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Evolution of the <i>G</i> Matrix under Nonlinear Genotype-Phenotype Maps

Lisandro Milocco, Isaac Salazar‐Ciudad

2021The American Naturalist35 citationsDOIOpen Access PDF

Abstract

The G matrix is a statistical summary of the genetic basis of a set of traits and a central pillar of quantitative genetics. A persistent controversy is whether G changes slowly or quickly over time. The evolution of G is important because it affects the ability to predict, or reconstruct, evolution by selection. Empirical studies have found mixed results on how fast G evolves. Theoretical work has largely been developed under the assumption that the relationship between genetic variation and phenotypic variation—the genotype-phenotype map (GPM)—is linear. Under this assumption, G is expected to remain constant over long periods of time. However, according to developmental biology, the GPM is typically complex and nonlinear. Here, we use a GPM model based on the development of a multicellular organ to study how G evolves. We find that G can change relatively fast and in qualitative different ways, which we describe in detail. Changes can be particularly large when the population crosses between regions of the GPM that have different properties. This can result in the additive genetic variance in the direction of selection fluctuating over time and even increasing despite the eroding effect of selection.

Topics & Concepts

Selection (genetic algorithm)Evolutionary biologyBiologyQuantitative geneticsPillarPhenotypePopulationGenetic variationVariation (astronomy)Stabilizing selectionGenotypeGeneticsComputer scienceGeneDemographyPhysicsAstrophysicsArtificial intelligenceStructural engineeringEngineeringSociologyGenetic Mapping and Diversity in Plants and AnimalsGenetic and phenotypic traits in livestockMorphological variations and asymmetry