PlanetCatfish.com

Simple Summary
The genus Rineloricaria of Neotropical armored catfish has several species with chromosomal polymorphism, which is where individuals of the same population have different numbers of chromosomes and chromosome structures. This characteristic affects how these fish reproduce and adapt, but we do not fully understand its role in the evolution of this fish group. This study looks at

Rineloricaria lanceolata

, a species known for its chromosome polymorphism. It aims to understand how these different karyotypes arise and how individuals with different karyotypes can still produce offspring even when there is an imbalance in gamete generation. We used one individual as a model to find out how the karyotype was created. It turned out that two chromosomes from different pairs fused together to form a third larger chromosome. This resulted in an odd number of chromosomes, which led to different combinations of gametes being formed in meiosis because of how the chromosomes paired.

Abstract
Chromosomal polymorphism is a significant aspect of population genetics, influencing the adaptation and evolution of species. In

Rineloricaria lanceolata

, a Neotropical fish species, chromosomal polymorphism has been observed, yet the underlying mechanisms and evolutionary implications remain poorly understood. This article aims to investigate the chromosomal polymorphism in Rineloricaria lanceolata, focusing on elucidating the meiotic behavior of karyotypic variants and tracing the phylogenetic origins of this polymorphism within the genus. By employing molecular markers and cytogenetic techniques, we aim to uncover the mechanisms driving chromosomal rearrangements and their potential role in speciation and adaptation. Understanding the genetic basis of chromosomal polymorphism in R. lanceolata not only contributes to our knowledge of species evolution but also holds implications for the conservation of genetic diversity within this vulnerable group of Neotropical fishes.