INVASIVE PESTS DETECTED IN SOME GREENHOUSES OF EREVAN CITY

The following invasive species: Toxoptera aurantii Boyer de Fonscolombe, Toxoptera citricida Kirkaldy, Macrosiphoniteella sanborni Latr, Toxoptera , Macrosiphoniella Del Guercio), Trialeurodes vaporariorum Westwood (Aleyrodidae West., Trialeurodes Cockerell), Tetranychus viennensis Zacher (Tetranychidae Donn, Tetranychus Dufour), and Cenopalpus mespili Lufour. et Mitrofanov (Tenuipalpidae Sayed, Cenopalpus Pritchard & Baker) were identified during studying of the pest fauna of three greenhouse complexes ("Grig Garden", "Green Paradise" and "Avan") in Yerevan which are specialized on the cultivation of ornamental plants. Insecticide and acaricide resistant lines of Tetranychus viennensis and Macrosiphum rosae were found in two greenhouse complexes.

PENYEBAB DAN SERANGGA VEKTOR PENYAKIT KERITING PADA TANAMAN LADA

The cause of stunting disease of black pepper (Piper nigrum) in Indonesia has not yet been confirmed cither due o a virus or mycoplaam. However, similar disease found on black pepper plants in the Southeast Asia is caused by Piper yellow mottle virus (PYMV) which is transmitted by Planococcus citri. This expeiments was aimed o examine the cause of the stunting disease and its insect vectors. The expeiment were conducted from October 1998 to May 2001. Diseased vegetative materials of black pepper plants showing stunting disease were collected from Sukamulya, Sukabumi. The potential insect vectors were collected from black pepper plants in Bogor, IP Sukamulya (Sukabumi), Lampung and Bangka. The insects were fed on the diseased plants obtained from Lampung, Bogor and IP Sukamulya, then transferred o the healthy plants. The healthy plants were produced rom true seeds and cutings oiginated rom Bogor and IP Sukamulya. The tested plants were incubated at the green house and examined for disease development. Diseased leaf samples collected rom black pepper plant rom IP. Sukamulya and the transmitted plants were sent to the University of Minnesota, USA for Ihe virus (PYMV) by using ISEM (immunosorbent electron microscope). The result snowed that the leaves samples rom IP. Sukamulya were infected by PYMV. The morphology and size of the virus were similar to those caused stunting disease in the South East Asia. Potential insects vectors found on the diseased black <br /><br />pepper plants were two mealybugs, P. minor and Ferrisia virgata (Hemiptera; Coccoidca: PaaidbcoccidaeX aa well as an aphid Toxoptera aurantii (Hemiptera: Aphidoidea: Aphididae). The first tial on disease transmission by using P. minor, previously reared on the potato tubers, showed one out of ten tested plants produced disease sympom. The subsequent trial using P minor, bred on healthy black pepper seedlings, showed thee out often tested plants developed disease symptoms. None of the aphid transmitted plants developed Ihe disease. This study confirmed thai PYMV b the cause of stunting disease on black pepper in IP Sukamulya and Lampung and P. minor as the insect vecor of the disease.<br /><br />

The effect of biorational insecticides on the citrus aphids and their predator, Coccinella septempunctata L.

