Eficacia de un desinfectante sobre Vibrio ordalii, Vibrio anguillarum, Francisella sp. y Virus de la Necrosis Pancreática Infecciosa (IPNV), patógenos de salmón del Atlántico (Salmo salar) cultivado en Chile

Indexación: ScieloRESUMEN En el presente trabajo se evaluó la eficacia in vitro del desinfectante Duplalim®, una combinación sinérgica de glutaraldehído y sales de amonio cuaternario de cuarta generación, contra 4 patógenos de peces prevalentes de la salmonicultura chilena. Los resultados muestran que todas las concentraciones ensayadas (diluciones entre 1:200 a 1:400) fueron eficaces sobre los aislados de Vibrio ordalii y Vibrio anguillarum post-30 s de exposición, detectando niveles de reducción igual a 1.8 x 106 UFC/ml. Concentraciones superiores de Duplalim® (dilución 1:50) y un tiempo de exposición no menor a 5 min. Fueron necesarios para eliminar completamente al patógeno intracelular Francisella sp. Cuando el desinfectante fue ensayado contra el Virus de la necrosis Pancreática infecciosa (IPNV), se detectó que la dilución 1:400 tiene un efecto significativo después de 2 minutos sin importar los títulos de IPNV testeados (mayor concentración evaluada 107.6 TCID50/ml). Duplalim® se evaluó en condiciones masivas contra los miembros de la familia Vibrionaceae. En comparación a los controles (sin adición desinfectante), la dilución 1:400 de Duplalim® eliminó completamente V. ordalii y V. anguillarum después de 15 minutos de tratamiento, tanto en el agua de cultivo como en la superficie de mallas usadas en el cultivo del salmón. Así, el análisis microbiológico del agua de los controles mostró concentraciones de 1.4 ± 0.3 × 106 UFC/ml, mientras en el caso de las mallas 7.6 ± 3.2 × 105 UFC/ml1. En resumen, los antecedentes obtenidos indican que el uso del desinfectante Duplalim® es efectivo contra V. ordalii, V. anguillarum y IPNV en bajas concentraciones y cortos periodos de exposición (dilución 1:400 por 15 min.), mientras que para el patógeno intracelular se requiere una concentración mayor. Palabras clave: desinfectante, patógenos de peces, salmón del atlántico. SUMMARY The efficacy of the disinfectant Duplalim®, a synergistic blend of superquats and glutaraldehyde, was analysed in vitro against 4 fish pathogens. All concentrations tested (1:200 to 1:400 dilutions) were efficacious on killing Vibrio ordalii and Vibrio anguillarum in seawater after 30 s, being the level of reduction equal to 1.8 x 106 CFU/ml. Higher concentration of Duplalim® (1:50 dilutions) and time of exposure (at least 5 min) is needed to kill completely Francisella sp, an intracellular freshwater pathogen. When Infectious Pancreatic Necrosis Virus (IPNV) was treated with 1:400 disinfectant dilution, this concentration had a significant effect after 2 minutes, regardless of the IPNV titres employed (concentration greater than 107.6 TCID50/ml). Duplalim® was tested in large scale against Vibrionaceae members. In comparison to the controls (without the disinfectant), 1:400 dilutions of Duplalim® totally killed V. ordalii and V. anguillarum in seawater as well as on the surface of the fishing net (used in the cages of cultured salmon) after 15 min. Cultivable bacteria remained constant in the buckets without the disinfectant (1.4 ± 0.3 × 106 CFU/ml), regardless of the period sampled. In the case of the adherence on the fishing net, bacteria not exposed to the disinfectant were detected at a concentration of 7.6 ± 3.2 × 105 CFU/ml. These data indicate that the use of Duplalim® against V. ordalii, V. anguillarum and IPNV is effective in low concentration and short time of exposure (15 min at a concentration of 1:400 dilutions), while the intracellular pathogen requires higher concentration. Key words: disinfectant, Chilean fish pathogens, Atlantic salmon

Necklace theory on Flower Constellations

Theory of Flower Constellations has been improved with the 2-D and 3-D Lattice Flower Constellations. However, placing a satellite in each admissible location is not an optimal way to design a constellation. The necklace theory considers constellations whose satellites are subsets of the satellites of a Lattice Flower Constellation, keeping all its symmetries, in order to reduce the cost of the mission. Mathematically, these subsets are parameterized by necklaces (describing which satellites in the first orbit of the underlying constellation we keep), and a shifting parameter that controls the phasing between subsequent orbits

Definition of Low Earth Orbit slotting architectures using 2D lattice flower constellations

This work proposes the use of 2D Lattice Flower Constellations (2D-LFCs) to facilitate the design of a Low Earth Orbit (LEO) slotting system to avoid collisions between compliant satellites and to optimize the available orbital volume. Specifically, this manuscript proposes the use of concentric orbital shells of admissible “slots” with stacked intersecting orbits that preserve a minimum separation distance between satellites at all times. The problem is formulated in mathematical terms and three approaches are explored: random constellations, single 2D-LFCs, and unions of 2D-LFCs. Each approach is evaluated in terms of several metrics including capacity, Earth coverage, orbits per shell, and symmetries. Additionally, a rough estimate for the capacity of LEO is generated, subject to certain minimum separation and station-keeping assumptions, and several trade-offs are identified to guide policy-makers interested in the adoption of a LEO slotting scheme for space traffic management