Relationships within Timmia, especially within T. austriaca Hedw. (Musci, Timmiaceae)

IF 1.2 3区生物学 Q3 PLANT SCIENCES

Journal of Bryology Pub Date : 2021-07-03 DOI:10.1080/03736687.2021.1963914

L. Hedenäs

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引用次数: 1

Abstract

ABSTRACT Introduction Within the moss genus Timmia, three or four sections have been suggested based on morphology. Earlier studies conflicted in suggesting that T. austriaca Hedw. either displays limited phylogeographical structure or includes large molecular variation with potential for geographical structure. Methods Relationships within Timmia were inferred from variation in the nuclear 26S and plastid atpB–rbcL and trnL–trnF. New sequences were generated for 64 specimens of T. austriaca. For other Timmia species, sequences came primarily from earlier studies or GenBank. Key results Timmia includes two main, well-supported molecular lineages. Within T. austriaca, four arctic or subarctic specimens resolved in a small-lineage sister to all other specimens. Conclusions Recognition of two sections is suggested: Timmia Hedw. sect. Timmia (syn. sect. Timmiaurea Brassard; syn. sect. Sphaerocarpa Y.Jia & Yang Liu bis) and sect. Norvegica Brassard. Timmia fossils, including T. austriaca, were deposited at least 3 Myr BP in northernmost North America under a milder climate than presently in that area. It is theorised that plants of the small T. austriaca lineage evolved adaptations to survive only under cold conditions, when the Arctic was gradually cooling. Timmia austriaca disperses easily, and because the numerous temperate region samples studied included no representatives of the northern lineage, the restricted distribution of this lineage is suggested to have resulted from adaptation to cold environments. In situ survival of T. austriaca in Fennoscandia during the Late Glacial Maximum, as previously theorised, is deemed unlikely due to glacial erosion and submergence of large areas as a result of isostatic depression.

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Timmia内部的关系，尤其是T. austria hew内部的关系。(Timmiaceae藓类)

摘要简介在Timmia苔藓属中，有人根据形态学提出了三到四个部分。早期的研究与奥氏锥虫的说法相矛盾。要么显示出有限的系统地理结构，要么包括具有潜在地理结构的大分子变异。方法根据核26S和质体atpB–rbcL和trnL–trnF的变化推断Timmia内的关系。对64个奥地利锥虫标本产生了新的序列。对于其他Timmia物种，序列主要来自早期研究或GenBank。关键结果Timmia包括两个主要的、得到充分支持的分子谱系。在奥地利T.Austria中，四个北极或亚北极标本与所有其他标本形成了一个小谱系姐妹。结论建议对两个部分进行识别：Timmia Hedw。门派Timmia（同教派。Timmiaurea Brassard；同教派。Sphaerocarpa Y.Jia和Yang Liu bis）和教派。Norvegica Brassard。Timmia化石，包括奥地利T.，在北美最北部的一个比目前温和的气候下沉积了至少3 Myr BP。有理论认为，奥地利小T.austica谱系的植物进化出了适应能力，只有在北极逐渐变冷的寒冷条件下才能生存。奥地利Timmia很容易传播，而且由于所研究的大量温带样本中没有北方谱系的代表，因此该谱系的有限分布被认为是适应寒冷环境的结果。根据先前的理论，由于冰川侵蚀和均衡凹陷导致的大面积淹没，奥地利T.在晚冰川盛期在芬诺斯坎迪亚的原位生存被认为是不可能的。

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来源期刊

Journal of Bryology 生物-植物科学

CiteScore

4.50

自引率

31.60%

发文量

审稿时长

3 months

期刊介绍： Journal of Bryology exists to promote the scientific study of bryophytes (mosses, peat-mosses, liverworts and hornworts) and to foster understanding of the wider aspects of bryology. Journal of Bryology is an international botanical periodical which publishes original research papers in cell biology, anatomy, development, genetics, physiology, chemistry, ecology, paleobotany, evolution, taxonomy, molecular systematics, applied biology, conservation, biomonitoring and biogeography of bryophytes, and also significant new check-lists and descriptive floras of poorly known regions and studies on the role of bryophytes in human affairs, and the lives of notable bryologists.

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