Disposición especial de bactericera cockerelli (Sulc) ( Hemiptera: Triozidae) en Physalis ixocarp Brot
Date
2008Metadata
Show full item recordAbstract
Physalis ixocarpa es uno de los cultivos más importantes en México, y es hospedero de
una amplio rango de plagas, entre ellas Bactericera cockerelli. Este insecto ha tomado
gran relevancia en México desde 1997; existen reportes que señalan hasta un 45 % de
daños producidos por esta plaga debido a la transmisión de la Enfermedad del
Permanente del Tomate. Sin embargo, no existen programas de muestreo para la
plaga en cuestión. Por esta razón se determinó la disposición espacial de Bactericera
cockerelli en tres parcelas experimentales en Texcoco, México. Se emplearon los
parámetros de la varianza/media y la Ley de la Potencia de Taylor (LPT), además se
obtuvieron mapas de superficie de respuesta de la plaga; los datos fueron analizados
con el programa SUPRA para obtener los parámetros de la LPT, la relación
varianza/media y los mapas de superficie de respuesta; se evaluaron los colores azul,
amarillo, naranja y verde neón de trampas pegajosas para la captura de adultos. Los
resultados obtenidos muestran que los huevos y ninfas presentan una disposición
agregada, mientras que los adultos son altamente móviles dentro del campo. Los
estados biológicos presentan diferentes patrones de distribución en las parcelas.
También se evaluaron diferentes colores de trampas pegajosas para la captura de
adultos.___________Green tomato (Physalis ixocarpa), one of the most important crops in Mexico, is host of
a large number of pests including Bactericera cockerelli. This insect has increased its
importance as a main pest since 1997, especially to Solanaceous crops. It can cause
up to 45 % of indirect damage to tomato (Lycopersicon esculentum), due to its role as
vector of Permanent Tomato Disease. Management of this pest can be facilitated
through sampling plans. However, no sampling procedure has been reported so far and
the knowledge about the spatial distribution of this pest is lacking as well. Therefore, the
objective of this study was to determine the spatial distribution of Bactericera cockerelli
and to display populations on a spatial scale by using surface-response maps.
Observations were recorded from adults, eggs, and nymphs by inspecting four buds
every three meters along the grooves and every three grooves (3.6 m) in each of the
three fields in Texcoco, México, for nine weeks, from April 16 to June 12, 2007. Spatial
distribution was estimated with the Taylor´s Power Law model and visual representation
of densities was obtained by constructing surface response maps with the SUPRA
software. Four colors: blue, yellow, neon green and neon orange, were used for
catching adults using cylindrical-sticky traps. The results showed that eggs and nymphs
were aggregated while adults had a high dynamics of movement under field conditions.
The Taylor´s Power Law showed variable patterns for each pest stadium. The neon
green coloured sticky trap was found most efficient for capturing adults.
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- Tesis MC, MT, MP y DC [284]