International Journal of Plant Protection

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Correlation Studies on Incidence of Eriophyid Mite Population A. guerreronis with Weather Parameters


Affiliations
1 Department of Entomology, Annamalai University, Chidambaram (T.N.), India
     

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A study was conducted at Department of Entomology, Annamalai University, Chidambaram, Tamil Nadu during 2000-2002. The meteorological parameters such as maximum, minimum temperatures, relative humidity, rainfall, wind velocity, hours of sunshine were correlated with mite population and correlation coefficients obtained were revealed that maximum, minimum temperature and wind velocity were positively correlated. Relative humidity, rainfall and sunshine were negatively correlated. The increase in these parameters decreased the mite population. By using the regression equations mean mite population /8mm2 can be predicted for a given set of meteorological parameters. A unit increase in maximum temperature keeping other parameters constant resulted in increase in population of 1.31/8mm2 area. In contrast, a unit increase in rainfall resulted in decrease in mite population of 0.83/8mm2.

Keywords

Coconut, Eriophyid Mite, A.guerreronis, Correlation.
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  • Correlation Studies on Incidence of Eriophyid Mite Population A. guerreronis with Weather Parameters

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Authors

K. Balaji
Department of Entomology, Annamalai University, Chidambaram (T.N.), India
Y. Hariprasad
Department of Entomology, Annamalai University, Chidambaram (T.N.), India

Abstract


A study was conducted at Department of Entomology, Annamalai University, Chidambaram, Tamil Nadu during 2000-2002. The meteorological parameters such as maximum, minimum temperatures, relative humidity, rainfall, wind velocity, hours of sunshine were correlated with mite population and correlation coefficients obtained were revealed that maximum, minimum temperature and wind velocity were positively correlated. Relative humidity, rainfall and sunshine were negatively correlated. The increase in these parameters decreased the mite population. By using the regression equations mean mite population /8mm2 can be predicted for a given set of meteorological parameters. A unit increase in maximum temperature keeping other parameters constant resulted in increase in population of 1.31/8mm2 area. In contrast, a unit increase in rainfall resulted in decrease in mite population of 0.83/8mm2.

Keywords


Coconut, Eriophyid Mite, A.guerreronis, Correlation.