Add to ORKGThis study compares two genetic management scenarios for species kept in herds, such as deer. The simulations were designed so that their results can be extended to a wide range of zoo populations. In the first scenario, the simulated populations of size 3 × 20, 6 × 40 or 20 × 60 (herds × animals in herd) were managed with a rotational mating (RM) scheme in which 10%, 20% or 50% of males were selected for breeding and moved between herds in a circular fashion. The second scenario was based on optimal contribution theory (OC). OC requires an accurate pedigree to calculate kinship; males were selected and assigned numbers of offspring to minimize kinship in the next generation. RM was efficient in restriction of inbreeding and produced result...
Excessive inbreeding rates and small effective population sizes are an important problem in many pop...
The objective of the paper was to investigate annual genetic gain from selection (G), and the influ...
A method was derived that maximizes the genetic level of selected animals while constraining their a...
This study compares two genetic management scenarios for species kept in herds, such as deer. The si...
Genetic management based on kinships can be difficult to apply for animals living in groups without ...
Within breeds and other captive populations, the risk of high inbreeding rates and loss of diversity...
The effect of non-random mating on genetic response was compared for populations with discrete gener...
Captive breeding programs aim to maintain populations that are demographically self-sustaining and g...
Minimization of rate of inbreeding for populations with overlapping generations combining live and f...
This article presents a deterministic method to predict rates of inbreeding (ΔF) for typical livesto...
Minimum coancestry mating with a maximum of one offspring per mating pair (MC1) is compared with ran...
Here we present the strategy that achieves the lowest possible rate of inbreeding (DeltaF) for a pop...
Breeding circles allow genetic management in closed populations without pedigrees. In a breeding cir...
The objective of this research was to simulate the genetic gains expected comparing random mating st...
Local breeds are rarely subject to modern selection techniques; however, selection programs will be ...
Excessive inbreeding rates and small effective population sizes are an important problem in many pop...
The objective of the paper was to investigate annual genetic gain from selection (G), and the influ...
A method was derived that maximizes the genetic level of selected animals while constraining their a...
This study compares two genetic management scenarios for species kept in herds, such as deer. The si...
Genetic management based on kinships can be difficult to apply for animals living in groups without ...
Within breeds and other captive populations, the risk of high inbreeding rates and loss of diversity...
The effect of non-random mating on genetic response was compared for populations with discrete gener...
Captive breeding programs aim to maintain populations that are demographically self-sustaining and g...
Minimization of rate of inbreeding for populations with overlapping generations combining live and f...
This article presents a deterministic method to predict rates of inbreeding (ΔF) for typical livesto...
Minimum coancestry mating with a maximum of one offspring per mating pair (MC1) is compared with ran...
Here we present the strategy that achieves the lowest possible rate of inbreeding (DeltaF) for a pop...
Breeding circles allow genetic management in closed populations without pedigrees. In a breeding cir...
The objective of this research was to simulate the genetic gains expected comparing random mating st...
Local breeds are rarely subject to modern selection techniques; however, selection programs will be ...
Excessive inbreeding rates and small effective population sizes are an important problem in many pop...
The objective of the paper was to investigate annual genetic gain from selection (G), and the influ...
A method was derived that maximizes the genetic level of selected animals while constraining their a...