Inheritance and management of cyhexatin and dicofol resistance in the European red mite (Acari: Tetranychidae)

Populations of European red mite, Panonychus ulmi (Koch), selected in the laboratory showed ca. 9-fold resistance to cyhexatin. Initial crosses between cyhexatin-R (resistant) and -S (susceptible) mites produced a strain showing ca. 3-fold resistance in the F1 generation. Tests with backcrosses indi...

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Veröffentlicht in:	Journal of economic entomology 1987-12, Vol.80 (6), p.1106-1112
1. Verfasser:	Pree, D.J
Format:	Artikel
Sprache:	eng
Schlagworte:	ACARICIDAS ACARICIDE ACARICIDES ARBOLES FRUTALES ARBRE FRUITIER Biological and medical sciences CHEMICAL RESISTANCE Control CONTROL DE ACAROS FECONDITE FECUNDIDAD FRUIT TREES Fundamental and applied biological sciences. Psychology Generalities HEREDITE HERENCIA (GENETICA) INSECTICIDAS INSECTICIDE LONGEVIDAD LONGEVITE LUTTE ANTI-ACARIEN MITE CONTROL MORTALIDAD MORTALITE PANONYCHUS ULMI Phytopathology. Animal pests. Plant and forest protection PROPORCION DE LOS SEXOS PROPORTION MALES FEMELLES Protozoa. Invertebrates RESISTANCE AUX PRODUITS CHIMIQUES RESISTENCIA QUIMICA Tetranychidae
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description	Populations of European red mite, Panonychus ulmi (Koch), selected in the laboratory showed ca. 9-fold resistance to cyhexatin. Initial crosses between cyhexatin-R (resistant) and -S (susceptible) mites produced a strain showing ca. 3-fold resistance in the F1 generation. Tests with backcrosses indicated that cyhexatin resistance was complex; i.e., due to more than one gene. Measurements of fecundity, life span, sex ratio, and rate of development of cyhexatin-resistant and -susceptible strains did not show any large reproductive disadvantage associated with cyhexatin resistance. In simulated population cage tests beginning with F1 mites, cyhexatin resistance was lost after four to six generations, thus providing further evidence that resistance was due to the interaction of multiple genes. Dicofol resistance in another population was ca. 15-fold. Initial test crosses between resistant and susceptible populations produced a strain similar in response to the susceptible strain. Results of backcrosses indicated that resistant was probably due to a single recessive gene. Fitness tests similar to those with cyhexatin-resistant populations indicated that dicofol-resistant populations were not very different from the susceptible strain. Population cage tests with an initial population of F1 (R X S) mites showed no reversion of dicofol resistance over eight generations, suggesting that dicofol resistance was stable within a population for long periods. Crosses between cyhexatin- and dicofol-resistant strains, followed by selection with mixtures of both acaricides, produced strains showing resistance to both acaricides. Long term rotations of acaricides are suggested as a way to manage cyhexatin and dicofol resistance
doi_str_mv	10.1093/jee/80.6.1106
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Initial crosses between cyhexatin-R (resistant) and -S (susceptible) mites produced a strain showing ca. 3-fold resistance in the F1 generation. Tests with backcrosses indicated that cyhexatin resistance was complex; i.e., due to more than one gene. Measurements of fecundity, life span, sex ratio, and rate of development of cyhexatin-resistant and -susceptible strains did not show any large reproductive disadvantage associated with cyhexatin resistance. In simulated population cage tests beginning with F1 mites, cyhexatin resistance was lost after four to six generations, thus providing further evidence that resistance was due to the interaction of multiple genes. Dicofol resistance in another population was ca. 15-fold. Initial test crosses between resistant and susceptible populations produced a strain similar in response to the susceptible strain. Results of backcrosses indicated that resistant was probably due to a single recessive gene. Fitness tests similar to those with cyhexatin-resistant populations indicated that dicofol-resistant populations were not very different from the susceptible strain. Population cage tests with an initial population of F1 (R X S) mites showed no reversion of dicofol resistance over eight generations, suggesting that dicofol resistance was stable within a population for long periods. Crosses between cyhexatin- and dicofol-resistant strains, followed by selection with mixtures of both acaricides, produced strains showing resistance to both acaricides. Long term rotations of acaricides are suggested as a way to manage cyhexatin and dicofol resistance</description><identifier>ISSN: 