1. The fine-scale genetic structure of the two-spotted spider mite in a commercial greenhouse.
- Author
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Uesugi, R., Kunimoto, Y., and Osakabe, Mh.
- Subjects
GENETIC research ,MOLECULAR structure ,ANIMAL population density ,INBREEDING ,ANIMAL dispersal ,MICROSATELLITE repeats ,GENETIC markers ,TWO-spotted spider mite ,GREENHOUSES - Abstract
The fine-scale genetic structure of Tetranychus urticae Koch was studied to estimate local gene flow within a rose tree habitat in a commercial greenhouse using seven microsatellite markers. Two beds of rose trees with different population densities were selected and 18 consecutive quadrats of 1.2 m length were sequentially established in each bed. Heterozygote deficiency was positive within quadrats, which was most likely a result of the Wahlund effect because the mites usually form small breeding colonies. Low population density and frequent inbreeding could also accelerate genetic differentiation among the breeding colonies. A short-range (2.4-3.6 m) positive autocorrelation and clear genetic cline among quadrat populations was detected within a bed. This suggests that gene flow was limited to a short range even if population density was substantially increased. Therefore, large-scale dispersal such as aerial dispersal contributed very little to gene flow in the greenhouse. [ABSTRACT FROM AUTHOR]
- Published
- 2009
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