Toxicity of insecticides to predators of rice planthoppers: Spiders, the mirid bug and the dryinid wasp

The toxicity of nine insecticides to predators of rice planthoppers was examined with first instars of four spider species, i.e. Pardosa pseudoannulata, Tetragnatha maxillosa, Ummeliata insecticeps and Gnathonarium exsiccatum, and females of the mirid bug Cyrtorhinus lividipennis and the dryinid was...

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Published inApplied Entomology and Zoology Vol. 35; no. 1; pp. 177 - 187
Main Authors Tanaka, K. (Kyushu National Agricultural Experiment Station, Nishigoshi, Kumamoto (Japan)), Endo, S, Kazano, H
Format Journal Article
LanguageEnglish
Published JAPANESE SOCIETY OF APPLIED ENTOMOLOGY AND ZOOLOGY 2000
Subjects
Araneae
Cyrtorhinus
DEPREDADORES
ENEMIGOS NATURALES
ENNEMI NATUREL
Hymenoptera
INSECTICIDAS
INSECTICIDE
Insecticide susceptibility
INSECTICIDES
NATURAL ENEMIES
natural enemy
NILAPARVATA LUGENS
ORYZA SATIVA
Pardosa pseudoannulata
PREDATEUR
PREDATORS
RESISTANCE AUX PRODUITS CHIMIQUES
RESISTANCE TO CHEMICALS
RESISTENCIA A PRODUCTOS QUIMICOS
selective toxicity
side effect
Tetragnatha
TOXICIDAD
TOXICITE
TOXICITY
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Summary:The toxicity of nine insecticides to predators of rice planthoppers was examined with first instars of four spider species, i.e. Pardosa pseudoannulata, Tetragnatha maxillosa, Ummeliata insecticeps and Gnathonarium exsiccatum, and females of the mirid bug Cyrtorhinus lividipennis and the dryinid wasp Haplogonatopus apicalis, by dipping the test arthropods into insecticide solution. Deltamethrin was the most toxic to the spiders, with LC50 at 0.033 to 1.1 ppm, followed by ethofenprox. The results indicate that the spiders are susceptible to synthetic pyrethroids. Insecticide susceptibilities of the spiders varied among species. T. maxillosa was more susceptible to seven insecticides, particularly to diazinon, than the other spiders, but P. pseudoannulata was more susceptible to phenthoate and carbaryl than T. maxillosa. Many insecticides, particularly phenthoate, imidacloprid and deltamethrin, were toxic to C. lividipennis. All insecticides tested were toxic to H. apicalis. We also evaluated the effect of insecticides on the spiders and C. lividipennis in paddy fields. Deltamethrin had a destructive effect on the spider populations and may have induced a resurgence of the Nilaparvata lugens population. Phenthoate reduced the abundance of lycosid spiders, and ethofenprox reduced the abundance of Tetragnatha. The C. lividipennis abundance decreased to a low level in all insecticide-treated plots except those treated by buprofezin.
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2000006004
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ISSN:0003-6862
1347-605X
DOI:10.1303/aez.2000.177