Correlated genetic effects on reproduction define a domestication syndrome in a forest tree.

Luis Santos‐Del‐Blanco,Francisco Lario,Luis Sampedro,Ricardo Alía,José Climent,Santiago C González‐Martínez

doi:10.1111/eva.12252

Luis Santos‐Del‐Blanco, Francisco Lario + Show 4 more

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https://doi.org/10.1111/eva.12252

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Abstract

Compared to natural selection, domestication implies a dramatic change in traits linked to fitness. A number of traits conferring fitness in the wild might be detrimental under domestication, and domesticated species typically differ from their ancestors in a set of traits known as the domestication syndrome. Specifically, trade-offs between growth and reproduction are well established across the tree of life. According to allocation theory, selection for growth rate is expected to indirectly alter life-history reproductive traits, diverting resources from reproduction to growth. Here we tested this hypothesis by examining the genetic change and correlated responses of reproductive traits as a result of selection for timber yield in the tree Pinus pinaster. Phenotypic selection was carried out in a natural population, and progenies from selected trees were compared with those of control trees in a common garden experiment. According to expectations, we detected a genetic change in important life-history traits due to selection. Specifically, threshold sizes for reproduction were much higher and reproductive investment relative to size significantly lower in the selected progenies just after a single artificial selection event. Our study helps to define the domestication syndrome in exploited forest trees and shows that changes affecting developmental pathways are relevant in domestication processes of long-lived plants.

Highlights

Ever since Darwin, biologists have realized the opportunities brought about by domestication for the study of organic changes in all kind of organisms (Darwin 1868)
For threshold size for first reproduction (TSFR) and Reproductive versus Vegetative size (R-V) models, we evaluated the significance of separate additive and multiplicative selection effects
We found that phenotypic selection pursuing an ideotype of tall, thick straight trees with short horizontal

Summary

Introduction

Ever since Darwin, biologists have realized the opportunities brought about by domestication for the study of organic changes in all kind of organisms (Darwin 1868). Individuals are diverted from natural selection processes into artificial selection conditions imposed by humans. Such conditions typically imply dramatic changes in the relationship between phenotypes and fitness (Meyer et al 2012). Darwin coined the term ‘unconscious selection’, meaning the lack of intention of the breeder to modify the species. The meaning of the term refers to correlated responses to selection on nontarget traits (Zohary 2004). Selected breeds do differ from their ancestors in only one target trait, but differences affect many correlated traits, all contributing to increase fitness under selection conditions, creating ‘domestication syndromes’ (Harlan 1971)

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