Geographical variation and genetic diversity of Parashorea chinensis germplasm resources

• Published in: Frontiers in plant science Vol. 15
• Main Authors: Xu, Yuanyuan, Liu, Shinan, Finnegan, Patrick M., Liu, Fang, Ali, Izhar, Zhang, Haidong, Yang, Mei
• Format: Journal Article
• Language: English
• Published: 16.10.2024
• ISSN: 1664-462X; 1664-462X
• DOI: 10.3389/fpls.2024.1452521

Introduction Parashorea chinensis is a rare monodominant species in southwest China known for its production of high-quality timber, is facing decline due to its narrow distribution, human interference and habitat destruction. However, there are no reports on genetic diversity and geographical variation of phenotypic traits of P. chinensis . Methods In this study, phenotypic characters and genetic diversity of 15 germplasms resources from five provenances in southwest China were investigated, and their relationships with geographical and environmental factors was discussed. Results Our results revealed a rich phenotypic diversity among the germplasms, with variation coefficients ranging from 3.63% to 45.49%. Among the studied germplasms, NP03 from Napo and ML02 from Mengla region exhibited superior phenotypic traits. Notably, NP03 also demonstrated the highest genetic diversity. Genetic differentiation analyses including genetic differentiation coefficient (0.6264) and gene flow (0.3736) illustrated that genetic variation was most prevalent among populations. Furthermore, redundancy analysis showed that temperature related factors (maximum air temperature, annual mean temperature and minimum air temperature) significantly affected phenotypic variation. Similarly, altitude, longitude, latitude, annual mean precipitation and the minimum air temperature significantly impacted the level of genetic diversity. The molecular variation of the natural population of P. chinensis followed a certain geographical pattern. Discussion Our finding indicated abundant phenotypic variation among P. chinensis germplasms. However, populations exhibited low levels of genetic diversity alongside high genetic differentiation, potentially contributing to the species' rarity. Based on our results, NP03 and ML02 germplasm could be used as the parents for breeding superior germplasm of P. chinensis . Overall, this study provides valuable insights into germplasm diversity and conservation, genetic improvement, and utilization of P. chinensis .