<p>To determine selective effectiveness for specific pesticides on biological control species, we evaluated the contact toxicity of different treatments including 10 ml l^-1 dishwashing liquid, Dayabon 5, 6, 7, 8, 9 and 10 ml l^-1, Palizin 1.5, 2.5 and 2.5 ml l^-1, Palizin 1.5, 2 and 2.5­+­Citrol oil 5 ml l-1, Tondoxir 2 and 3­+­Bartar soap 1 ml l^-1, Malathion 2 ml l^-1 and control (water) on the adult aphids of the most important citrus gardens and their predator, <em>Coccinella septempunctata </em>L. in the laboratory conditions. The results revealed that the Palizin treatment 2.5­+­Citrol oil 5 ml l^-1, caused the highest rate of the mortality of the citrus green aphid, <em>Aphis spiraecola </em><a title="Edith Marion Patch" href="https://en.wikipedia.org/wiki/Edith_Marion_Patch">Patch</a>, 1914 in 36 hours. Concentrations of 7 to 10 ml l^-1, Dayabon and Palizin 2.5­+­Citrol oil 5 ml l^-1, as well as 3 ml^-1 Tondexir + Bartar soap 1 ml^-1 had the highest mortality of the citrus brown aphid, <em>Aphis citricidus </em>(Kirkaldy, 1907), 36 hours after treatment (100 %). In addition, the treatments of Palizin 2 ml^-1­+ Citrol oil of 5 ml^-1, as well as 2 ml l^-1 Tondexir­+­Bartar soap 1 ml l^-1 and concentrations of 5 ml l^-1 and 6 ml^-1 of Dayabon produced the same amount of the mortality of the citrus black aphid, <em>Toxoptera aurantii </em>(Boyer de Fonscolombe, 1841). Tondexir 3 ml l^-1­+­Bartar soap 1 ml l^-1 in 24 hours after treatment caused the highest rate of the mortality of the cotton aphids, <em>Aphis gossypii </em>Glover, 1877 (83.88 %). Malathion treatment caused a 100 % mortality of the predator ladybird 36 hours after treatment, while the lowest amount was observed in the Dayabon at 10 ml l^-1 with 33.34 % mortality.</p>

Sublethal Effects of Four Insecticides on the Seven-Spotted Lady Beetle (Coleoptera: Coccinellidae)

To further develop integrated pest management (IPM) strategies against two sucking insect pests, Aleurocanthus spiniferus (Quaintanca) (Hemiptera: Aleyrodidae) and Toxoptera aurantii Boyer (Hemiptera: Aphididae), in Chinese tea plantations, it is important to evaluate the effects of insecticides on biological control agents, such as the seven-spot lady beetle, Coccinella septempunctata L. (Coleoptera: Coccinellidae). Therefore, we tested the toxicity and sublethal effects of spirotetramat, clothianidin, lambda-cyhalothrin, and bifenthrin on C. septempunctata. The side effects of the active ingredients of the insecticides were evaluated with residual contact tests on the larvae of C. septempunctata in the laboratory. Spirotetramat and clothianidin exhibited lower lethality to C. septempunctata as shown by the higher LC50 values and had higher selectivity for A. spiniferus and T. aurantii based on the selective toxicity ratios being superior to other tested insecticides. Spirotetramat also did not affect survival, longevity, fecundity, and egg hatching of C. septempunctata. Clothianidin and bifenthrin prolonged the duration of larval development stages of C. septempunctata obviously. Clothianidin at >2.5 mg/liter, lambda-cyhalothrin at >0.03 mg/liter, and bifenthrin at >0.125 mg/liter significantly reduced the survival and pupation rates of C. septempunctata larvae. Furthermore, spirotetramat at 3.125 mg/liter was harmless (IOBC class 1) to larvae of this coccinellid species. Based on the results, spirotetramat was innocuous to C. septempunctata larvae compared with clothianidin, lambda-cyhalothrin, and bifenthrin. Therefore, spirotetramat might be incorporated into IPM programs in combination with C. septempunctata for control of A. spiniferus and T. aurantii in the tea plantations.

Phytophagous insects in tamarind crop (Tamarindus indica L.), with emphasis on the greatest damage to the fruit, in five farms from the nearby Western of Antioquia

