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The mean of the trait will increase in the next generation as a function of how much the mean of the selected parents differs from the mean of the population from which the selected parents were chosen. The observed response to selection leads to an estimate of the narrow-sense heritability (called realized heritability).
Broad-sense heritability, H 2 = V G /V P, Involves the proportion of phenotypic variation due to the effects of additive, dominance, and epistatic variance. Narrow-sense heritability, h 2 = V A /V P, refers to the proportion of phenotypic variation that is due to additive genetic values (V A). [6]
GCTA estimates are likewise sometimes misinterpreted as "lower bounds" on the narrow-sense heritability but this is also incorrect: first because GCTA estimates can be biased (including biased upwards) if the model assumptions are violated, and second because, by definition (and when model assumptions are met), GCTA can provide an unbiased ...
Narrow sense Heritability (h 2 or H N) focuses specifically on the ratio of additive variance (V A) to total phenotypic variance (V P), or: h 2 = V A / V P.. In the study of Heritability, Additive genetic effects are of particular interest in the fields of Conservation, and Artificial selection.
Heritability is the proportion of variance caused by genetic factors of a specific trait in a population. [1] Falconer's formula is a mathematical formula that is used in twin studies to estimate the relative contribution of genetic vs. environmental factors to variation in a particular trait (that is, the heritability of the trait) based on ...
Experimental approaches to probe the causes of selection are of two general types, quantitative genetic and functional. The former asks general questions about the genetic architecture of the trait when a limit has been attained (e.g., has narrow-sense heritability gone to zero?), whereas the latter attempts to determine what aspect of physiological or other function might have reached a limit ...
Narrow-sense heritability has been used also for predicting generally the results of artificial selection. In the latter case, however, the broadsense heritability may be more appropriate, as the whole attribute is being altered: not just adaptive capacity. Generally, advance from selection is more rapid the higher the heritability.
1.1 IQ and narrow-sense heritability question. 24 comments. 1.2 Why don't we develop two visions if we have two eyes? 9 comments. Toggle the table of contents.