1Biometry and Genetics Unit, Faculty of Agriculture, University of Yuzuncu Yil, 65080, Van, Turkey
2Usak University, USAK, Faculty of Economics and Administrative Sciences, Department of Econometry, 1 Eylul Kampusu, 64000
Biometry and Genetics Unit, Faculty of Agriculture, University of Yuzuncu Yil, 65080, Van, Turkey
*Corresponding author's e-mail: yesilova_a@hotmail.com
Online published on 19 December, 2016.
The aim of this study was to apply for zero-inflated generalized Poisson regression in the modelling of mite counts that include excess values of zero and overdispersion. The results of zigp(hi, <pi, (oi), as mean regression, overdispersion and zero-inflated regression, were determined in three stages. It was obtained that 33.33% (120 observations) of the total numbers of mite taken as a dependent variable to model had zero values. The overdispersion parameter range was detected to be quite high. It was determined that zero-inflated data and overdispersion had an important effect on mite counts (P< 0.01). The effects of region, month, year, varieties, temperature and humidity were found to be statistically significant on mite counts (P< 0.01). The number of eggs found in harmful mites (Aculus schlechtendali) in the Starking variety was relatively higher than in the Golden variety. The results displayed that the differences among regions and varieties regarding the number of eggs found in harmful mites were statistically significant (P<0.01).
Mite counts, Overdispersion, Poisson regression, Zero-inflated data