El tamarindo es un fruto importante para los pequeños productores del occidente cercano antioqueño, en cuanto a que se ofrece en diversas presentaciones a los turistas que visitan esta región. Sin embargo, algunos problemas de calidad, relacionados con la presencia de insectos en este fruto generan dificultades para su comercialización. El objetivo de este trabajo fue determinar los insectos fitófagos de los árboles de tamarindo, con énfasis en los que causan mayor daño al fruto. En cinco fincas de Santa Fe de Antioquia y Sopetrán, se recolectaron los insectos asociados a cada órgano, de seis árboles por finca, se describió su daño y se identificaron hasta el nivel más detallado posible. Tres insectos causantes del mayor daño en el fruto tuvieron prioridad, determinándose su porcentaje de infestación (PI). Para ello, se diseñó una escala de daño y se evaluaron 30 frutos por árbol. Se encontraron once insectos fitófagos asociados al tamarindo, de los cuales cinco registros son nuevos para el tamarindo en Colombia: H. obscurus, Toxoptera aurantii, Trigona sp., Ectomyelois ceratoniae y Acromyrmex octospinosus. Cinco insectos atacan al fruto: Caryedon serratus, dos polillas Phycitinae, Sitophilus linearis e Hypothenemus obscurus. El PI promedio para C. serratus, las dos polillas Phycitinae y S. linearis fue de 19,5%, 8% y 2,5%, respectivamente. Los tres primeros afectan la pulpa y S. linearis ataca a la semilla. El daño más frecuente (43% - 52%) fue de grado 1 y los grados 4 y 5 se presentaron en menores porcentajes (0% - 4%).

APHIDIDAE (INSECTA : HOMOPTERA) PROCEDENTES DE CANTA (LIMA - PERU)

Se han identificado las siguientes especies: Acyrthosiphon bidenticola, A. kondoi. Aphis craccivora, A. fabae, A gossypii, Hyalopterus pruni, Hyperomyzus lactucae, Macrosiphum euphorbiae, M. rosae, Myzus persicae, Rhopalosiphunt maidis, R. padi, Sipha flava, Toxoptera aurantii, T. citricidus y Uroleucon erigeronensis. Todas las especies se citan por primera vez para la localidad de Canta.

AFIDOS (HOMOPTERA:APHIDAE) DEL VALLE DE CAÑETE (LIMA - PERU)

Se han identificado las siguientes especies procedentes del valle de cañete : Aphis citicola, A.craccivora, A. fabae, A.gossypii, Brevicoryne,brassicae, Lypaphis erysimi Macrosiphum euphorbiae, M. rosae, Myzus persicae, Riopalosiphum maidis, R. padi, toxoptera aurantii, T. citricidus y tuberolachnus salignus Todos los áfidos identificados representan especies de importancia económica, excepto el último.

Potencial de Aclepias curassavica L. (Apocynaceae) en el control biológico de plagas

Para conocer el potencial de Asclepias curassavica L. en el manejo de plagas, del 01 de enero al 28 de diciembre de 2012, se estableció un estudio en una plantación de limón “persa” Citrus latifolia en Emiliano Zapata, Villamar, Michoacán, México. Una sección (tratamiento) incluyó la planta A. curassavica y la otra se mantuvo sin esa especie (testigo). Muestreos semanales documentaron especies y número de depredadores, fitófagos, parasitoides, y niveles de parasitismo en áfidos. Toxoptera aurantii, Aphis spiraecola, Diaphorina citri y Phyllocnistis citrella, fueron las principales plagas. Sus mayores poblaciones ocurrieron en el segundo semestre del año y coincidieron con los principales periodos de brotación del cultivo. Los principales enemigos naturales observados en A. curassavica fueron las familias Coccinellidae, Syrphidae, Chamaemyiidae, Chrysopidae y el parasitoide Lysiphlebus testaceipes. Los Coccinellidos predominaron durante el primer semestre del año, mientras que los otros grupos fueron frecuentes durante todo el año. Los resultados muestran una reducción de 46.3% en las poblaciones de áfidos de los cítricos donde se establecieron Asclepias; sin embargo, las poblaciones de D. citri se incrementaron 77%. Probablemente el mayor biocontrol de áfidos favoreció la disponibilidad de nichos vacíos (brotes vegetativos) y consecuentemente las poblaciones del psílido. La amplia diversidad de enemigos naturales registrados en A. curassavica sugiere un alto potencial de la planta para utilizarse en la regulación y estabilidad de la entomofauna de los agroecosistemas, más que en el control de plagas específicas.