Inbreeding (mating between relatives) can dramatically reduce the fitness of offspring by causing parts of the genome to be identical by descent. Thus, measuring individual inbreeding is crucial for ecology, evolution and conservation biology. We used computer simulations to test whether the realized proportion of the genome that is identical by descent (IBDG) is predicted better by the pedigree inbreeding coefficient (FP) or by genomic (marker-based) measures of inbreeding. Genomic estimators of IBDG included the increase in individual homozygosity relative to mean Hardy–Weinberg expected homozygosity (FH), and two measures (FROH and FE) that use mapped genetic markers to estimate IBDG. IBDG was more strongly correlated with FH, FE and FRO...
Abstract Background In the past, pedigree relationships were used to control and monitor inbreeding ...
Understanding the effects of inbreeding and genetic drift within populations and hybridization betwe...
Although the pedigree-based inbreeding coefficient F predicts the expected proportion of an individu...
Inbreeding (mating between relatives) can dramatically reduce the fitness of offspring by causing pa...
Genomic measures of inbreeding based on identical-by-descent (IBD) segments are increasingly used to...
The proportion of an individual's genome that is identical-by-descent (GWIBD) can be estimated from ...
Most molecular measures of inbreeding do not measure inbreeding at the scale that is most relevant f...
Estimates of inbreeding and relatedness are commonly calculated using molecular markers, although th...
The availability of highly polymorphic genetic markers, in particular microsatellites, has made it p...
Although the pedigree-based inbreeding coefficient F predicts the expected proportion of an individu...
Inbreeding depression, which refers to reduced fitness among offspring of related parents, has tradi...
Most molecular measures of inbreeding do not measure inbreeding at the scale that is most relevant f...
peer reviewedInbreeding results from the mating of related individuals and may be associated with re...
Inbreeding depression (reduced fitness of individuals with related parents) has long been a major fo...
Abstract Background In the past, pedigree relationships were used to control and monitor inbreeding ...
Understanding the effects of inbreeding and genetic drift within populations and hybridization betwe...
Although the pedigree-based inbreeding coefficient F predicts the expected proportion of an individu...
Inbreeding (mating between relatives) can dramatically reduce the fitness of offspring by causing pa...
Genomic measures of inbreeding based on identical-by-descent (IBD) segments are increasingly used to...
The proportion of an individual's genome that is identical-by-descent (GWIBD) can be estimated from ...
Most molecular measures of inbreeding do not measure inbreeding at the scale that is most relevant f...
Estimates of inbreeding and relatedness are commonly calculated using molecular markers, although th...
The availability of highly polymorphic genetic markers, in particular microsatellites, has made it p...
Although the pedigree-based inbreeding coefficient F predicts the expected proportion of an individu...
Inbreeding depression, which refers to reduced fitness among offspring of related parents, has tradi...
Most molecular measures of inbreeding do not measure inbreeding at the scale that is most relevant f...
peer reviewedInbreeding results from the mating of related individuals and may be associated with re...
Inbreeding depression (reduced fitness of individuals with related parents) has long been a major fo...
Abstract Background In the past, pedigree relationships were used to control and monitor inbreeding ...
Understanding the effects of inbreeding and genetic drift within populations and hybridization betwe...
Although the pedigree-based inbreeding coefficient F predicts the expected proportion of an individu...