022, [Artículo])

Humanitarian Intervention CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA FOOD SECURITY IRRIGATION NUTRITION PLANT BREEDING SEED SYSTEMS

Supervivencia de Artemia franciscana en cocultivo con Vibrio campbellii y Nitzschia thermalis f. kurta

Survival of Artemia franciscana in coculture with Vibrio campbellii and Nitzschia thermalis f. kurta

Dalia Azucena Verde Inzunza (2023, [Tesis de maestría])

La acuicultura es uno de los sectores más importantes y de mayor producción alimentaria. Sin embargo, se ve afectada por enfermedades bacterianas como la vibriosis, la cual puede ocasionar pérdidas totales en los cultivos. El método más utilizado para controlar la vibriosis es el uso de antibióticos, lo cual ha contribuido al desarrollo de cepas bacterianas resistentes. Por ello, se buscan medios de control naturales para inhibir el crecimiento de Vibrio, como el uso de aguas verdes. El objetivo de este trabajo fue evaluar el efecto inhibitorio de Nitzschia thermalis f. kurta en la concentración de V. campbellii y en la supervivencia de nauplios de Artemia franciscana al estar en cocultivo. Se realizó un bioensayo de inhibición de V. campbellii en cocultivo con N. thermalis y nauplios de A. franciscana. Se mantuvieron cultivos monoespecíficos, no axénicos y por triplicado en medio “f” con una densidad celular de 250,000 cél. mL-1 de N. thermalis. Los cultivos fueron inoculados con una concentración inicial de 1 x105 V. campbellii mL-1 y una densidad de 1 nauplio de A. franciscana mL-1. Para cada tratamiento se evaluó la densidad celular de N. thermalis, conteo de bacterias heterotróficas, cuantificación de la concentración de V. campbellii y la supervivencia de nauplios de A. franciscana durante 5 días. Se obtuvo una supervivencia promedio de 55% de nauplios de A. franciscana al estar en cocultivo con N. thermalis. Mientras que el tratamiento control sin la presencia de N. thermalis obtuvo una supervivencia de nauplios de A. franciscana del 0%. El contenido de bacterias heterotróficas se presentó en todos los tratamientos en un orden de magnitud de 106 UFC mL-1, lo cual nos indica que el efecto inhibitorio de N. thermalis es específico para V. campbellii. La concentración de V. campbellii disminuyó a 53 V. campbellii mL-1 al día 5 en el cocultivo de V. campbellii con N. thermalis y nauplios de A. franciscana. Se concluye que N. thermalis tiene un efecto inhibitorio contra V. campbellii y brinda protección a los nauplios de A. franciscana en cocultivo con V. campbellii.

Aquaculture is one of the most important sectors with the highest food production. However, it is affected by bacterial diseases such as vibriosis, which can cause total crop losses. The most used method to control vibriosis is antibiotics, which have contributed to the developing of resistant bacterial strains. For this reason, natural control means are sought to inhibit Vibrio growth, such as using green water. This work aimed to evaluate the inhibitory effect of Nitzschia thermalis f. kurta in the concentration of V. campbellii and the survival of Artemia franciscana nauplii when in coculture. An inhibition bioassay of V. campbellii was carried out in coculture with N. thermalis and nauplii of A. franciscana. Monospecific, non-axenic cultures were maintained in triplicate in “f” medium with a cell density of 250,000 cells mL-1 of N. thermalis. The cultures were inoculated with an initial concentration of 1 x105 V. campbellii mL-1 and a density of 1 nauplius of A. franciscana mL-1. For each treatment, the cell density of N. thermalis, count of heterotrophic bacteria, quantification of the concentration of V. campbellii, and the survival of A. franciscana nauplii were evaluated for 5 days. Was obtained an average survival of 55% of A. franciscana nauplii when cocultured with N. thermalis. In contrast, the control treatment without the presence of N. thermalis obtained a survival of A. franciscana nauplii of 0%. The content of heterotrophic bacteria was present in all treatments in order of magnitude of 106 CFU mL-1, which indicates that the inhibitory effect of N. thermalis is specific to V. campbellii. The concentration of V. campbellii decreased to 53 V. campbellii mL-1 on day 5 in the co-culture of V. campbellii with N. thermalis and A. franciscana nauplii. It is concluded that N. thermalis has an inhibitory effect against V. campbellii and provides protection to A. franciscana nauplii in coculture with V. campbellii.

Artemia franciscana, Vibrio campbellii, inhibición, Nitzschia thermalis Artemia franciscana, Vibrio campbellii, inhibition, Nitzschia thermalis CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA CIENCIAS AGRARIAS PECES Y FAUNA SILVESTRE PISCICULTURA PISCICULTURA

Effect of Nitrogen, Phosphorus and Potassium on regional organic substrates in Agave salmiana production in Huichapan, Hidalgo, Mexico

EMILIO RAYMUNDO MORALES MALDONADO MONICA GUTIERREZ ROJAS RAMON JAIME HOLGUIN PEÑA Daniel Ruiz-Juárez Jorge Luis Vega Chávez Ana Cristina Reyes Godoy (2022, [Artículo])

"Mexico has 159 species of Agave spp. In the agri-food industry stand out are Agave tequilana, A. angustifolia, and A. salmiana. A limitation to producing maguey seedlings is the low availability of organic substrates that favor plant adaptation in the field. The objective was to evaluate the effect of nitrogen (N), phosphorus (P) and potassium (K) found in substrates in response to vegetative and root growth of A. salmiana in agricultural areas of Huichapan, Hidalgo, Mexico. The treatment consisted of earthworm humus (EH) and leaf compost (LC) substrates with materials from the region with different percentages of EH (100, 75, 50%), LC (5, 10%), and sand (20, 40%). The treatments were applied with 14 random replications in two phases in seeds and 40-day-seedlings. The variables evaluated were NPK amount and pH in substrates. The physiological variables measured were plant height, leaf number, stem diameter, root length, and volume. Significant differences (P≤0.05) were observed in seedling physiology due to the effect of the treatment. The best agronomic responses (plant growth and root length/weight) of Agave seedlings were T5 (75% earthworm humus + 20% sand + 5% leaf-soil) and T6 (50% earthworm humus + 40% sand + 10% leaf-soil); in both treatments, the NPK percentages were different from the control (Haplic Phaeozem soil) group. The final concentration of NPK in T6 was N = 0.04%, P = 398.13 mg Kg-1 and K = 11.88 meq 100g-1 . The results infer that NPK availability in soil and progressive acidification (initial pH = 8.6, final pH = 7.4) of the substrate can favorably influence the plant response. The interactions between NPK availability in the substrate and their use for a better response in maguey seedling adaptability open up new lines of research on the productive systems in the región of Huichapan, Hidalgo, Mexico."

maguey, nutritional quality, plant physiology, productive soils, seedling BIOLOGÍA Y QUÍMICA CIENCIAS DE LA VIDA BIOLOGÍA VEGETAL (BOTÁNICA) FERTILIDAD DEL SUELO FERTILIDAD DEL SUELO