Ara Miguel-Peñaloza, J. Pérez-Alquicira, Yessica Rico
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引用次数: 0
摘要
背景:选择性采伐是热带山地云雾林中常见的采伐行为,它会影响森林的更新和树木后代的遗传组成。遗传相关个体的空间聚类,即精细尺度遗传结构(fine-scale genetic structure, FSGS),是由于选择性采伐减少了局部尺度上的基因扩散和生殖个体数量而形成的。问题:在有选择性采伐历史的再生场地,FSGS与没有选择性采伐历史的场地有何不同?FSGS在幼苗和树苗中的作用是否比幼苗和成虫更强?基因多样性在不同的生命阶段和地点是否相似?研究树种:白玉兰,一种特有树种。研究地点和日期:墨西哥哈利斯科州Sierra de Manantlan生物圈保护区。2020。方法:通过对211个个体在两个再生点和一个保守点的7个核微卫星位点进行基因分型,评估了四个生命阶段(幼苗、树苗、幼树和成虫)的遗传多样性、遗传结构和FSGS。结果:我们发现在两个更新点只有幼苗和树苗有统计学意义的FSGS,而在保守点没有发现FSGS的证据。遗传多样性估计和结构在生命阶段之间没有差异。结论:我们的研究并没有表明选择性采伐在对照条件下对遗传多样性有影响,而FSGS模式只在M. iltisiana再生位点的早期阶段。
Fine-scale genetic structure of Magnolia iltisiana in forest regeneration sites with a history of selective logging
Background: Selective logging is a frequent practice in the Tropical Montane Cloud Forest which can impact forest regeneration and the genetic makeup of successive generations of trees. The spatial clustering of genetically related individuals, fine-scale genetic structure (FSGS), can develop from the reduction of gene dispersal and the decrease in the number of reproductive individuals at the local scale due to selective logging.
Questions: In regeneration sites with a history of selective logging, does FSGS differ from a site without such a history? Is FSGS stronger in seedlings and saplings relative to juveniles and adults? Is genetic diversity similar among life stages and sites?
Studied species: Magnolia iltisiana an endemic tree.
Study site and dates: Sierra de Manantlan Biosphere Reserve, Jalisco, Mexico.
2020.
Methods: We evaluated genetic diversity, genetic structure, and FSGS across four life stages (seedlings, saplings, juveniles, and adults) by genotyping 211 individuals with seven nuclear microsatellite loci in two regeneration and one conserved site.
Results: We found statistically significant FSGS in the two regeneration sites only for seedlings and saplings, while no evidence of FSGS was detected in the conserved site. No differences in genetic diversity estimates and structure were found among life stages.
Conclusions: Our study does not suggest an effect of selective logging on genetic diversity on the contrasted conditions and an FSGS pattern only in the earlier stages of the regeneration sites in M. iltisiana.
期刊介绍:
Botanical Sciences welcomes contributions that present original, previously unpublished results in Botany, including disciplines such as ecology and evolution, structure and function, systematics and taxonomy, in addition to other areas related to the study of plants. Research reviews are also accepted if they summarize recent advances in a subject, discipline, area, or developmental trend of botany; these should include an analytical, critical, and interpretative approach to a specific topic. Acceptance for reviews will be evaluated first by the Review Editor. Opinion Notes and Book Reviews are also published as long as a relevant contribution in the study of Botany is explained and supported.
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