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Ecological size‐frequency distributions: how to prevent and correct biases in spatial sampling
Author(s) -
Zvuloni Assaf,
ArtzyRandrup Yael,
Stone Lewi,
van Woesik Robert,
Loya Yossi
Publication year - 2008
Publication title -
limnology and oceanography: methods
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.898
H-Index - 72
ISSN - 1541-5856
DOI - 10.4319/lom.2008.6.144
Subject(s) - quadrat , coral reef , sampling (signal processing) , ecology , coral , reef , transect , environmental science , statistics , computer science , mathematics , biology , filter (signal processing) , computer vision
Size‐frequency distributions (SFDs) have been used to assess the ecological status of different populations in a variety of ecosystems and recently have become widely used to examine reef corals. SFDs may reflect the response of time‐varying influences of the environment, including the intensity and frequency of disturbances and the degree of environmental degradation. Here we elucidate the biases that can arise in the application of popular and traditional sampling methods (e.g. quadrat, belt‐transect, and line‐intercept). We show that these biases on the estimated SFD arise due to boundary effects of the sampling units. Incorrect evaluations of SFDs may lead to biased estimations of the ecological status of coral populations and may result in, among other things, erroneous nature reserve management policies. Our analysis is based on analytical calculations, simulations, and field observations. We have developed simple mathematical corrections, which provide unbiased estimations for previously collected data acquired by these widely used methods. In addition, we offer alternative sampling methods that do not suffer from these shortcomings. Eliminating these types of sampling errors will not only provide better assessments of the status of a given coral reef, but will also make way for more precise comparisons among coral reefs in different regions. Although we discuss the biases of SFDs in regard to reef coral populations, the work is equally relevant in other ecological contexts.

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