Abstract
Traditionally population genetics precludes the use of the same genetic individual more than once in Hardy-Weinberg (HW) based calculations due to the model's explicit assumptions. However, when applied to clonal plant populations this can be difficult to do, and in some circumstances, it may be ecologically informative to use the ramet as the data unit. In fact, ecologists have varied the definition of the individual from a strict adherence to a single data point per genotype to a more inclusive approach of one data point per ramet. With the advent of molecular tools, the list of facultatively clonal plants and the recognition of their ecological relevance grows. There is an important risk of misinterpretation when HW calculations are applied to a clonal plant not recognized as clonal, as well as when the definition of the individual for those calculations is not clearly stated in a known clonal species. Focusing on heterozygosity values, we investigate cases that demonstrate the extreme range of potential modeling outcomes and describe the different contexts where a particular definition could better meet ecological modeling goals. We emphasize that the HW model can be ecologically relevant when applied to clonal plants, but caution is necessary in how it is used, reported, and interpreted. We propose that in known clonal plants, both genotype (GHet) and ramet (RHet) based calculations are reported to define the full range of potential values and better facilitate cross-study comparisons.
Highlights
One of the most commonly used mathematical models in population genetics is the Hardy–Weinberg Equilibrium (HWE)
While many parameters are derived from the HWE model, for the purposes of this discussion we will focus on measures of heterozygosity, one of the most
A ramet definition in a clonal population will result in a greater number of individuals being included in heterozygosity estimates, but clonal redundancy will result in greater allele and genotype representation of the largest clones relative to the smaller clones
Summary
One of the most commonly used mathematical models in population genetics is the Hardy–Weinberg Equilibrium (HWE). Life spans of clonal plants are as extreme as possible. This makes the concept of generations problematic. In the most extreme cases, clonality can result in a genotype-based population of 1. The model might be applied to a plant species where the extent of clonality is not recognized. In both situations, it is important to acknowledge the potential variation in results that could stem from varying levels of clonality and the way the HW model is applied
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