Sargolzaei, M., H. Iwaisaki and J.J. Colleau. 2006. CFC: A tool for monitoring genetic diversity.
Proc. 8th World Congr. Genet. Appl. Livest. Prod., CD-ROM Communication 27-28. Belo Horizonte, Brazil, Aug. 13-18, 2006.
SPLATCHE (for SPatiaL And Temporal Coalescences in Heterogenous Environment) is a program that allows to incorporate the influence of environment in the simulation of migration of a given species from one origin. In a second phase, the molecular genetic diversity of one or several samples drawn from the simulated species can be generated.
AFLP-SURV estimates genetic diversity and population genetic structure from population samples analysed with AFLP or RAPD methods and computes geneitc distance matrices between populations. The program starts by estimating allelic frequencies at each marker locus in each population assuming they are dominant and have only two alleles (a dominant marker allele coding for the presence of a band at a given position and a recessive null allele coding for the absence of the band).
SPAGeDi (Spatial Pattern Analysis of Genetic Diversity) is a computer package primarily designed to characterise the spatial genetic structure of mapped individuals and/or mapped populations using genotype data of any ploidy level.
AQUASPLATCHE starts by dividing a realistic vectorized network of river streams into segments of arbitrary length. The program then proceeds by simulating the colonization of the streams from an arbitrary source, recording the evolution of the segment densities and the migration events between adjacent segments over time. This demographic history is then used to generate genetic data of population samples located in various segments of the river system, using a backward coalescent framework.
DemoDivMS is designed to predict the genetic diversity at a microsatellite DNA marker, in a finite population, for various mutation models and for variable population size.