8.7.4: Sampling Animals in Populations

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Earlier we learned about a study that considered how well a sampling method used in wildlife studies performed when applied to studying fish species in their natural habitat. Recall that in this study four lakes with no fish in them were stocked with rainbow trout that had three different growth rates (slow, intermediate, and fast). At the end of the season, fish were sampled from the lakes using experimental nets designed to eliminate bias due to the size of the fish. The researcher hypothesized that the fast-growing fish, independent of their size, would be more likely to be captured in nets. This hypothesis was verified by the results of the experiment.

This study shows that even when one is very careful about sampling from a population, selection bias can still be a problem. The culprit is usually a confounding variable that is unknown to the researcher, or a variable that the researcher cannot control. Researchers must always be aware that some confounding variable might affect what individuals or items will end up in their sample. It may be impossible to correct the sampling bias, but knowing what these confounding variables are may be important to interpreting the results of the study. In the example of sampling trout, the researchers using the capture technique then would need to be aware that any conclusions drawn from the data may be affected by the speed at which the fish grow.

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