Abstract
Endemic species are especially vulnerable to biodiversity loss caused by isolation or habitat specificity, small population size, and anthropogenic factors. Endemic species biodiversity analysis has a critically important global value for the development of conservation strategies. The rare onion Allium ledebourianum is a narrow-lined endemic species, with natural populations located in the extreme climatic conditions of the Kazakh Altai. A. ledebourianum populations are decreasing everywhere due to anthropogenic impact, and therefore, this species requires preservation and protection. Conservation of this rare species is associated with monitoring studies to investigate the genetic diversity of natural populations. Fundamental components of eukaryote genome include multiple classes of interspersed repeats. Various PCR-based DNA fingerprinting methods are used to detect chromosomal changes related to recombination processes of these interspersed elements. These methods are based on interspersed repeat sequences and are an effective approach for assessing the biological diversity of plants and their variability. We applied DNA profiling approaches based on conservative sequences of interspersed repeats to assess the genetic diversity of natural A. ledebourianum populations located in the territory of Kazakhstan Altai. The analysis of natural A. ledebourianum populations, carried out using the DNA profiling approach, allowed the effective differentiation of the populations and assessment of their genetic diversity. We used conservative sequences of tRNA primer binding sites (PBS) of the long-terminal repeat (LTR) retrotransposons as PCR primers. Amplification using the three most effective PBS primers generated 628 PCR amplicons, with an average of 209 amplicons. The average polymorphism level varied from 34% to 40% for all studied samples. Resolution analysis of the PBS primers showed all of them to have high or medium polymorphism levels, which varied from 0.763 to 0.965. Results of the molecular analysis of variance showed that the general biodiversity of A. ledebourianum populations is due to interpopulation (67%) and intrapopulation (33%) differences. The revealed genetic diversity was higher in the most distant population of A. ledebourianum LD64, located on the Sarymsakty ridge of Southern Altai. This is the first genetic diversity study of the endemic species A. ledebourianum using DNA profiling approaches. This work allowed us to collect new genetic data on the structure of A. ledebourianum populations in the Altai for subsequent development of preservation strategies to enhance the reproduction of this relict species. The results will be useful for the conservation and exploitation of this species, serving as the basis for further studies of its evolution and ecology.
Highlights
Endemic plants constitute an integral part of flora and fauna, and the extinction of these species can lead to significant ecological changes
This study presents a detailed analysis of narrowly endemic A. ledebourianum using the iPBS amplification profiling method and first reliable genetic data of its population structure
High levels of intra- and interpopulation polymorphism were detected in natural populations of endemic A. ledebourianum using informative iPBS amplification markers, which was possible due to its simple, reproducible, and genome-wide distribution
Summary
Endemic plants constitute an integral part of flora and fauna, and the extinction of these species can lead to significant ecological changes. Anthropogenic transformation of habitats is the greatest threat to the ecological niches of rare and endemic plant species. This leads to the isolation and disappearance of endemic populations, which significantly changes the ecological structures of local flora and fauna. The negative impacts of anthropogenic factors (arable land expansion, deforestation, uncontrolled collection of rare and endemic plant species, overgrazing of animals, and the development of industrial production) along with global climate change are the root causes behind the loss of botanical diversity in natural ecosystems. The flora of the Kazakhstan Altai is considered one of the richest, as it contains more than 40% of the vascular plant species composition of Kazakhstan, which indicates that this region is one of the focal points for the formation of
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