Cytotaxonomy is a branch of taxonomy that uses the characteristics of cellular structures to classify organisms. In cytotaxonomy, the chromosomal configuration of an organism is the most widely used parameter to infer the relationship between two organisms. The inference of species relationships is based on the assumption that closely related species share similar characteristics in their chromosomal setup (referred to as
karyotype). By analysing the similarities and differences in the chromosomes, karyotype evolution and species evolution can be reconstructed. The number, structure, and behaviour of chromosomes is of great value in
taxonomy, with
chromosome number being the most widely used and quoted character. Chromosome numbers are usually determined at the
metaphase stage during
mitosis. Usually, the
diploid chromosome number (2n) is referenced, unless dealing with a
polyploid series in which case the base number or number of chromosomes in the genome of the original haploid is quoted. Another useful taxonomic character is the position of the
centromere.
Meiotic behaviour may show the
heterozygosity of inversions. This may be constant for a taxon, offering further taxonomic evidence. Often, cytological evidence is accompanied and strengthened by other analyses, including
genomics and DNA-based
phylogenies. Cytology has contributed to tracking the evolutionary history of many organisms, especially primates and flowering plants. As example, karyotype comparisons have largely clarified the evolution of
Arabidopsis thaliana and of
saffron crocus, though there are many more studies that deserve highlighting. == References ==