Genetic offset models have become a popular component of the landscape
genetics toolbox, with over 150 peer-reviewed publications applying
these models to plant and animal systems. Genetic offset models are most
frequently performed following the identification of putatively adaptive
alleles from genotype-environment association analyses in natural
populations of non-model organisms. These models allow the researcher to
make predictions about the likely vulnerability of species populations
to climate change, by estimating the extent of genetic change needed
(i.e., genetic offset) to maintain ‘optimal’ allele frequencies and
population fitness under future climate change scenarios. However, a
number of critical assumptions and knowledge gaps are often overlooked
when undertaking these analyses, undermining their reliability and
usefulness for making genetically informed management decisions. In this
commentary, we describe seven assumptions in detail and discuss a range
of common violations that can lead to misleading outcomes. While genetic
offset models may have a place for predicting the vulnerability of
natural populations of non-model organisms in the future, we argue that
current applications are likely to be problematic and risk both wasting
resources and misleading conservation management.