0022-0493</identifier><identifier>EISSN: 1938-291X</identifier><identifier>DOI: 10.1093/jee/80.6.1106</identifier><identifier>CODEN: JEENAI</identifier><language>eng</language><publisher>Lanham, MD: Entomological Society of America</publisher><subject>ACARICIDAS ; ACARICIDE ; ACARICIDES ; ARBOLES FRUTALES ; ARBRE FRUITIER ; Biological and medical sciences ; CHEMICAL RESISTANCE ; Control ; CONTROL DE ACAROS ; FECONDITE ; FECUNDIDAD ; FRUIT TREES ; Fundamental and applied biological sciences. Psychology ; Generalities ; HEREDITE ; HERENCIA (GENETICA) ; INSECTICIDAS ; INSECTICIDE ; LONGEVIDAD ; LONGEVITE ; LUTTE ANTI-ACARIEN ; MITE CONTROL ; MORTALIDAD ; MORTALITE ; PANONYCHUS ULMI ; Phytopathology. Animal pests. Plant and forest protection ; PROPORCION DE LOS SEXOS ; PROPORTION MALES FEMELLES ; Protozoa. 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Initial crosses between cyhexatin-R (resistant) and -S (susceptible) mites produced a strain showing ca. 3-fold resistance in the F1 generation. Tests with backcrosses indicated that cyhexatin resistance was complex; i.e., due to more than one gene. Measurements of fecundity, life span, sex ratio, and rate of development of cyhexatin-resistant and -susceptible strains did not show any large reproductive disadvantage associated with cyhexatin resistance. In simulated population cage tests beginning with F1 mites, cyhexatin resistance was lost after four to six generations, thus providing further evidence that resistance was due to the interaction of multiple genes. Dicofol resistance in another population was ca. 15-fold. Initial test crosses between resistant and susceptible populations produced a strain similar in response to the susceptible strain. Results of backcrosses indicated that resistant was probably due to a single recessive gene. Fitness tests similar to those with cyhexatin-resistant populations indicated that dicofol-resistant populations were not very different from the susceptible strain. Population cage tests with an initial population of F1 (R X S) mites showed no reversion of dicofol resistance over eight generations, suggesting that dicofol resistance was stable within a population for long periods. Crosses between cyhexatin- and dicofol-resistant strains, followed by selection with mixtures of both acaricides, produced strains showing resistance to both acaricides. Long term rotations of acaricides are suggested as a way to manage cyhexatin and dicofol resistance</description><subject>ACARICIDAS</subject><subject>ACARICIDE</subject><subject>ACARICIDES</subject><subject>ARBOLES FRUTALES</subject><subject>ARBRE FRUITIER</subject><subject>Biological and medical sciences</subject><subject>CHEMICAL RESISTANCE</subject><subject>Control</subject><subject>CONTROL DE ACAROS</subject><subject>FECONDITE</subject><subject>FECUNDIDAD</subject><subject>FRUIT TREES</subject><subject>Fundamental and applied biological sciences. Psychology</subject><subject>Generalities</subject><subject>HEREDITE</subject><subject>HERENCIA (GENETICA)</subject><subject>INSECTICIDAS</subject><subject>INSECTICIDE</subject><subject>LONGEVIDAD</subject><subject>LONGEVITE</subject><subject>LUTTE ANTI-ACARIEN</subject><subject>MITE CONTROL</subject><subject>MORTALIDAD</subject><subject>MORTALITE</subject><subject>PANONYCHUS ULMI</subject><subject>Phytopathology. Animal pests. Plant and forest protection</subject><subject>PROPORCION DE LOS SEXOS</subject><subject>PROPORTION MALES FEMELLES</subject><subject>Protozoa. Invertebrates</subject><subject>RESISTANCE AUX PRODUITS CHIMIQUES</subject><subject>RESISTENCIA QUIMICA</subject><subject>Tetranychidae</subject><issn>0022-0493</issn><issn>1938-291X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1987</creationdate><recordtype>article</recordtype><recordid>eNptkD1rHDEQhkWIIRc7ZZqQYosQkmLPI620ktwZ4y8wuIgN6cRYO_LJ7Gkv0h7k_n10OZMq1RTPMy8zL2MfOSw52O70hejUwLJfcg79G7bgtjOtsPznW7YAEKIFabt37H0pLwC8FxwWLN2mFeU4Y_LUYBqaNSZ8pjWluZlC43cr-o1zTH_ZEP0UprHJVGI5rFQyr6i53OZpQ5gqqhFxpubbucccz5oHmjOmnV_FAen7CTsKOBb68DqP2ePV5cPFTXt3f317cX7XetHruQ1WdwbAKrIUglUapLJcgZdmMDrU_6who0gJEZ6UlkGGXspOdlZ7wOGpO2ZfD7mbPP3aUpndOhZP44iJpm1xXBppemOq2B5En6dSMgW3yXGNeec4uH2rrrbqDLje7Vut_pfXYCwex1B_87H8W9JKKW322qeDFnBy-Jyr8vjDWFDQ2Qo__wcaIa3Q9aQ_sH6IMg</recordid><startdate>19871201</startdate><enddate>19871201</enddate><creator>Pree, D.J</creator><general>Entomological Society of America</general><scope>FBQ</scope><scope>IQODW</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7SS</scope></search><sort><creationdate>19871201</creationdate><title>Inheritance and management of cyhexatin and dicofol resistance in the European red mite (Acari: