The arbuscular mycorrhizal (AM) fungi are a globally distributed group of soil organisms that play critical roles in ecosystem function. However, the ecological niches of individual AM fungal taxa are poorly understood.
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Phenotypic plasticity can mask population genetic differentiation,
reducing the predictability of trait-environment relationships. In
short-lived plants, reproductive traits may be more genetically
determined due to their direct impact on fitness, whereas vegetative
traits may show higher plasticity to buffer short-term perturbations.
Combining a multi-treatment greenhouse experiment with global field
observations for the short-lived Plantago lanceolata, we 1) disentangled
the genetic and plastic responses of functional traits to a set of
environmental drivers and 2) assessed the utility of trait-environment
relationshisps inferred from observational data for predicting genetic
differentiation. Reproductive traits showed distinct genetic
differentiation that was highly predictable from observational data, but
only when correcting traits for differences in their (labile) biomass
component. Vegetative traits showed higher plasticity and contrasting
genetic and plastic responses, leading to unpredictable trait patterns.
Our study suggests that genetic differentiation may be inferred from
observational data only for the traits most closely related with
fitness.
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