Sample size determination for the stalk-eyed fly Diopsis longicornis Macquart (Diptera: Diopsidae) damage on rice under natural field conditions

Abstract

Proportions of rice tillers damaged by the stalk-eyed fly (SEF), Diopsis longicornis Macquart, were statistically analysed for nine sampling periods (rice growth stages) to determine the optimal sample size for use in damage assessment in the future. The major variation (>90%) in the proportion of damaged tillers was attributable to differences between hills, with <10% attributable to differences between stations. The effects of stations, although relatively small, were found to be statistically significant in seven of nine sampling periods. Graphs of coefficient of variation (ȳ) against the number of stations (t) and number of sample hills (n) showed that using t = 2 to t = 4 and n = 20 to n = 25 would give a precision of <2.0%. Damage levels remained almost constant during the nine sampling periods, but variability was observed to be greater at the initial and final sampling periods, and smaller in the intermediate sampling periods. The optimal combinations of the number of stations (topt) and sample size (nopt) were obtained for a given ratio of the cost due to station (Cs) to the cost due to hill (CH). © 1993.

Source or Periodical Title

Crop Protection

ISSN

2612194

Page

610-616

Document Type

Article

Subject

rice, stalk-eyed fly, two-stage nested design, variance components

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