Tetranychidae)</title><author>Pree, D.J</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c267t-f97380095e9eff9570459150c48d87f11098e85e522fb574f4f64434397c0adb3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1987</creationdate><topic>ACARICIDAS</topic><topic>ACARICIDE</topic><topic>ACARICIDES</topic><topic>ARBOLES FRUTALES</topic><topic>ARBRE FRUITIER</topic><topic>Biological and medical sciences</topic><topic>CHEMICAL RESISTANCE</topic><topic>Control</topic><topic>CONTROL DE ACAROS</topic><topic>FECONDITE</topic><topic>FECUNDIDAD</topic><topic>FRUIT TREES</topic><topic>Fundamental and applied biological sciences. Psychology</topic><topic>Generalities</topic><topic>HEREDITE</topic><topic>HERENCIA (GENETICA)</topic><topic>INSECTICIDAS</topic><topic>INSECTICIDE</topic><topic>LONGEVIDAD</topic><topic>LONGEVITE</topic><topic>LUTTE ANTI-ACARIEN</topic><topic>MITE CONTROL</topic><topic>MORTALIDAD</topic><topic>MORTALITE</topic><topic>PANONYCHUS ULMI</topic><topic>Phytopathology. Animal pests. Plant and forest protection</topic><topic>PROPORCION DE LOS SEXOS</topic><topic>PROPORTION MALES FEMELLES</topic><topic>Protozoa. Invertebrates</topic><topic>RESISTANCE AUX PRODUITS CHIMIQUES</topic><topic>RESISTENCIA QUIMICA</topic><topic>Tetranychidae</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Pree, D.J</creatorcontrib><collection>AGRIS</collection><collection>Pascal-Francis</collection><collection>CrossRef</collection><collection>Entomology Abstracts (Full archive)</collection><jtitle>Journal of economic entomology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Pree, D.J</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Inheritance and management of cyhexatin and dicofol resistance in the European red mite (Acari: Tetranychidae)</atitle><jtitle>Journal of economic entomology</jtitle><date>1987-12-01</date><risdate>1987</risdate><volume>80</volume><issue>6</issue><spage>1106</spage><epage>1112</epage><pages>1106-1112</pages><issn>0022-0493</issn><eissn>1938-291X</eissn><coden>JEENAI</coden><abstract>Populations of European red mite, Panonychus ulmi (Koch), selected in the laboratory showed ca. 9-fold resistance to cyhexatin. Initial crosses between cyhexatin-R (resistant) and -S (susceptible) mites produced a strain showing ca. 3-fold resistance in the F1 generation. Tests with backcrosses indicated that cyhexatin resistance was complex; i.e., due to more than one gene. Measurements of fecundity, life span, sex ratio, and rate of development of cyhexatin-resistant and -susceptible strains did not show any large reproductive disadvantage associated with cyhexatin resistance. In simulated population cage tests beginning with F1 mites, cyhexatin resistance was lost after four to six generations, thus providing further evidence that resistance was due to the interaction of multiple genes. Dicofol resistance in another population was ca. 15-fold. Initial test crosses between resistant and susceptible populations produced a strain similar in response to the susceptible strain. Results of backcrosses indicated that resistant was probably due to a single recessive gene. Fitness tests similar to those with cyhexatin-resistant populations indicated that dicofol-resistant populations were not very different from the susceptible strain. Population cage tests with an initial population of F1 (R X S) mites showed no reversion of dicofol resistance over eight generations, suggesting that dicofol resistance was stable within a population for long periods. Crosses between cyhexatin- and dicofol-resistant strains, followed by selection with mixtures of both acaricides, produced strains showing resistance to both acaricides. Long term rotations of acaricides are suggested as a way to manage cyhexatin and dicofol resistance</abstract><cop>Lanham, MD</cop><pub>Entomological Society of America</pub><doi>10.1093/jee/80.6.1106</doi><tpages>7</tpages></addata></record>
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subjects	ACARICIDAS ACARICIDE ACARICIDES ARBOLES FRUTALES ARBRE FRUITIER Biological and medical sciences CHEMICAL RESISTANCE Control CONTROL DE ACAROS FECONDITE FECUNDIDAD FRUIT TREES Fundamental and applied biological sciences. Psychology Generalities HEREDITE HERENCIA (GENETICA) INSECTICIDAS INSECTICIDE LONGEVIDAD LONGEVITE LUTTE ANTI-ACARIEN MITE CONTROL MORTALIDAD MORTALITE PANONYCHUS ULMI Phytopathology. Animal pests. Plant and forest protection PROPORCION DE LOS SEXOS PROPORTION MALES FEMELLES Protozoa. Invertebrates RESISTANCE AUX PRODUITS CHIMIQUES RESISTENCIA QUIMICA Tetranychidae
title	Inheritance and management of cyhexatin and dicofol resistance in the European red mite (Acari: Tetranychidae)
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