GENETIC DIVERSITY AND GENETIC STRUCTURE OF THE RARE AND ENDANGERED RELICT PLANT CYCAS SHIWANDASHANICA

IF 0.6 4区 环境科学与生态学 Q4 ECOLOGY
J. Tang, R. Zou, X. Wei, D.P. Li, K. Ishimaru
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Abstract

. Understanding the genetic diversity and structure of the rare and endangered relict plant Cycas shiwandashanica is the basis and prerequisite for formulating effective conservation and management strategies. In this study, the genetic diversity and genetic structure of 103 individuals from five populations of C. shiwandashanica were analyzed based on 6 pairs of SSR primers with good polymorphism and stable amplification. The results showed that at the population level, the Shannon information diversity index (I) was 0.709. The mean value of Ho was 0.453. The results indicated that C. shiwandashanica had high genetic diversity. There were significant differences among all populations. The total mean value of Wright fixed index F of the polymorphic loci of each population was -0.147, indicating that there was an excess of heterozygotes in each population. The analysis of molecular variance showed that 21% of the genetic variation existed in the population level and 79% in the individual level. The individual variation was the main source of the total variation of C. shiwandashanica . The results indicated that C. shiwandashanica had abundant genetic variation and high evolutionary potential. The maximum genetic distance between the five populations was 0.268423 (SY1/ZWS1) and the minimum was 0.049418 (SY1/MZT1). MZT1 and SY1 get together, then PFA1, and finally WWL1; This is consistent with the distribution location and distance of the wild population of C. shiwandashanica . Considering the current situation of the wild population of this species, it is suggested to establish a protection plot, carry out in situ protection, and strengthen the ex-situ protection measures such as introduction and artificial breeding. This study can provide theoretical support for the conservation of plant resources of C. shiwandashanica and has important theoretical and practical significance.
珍稀濒危孑遗植物石wandashanica的遗传多样性和遗传结构
。了解珍稀濒危孑遗植物石wandashanica的遗传多样性和结构,是制定有效保护和管理策略的基础和前提。本研究利用6对多态性良好、扩增稳定的SSR引物,对shiwandashanica 5个居群103个个体的遗传多样性和遗传结构进行了分析。结果表明,在种群水平上,香农信息多样性指数(I)为0.709。Ho的平均值为0.453。结果表明,shiwandashanica具有较高的遗传多样性。各种群间存在显著差异。各群体多态位点的Wright固定指数F的总平均值为-0.147,说明各群体杂合子过多。分子变异分析表明,21%的遗传变异存在于群体水平,79%存在于个体水平。个体变异是石旺达石楠总变异的主要来源。结果表明,shiwandashanica具有丰富的遗传变异和较高的进化潜力。5个居群间遗传距离最大为0.268423 (SY1/ZWS1),最小为0.049418 (SY1/MZT1)。MZT1和SY1在一起,然后是PFA1,最后是WWL1;这与石wandashanica野生种群的分布位置和距离一致。针对该物种野生种群现状,建议建立保护地,就地保护,加强引种、人工繁育等迁地保护措施。本研究可为石wandashanica植物资源保护提供理论支持,具有重要的理论和实践意义。
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来源期刊
Applied Ecology and Environmental Research
Applied Ecology and Environmental Research ECOLOGY-ENVIRONMENTAL SCIENCES
CiteScore
1.40
自引率
14.30%
发文量
104
审稿时长
14 months
期刊介绍: The Journal publishes original research papers and review articles. Researchers from all countries are invited to publish pure or applied ecological, environmental, biogeographical, zoological, botanical, paleontological, biometrical-biomathematical and quantitative ecological or multidisciplinary agricultural research of international interest on its pages. The focus is on topics such as: -Community, ecosystem and global ecology- Biometrics, theoretical- and quantitative ecology- Multidisciplinary agricultural and environmental research- Sustainable and organic agriculture, natural resource management- Ecological methodology, monitoring and modeling- Biodiversity and ecosystem research, microbiology, botany and zoology- Biostatistics and modeling in epidemiology, public health and veterinary- Earth history, paleontology, extinctions, biogeography, biogeochemistry- Conservation biology, environmental protection- Ecological economics, natural capital and ecosystem services- Climatology, meteorology, climate change, climate-ecology. The Journal publishes theoretical papers as well as application-oriented contributions and practical case studies. There is no bias with regard to taxon or geographical area. Purely descriptive papers (like only taxonomic lists) will not be accepted for publication.
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